One issue I've noticed with these new forms of electric wheeled transport (longboard, transverse and longitudinal one-wheelers) is that the people riding them often don't come from a sports background. They aren't "safe" devices exactly - it takes skill to pilot them, and when things inevitably go awry, it takes good reflexes to avoid damage.
Novices to action sports often throw their arms out to catch themselves when they bail instead of rolling through the fall. They also don't know how to navigate obstacles via strategic weighting and unweighting of their implement.
The energies involved are also substantial -- to put it bluntly, some of these things fuckin' rip, which is super fun, but also makes safety gear a good idea. You can take a lot of trauma and abrasion bailing at 25mph+, potentially life-changing or fatal in the worst cases. There's a reason why downhill longboarders and an increasing number of electric wheel riders wear a fullface and leathers.
I bailed at 8mph on an electric longboard and broke my elbow, severely sprained my shoulder and wrist. I even lost some rotation and dexterity in my hand. It's one of those my arm is never going to be the same type injuries. I was 40 but skated and bmxed into my mid-20s and still felt pretty comfortable with my abilities on the ground (gave up on ramps long ago). I knew this was a risk given the speeds and even got an "off road" model (bigger wheels) to help make pebbles and such a non-issue. Even still, concrete is not flat, you'll eventually come across a missing cobblestone, etc. IMO it's a matter of when not if you'll take a spill.
That said, I think the electric unicycles are much more dangerous. But at least they make it clear that it's not a toy. I passed on the Onewheel because of the random ejection complains I've seen online (which is likely fueling this regulation as it's been known for several years now). While wrecking was not fun, at least I did it to myself. I'd be really upset if I felt like the board did it to me.
> Even still, concrete is not flat, you'll eventually come across a missing cobblestone, etc. IMO it's a matter of when not if you'll take a spill.
As a former skateboarder in my teens I tried longboarding just for the fun of it later in life (around my 30s) and this is exactly why I stopped. Given time enough you will eat pavement, it's just a matter of when and how.
I decided to stop when I took a fall from a gap between concrete slabs that wasn't visible, I remembered to roll but still mangled my knee and somehow my thumbs and was out of commission on a 2 weeks recovery. It fucking sucked, the pain was much longer lasting than when I was a teen, the lost mobility made me unable to work for more than a week. I have responsibilities now, I can't be taking weeks off work due to a stupid fall from something that was supposed to be fun.
The electric unicycles always scared me though and I never tried them. I've seen 2 accidents happening in front of me when I was biking and both were really gnarly, even for my standards with action sports. Calling an ambulance for a stranger passed out after they lost control going over 25km/h and hit a parked car was really not fun.
Is there something more inherent that makes an electric unicycles more dangerous, other than they make them go ridiculous speeds?
I would have thought the larger wheel on an EUC made it more stable and the higher power makes it not have to nosedive. I kind of prefer e-bikes because they are well… normal.
I think it really comes down to the fact that these single wheelers don't support the operator without power. You can stand on skateboard, slow down, and come to a complete halt and it's still working as intended. On a bike you will eventually topple from one side or the other, but the way a bikes works means the rider is supported in a natural position for a long time.
When the one-wheeler loses power it just nosedives, the front hits the ground and they halt immediately.
I wonder if they could save some of the danger by placing small, unpowered wheels in the front and back so when they dip they can at least keep moving.
This - the product has horrible human factors engineering in the low power scenario:
The rider will always be ahead of his/her center gravity when the board starts decelerating unexpectedly, and it's irrelevant whether it's the front digging in, or the thing just decelerating when approaching low battery.
The small wheels on the front and back are an add-on, called fangs (https://land-surf.com/products/fangs%e2%84%a2-2-1). I’ve had them on my Onewheel for years and I’m not sure they’ve ever actually saved me on a nosedive. The front of the board comes down with a lot of force very quickly and even if the little wheels do keep the board rolling, the rider has been rapidly shoved forward and will likely go over the front anyway.
Even on my longboard I really brace myself when letting off the throttle at speed. The regenerative brakes provide a jolt. Also it’s possible to accidentally hit the brake which would likely be a wipe out. It could be because I’m heavier now than my younger days. Forward momentum is a bitch on these speeds.
Unfortunately electric longboards have a pretty common failure mode where they instantly and suddenly brake with full force. I've had it happen once (although i was going slow enough not to bail) and seen it many times.
Isn't the question about one wheel(skateboard with gokart wheel) vs electric unicycle (single bigger wheel between the legs closer driving position to real unicycle)? Not about one wheel vs other more typical vehicles. Both have one wheel but they are two completely different things.
EUC's are safer. (Unless you're going ridiculous speeds, like you said.)
They are more stable unless something catastrophic happens (power cuts out), and if worst comes to worst you fall down in a more "natural" posture, like a running man would. Falling sideways from a bike or scooter is way worse.
It's unstable by design and can't really brake hard without getting rid of the rider really fast. If a careless rider/driver/pedestrian gets in your way, you'll likely be able to stop your e-bike in time as opposed to crashing on a monowheel.
I’ve only watched some videos but the balance part of the unicycle seems to have a big learning curve. The speed is what worries me the most. I’m thinking anything with a motor should probably have a seat.
> That said, I think the electric unicycles are much more dangerous.
Not really. They seem that way because they require skill to ride, but people hurt themselves on electric scooters much more frequently. (People judge "danger" based on how hard something seems to pilot, not on objective measures of failure. Tiny slippery wheels and points of failure in the frame make the electric scooter a much more dangerous vehicle by default.)
I think this is because of the “clearly not a toy aspect”. Riders often are wearing full motorcycle helmets, pads, and rash guard gear. It people geared up that way on other boards/scooters there would be less injuries too. I had no protective gear which was a mistake. I didn’t fully appreciate how speed would compound the impact if I took a spill. Honestly thought it very unlikely I would fall at all the day I did. I was taking a ride on a route I already knew very well.
I also think the initial difficulty of unicycles acts as a good filter so that people with subpar abilities simply don’t try. The rentable scooters are dangerous because people that shouldn’t be on them have a false sense of ability because it seems easy. Until they get to speed or take their eye off the road or something.
My partner was hospitalized for nearly a week and had to have facial reconstructive surgery and nearly lost all her teeth after she got hit by someone on a scooter going 25mph while we were walking
Be careful out there if you combine speed + unprotected mode of transportation
Created a new account to warn everyone to be more aware around street corners. I once tried to catch a train so I rode a scooter on the sidewalk which I normally don't. Seeing no cars, I didn't slow too much at a street corner, and ran into someone. Luckily the top speed on the scooter was 15mph and I slowed to probably 13mph, but still, the force was too much and the person failed pretty hard. I swear to never do that again. Please pay extra care around street corners, and tell your kids to do so.
Thanks for sharing. As a longtime bicyclist, I've been shocked by the increase, over the past decade, of reckless behaviors on the streets due to electric mobility riders. I'm glad to see some are learning, though sad to see it's only at the cost of someone getting hurt ...
While we're on the topic, street corners or not, the warning should extend to all sidewalk riding. Driveways and pedestrian gates don't usually have enough clearance around them that you would be able to see what's coming. (At least in the US where sidewalks aren't typically set up with a dedicated bike lane)
This highlights another big issue. You were riding your vehicle on the footpath. Vehicles of all types should be on roads, not a footpath which is for people on foot. But in many countries for decades the road has been an incredibly hostile place for any mode of transport other than a car. As usual the person with the smaller mode of transport suffers the biggest injustice, in your case the pedestrian.
Of course the type of person to ride a scooter on the sidewalk and hit someone will spin it as a lesson to others. It’s too bad you weren’t sued so you could learn to accept so e responsibility.
Maybe. But even so, I do think the comment might cause some readers to behave more safely. Someone saying "I did this thing and it had a bad outcome, don't be like me" has more impact that someone saying "Don't do this thing."
I for one think the future where we all walk around in cyberpunk body armour to protect ourselves from wayward idiots on powered transportation they are unable to control would be kind of sick
That was sort of the premise of the book "The Circle" by Dave Eggers (not going to mention the film adaptation because it was so bad I pretend it doesn’t exist). It didn’t turn out too well in the end.
I'm not sure that would actually work out. First, some accidents are just accidents on both sides.
Second: We've seen the effect of bodycams on cops. They aren't exactly helping folks prosecute bad cops if they are even on and working and unobstructed. If we can't do it with cops, we probably aren't going to do real well with the general public.
There are other ways to help folks - Things like robust universal (taxpayer funded) health care and paid time off work for sickness and injury that doesn't take weeks to get. This takes the burden off an accident victims and doesn't punish folks on the wrong side of an actual accident nor make lifelong debt for someone using non-car, non-bus transportation.
Around here, I've seen idiots on one wheelers doing 25+ on trails that explicitly ban powered vehicles. The riders were in full cross country motorcycle gear, and doing dumb tricks amidst pedestrians, strollers and bikes.
Someone in that crowd will literally kill someone at some point. They'd better hope I'm not on the jury at their reckless homicide trial.
Very true. If you've never been able to cruise on a skateboard, you might not realize how much damage an unexpected pebble or sidewalk crack will do.
Riding is a constant balance of scanning the pavement for inconsistencies and making corrections to mitigate them. I don't know if that's even possible at 20+ mph.
Your latter point is why I'm not really sold on electric longboards. Your control authority on a longboard is pretty low, and you need a lot of control authority to react to surprise obstacles/maintain stability after encountering one. Sure, DH longboarders exceed 25mph regularly, but they ride in semi-controlled environments (scout the descent for gravel etc before hitting it) and are exceptionally skilled.
Putting random noobs on electric longboards is a recipe for road rash and broken bones. A few years ago, three people in my office got Boosted boards, and I believe we saw two instances of pretty bad road rash and a broken bone among them.
The danger is in the perception. It took me about 10 hours of dedicated practice (over a few weeks) before I felt comfortable using a longboard as a transportation device off of public roads - eg: on a closed campus. When I have seen people pickup an electric longboard they feel safe in a half hour, but obviously don't have any reflexes to back that up.
I rode a Boosted Board for the best part of 1 year on the streets of Brooklyn. I ended up selling it; although I absolutely loved the experience, I knew one day I would rip my face off if I encountered even a small pothole.
Practically speaking yes, but this isn't an unsolvable problem. I ride Originals spring trucks, which use a cam and a spring instead of the urethane bushing in most skate trucks. It takes effort to keep them steady at speed for sure, but paired with soft wheels they feel like pure telepathy in terms of control authority.
> Electronic skateboards have bigger wheels then skateboard-cruiser which has bugger wheels then skateboard.
i've powered a regular street deck with hard poly wheels, what you said is by no means any kind of guarantee. Lots of hacked together monstrosities out there.
Larger and softer wheels work great for mitigating pebbles, sticks, bumps or cracks. I roll over some pretty gnarly terrain with 60mm 78a wheels. You could even to an extent at certain speeds roll of the sidewalk entirely and roll back on quickly and not eat it with these wheels.
It is totally possible. Generally on a One Wheel if it's a small pebble or sidewalk crack you roll over it. If it's bigger and you jump while going over it normally the board will hit the crack or whatever and bounce up into your feet. I was going down a hill near top speed on a one wheel when I saw part of the pavement was cut out, maybe a 2-3 inch groove. Did this, road through the intersection to the otherside and then sat on the curb until I stopped shaking. Probably the closest I've ever been to dying on a One Wheel.
When I went to university, I was going there in rollers, there was a nice slope where I could go relatively fast, in the morning, almost no traffic, good visibility, relatively smooth surface. All it took was a small peeble to launch me a few meters (tens?) flying away. The fall was much more impressive than the damage, I consider myself lucky and was basically the last time I used them. I realized how dangerous it was in comparison to just biking.
They're more stable than you think. I've ridden an eboard for around 1500km this year, and although I've taken some hard crashes (always wear protection, I lost the skin on my hands once and never again) they have been down to me overestimating my grip or underestimating the obstacle. Every time I've hit a rock I've just gone over it.
A lot of it is also the different, more forward leaning, stance you assume on an eboard.
This is ignored so often, it is scary. I have been longboarding pretty frequently and extensively up until 2 years ago. I've had my fair share of crashes and plenty of scars to serve as a reminder, but generally I always was a pretty safe and relatively skilled rider. But I also had multiple fun but stupidly risky experiences on my longboard, but no experiences comes close to the fear I felt when joining my friend on an electric longboard riding through fairly dense urban traffic.
Having that experience, I don't understand how people seriously treat longboards (or similar modes that heavily depend on the riders ability to balance well) as a serious option in traffic. Bikes? Yes. E-Scooters? Probably yes. Longboards or Onewheels? Hell no.
I see a lot of people with no business in traffic commuting on bikes too. Especially with the advent of divvy or whatever your local equivalent is. Usually people with their own bikes are more than capable.
For a fun observation, go to your local Harley Davidson and watch people that haven't ridden a bicycle in 20 plus years try and learn how to ride a motorcycle, with the expectation that they'll be ready to take their licensing test in 2 days. And many of them won't even bother with that...or they'll take the test on a scooter instead of a motorcycle with gears.
The test is not hard either. Nothing like what our European counterparts have to go through.
> I see a lot of people with no business in traffic commuting on bikes too.
Bikes should not be forced to drive in traffic anyways.
> Especially with the advent of divvy or whatever your local equivalent is.
We’ve had bike sharing like this for years at this point and it works like a charm. In fact, it’s offered by the local transportation agencies. I haven’t noticed any differences between bike sharing users and others in terms of cycling ability.
> The test is not hard either. Nothing like what our European counterparts have to go through.
I got my motorcycle license last year. When I started to take riding lessons it was the first time that I sat in a motorcycle, it took me about 5 months to get my license (here in Germany). I don’t understand how a few hours of dedicated training is seen as sufficient for safe traffic participation in the U.S.
One Wheel in traffic isn't too bad. As long as you stick to lower speed (25 mph) roads. It's actually nice because it's super easy to go slow on a One Wheel if you have to hop on the sidewalk (bike lanes don't always work). I could pretty easily go 3mph on a One Wheel, much easier then I could on a bike.
I'm not sure this logic applies to the OneWheel. They aren't self balancing like a SegWay where the average person can get on and be fine zooming around within a couple minutes. The OneWheel only does about half the balancing work, you have to do the rest, and learning to ride one can take days or longer. During that time you'll fall many, many times. It also doesn't take much to eat shit on it even as a skilled rider (1). You'd have to be a complete moron not to anticipate it throwing you at any moment.
Also the OneWheel, at least the Pint, can only go up to 15mph, and only on perfect conditions on the most aggressive settings.
(1) I had several weeks under my belt before my last incident and still ate asphalt because the cutout in the sidewalk I was going down as a little steeper than I had thought. The board was angled down just a smidge too far because of this, caught a lip where the asphalt met the sidewalk, and "physics took control".
EDIT: Addendum: That isn't to say parent comment is wrong about other boards/etc, or that the CPSC is wrong.
"The OneWheel only does about half the balancing work" -- It's more like 99% of the work and I defy anyone to stay balanced and keep riding free wheel if the power suddenly cuts out. The OneWheel's balancing algorithm is so good it gives the the illusion of competence after less than an hour.
> I defy anyone to stay balanced and keep riding free wheel if the power suddenly cuts out.
Does the wheel actually freewheel if the power cuts? I've not played with one (yet), but with the reports of them dipping forward, I was curious if the wheel/motor actually locked up.
I think it's because as the rider is leaning forward to indicate a desire for forward motion, the board drives the motor to move you forward, but also counters the natural tendency of the front lip to just touch the floor.
If the motor cuts off while you are leaning forward, the lip will immediately hid the floor and stop you. And your muscle memory isn't expecting that kind of balancing, having been used to the board "fighting you back" on leaning forward too much.
It's considered bad form to lean weight onto the front. You should have most of the weight on your back leg and push down with your front foot to accelerate. At least among the people I road with. If most of your weight is leaned backwards it's easier to just fall flat to the ground if you need to stop. Had the front of my board clipped by a car turning into a parking lot and this saved me.
indeed you should use your hips instead of head/shoulders to weight the board, but it doesn't actually move more weight to the back (think about it, to go forward, the board needs to feel more weight on the front, for which it compensates by accelerating = increase speed + levels the board)
the weight distribution doesn't change, but your body had much more control over the distribution.
That's a better way to put it. I tend to phrase it like I do because ideally your natural reaction should always be to lean back on the one wheel which for me in position ends up feeling like I'm standing one footed and pushing down with the other.
Steering with your backfoot takes some getting used to if you've never board sported before. I've not snowboarded but I've been told it's like that?
Also skid plates are a life saver. You're going to have to do a drag stop at some point, might as well do it on a something easily removable.
That’s interesting. I’ve spent years snowboarding, used to skate as a kid, little bit of surfing, and they all have transferable skills. The thing that I found so different about the OW is the LACK of rear foot push since you only have a single contact point with the ground. Like other person said, I move hips to control speed, squat to turn heel-side, but I don’t feel like the foot control is anything like board sports that have more contact with ground/snow/water. Maybe I do it subconsciously with super tight turns for trails but not with flow and carving.
Did you replace your rear pad and/or? I put one of those like... skateboard style ones on the back, might be changing what I'm doing to steer/the feel of it. Board control is for sure different. The only conscious change I made to my riding style was intentionally keeping my hips further back. It's also been about a year since I sold mine so I might be misremembering.
No, I haven’t changed my footpads, haven’t even sent out for my GT recall pad, yet, which I need to do. Do you like the new pad in terms of control? Got link?
Riding an electric skateboard up and down the hills of San Francisco was one of the most dangerous and exhilarating things I've done, and was only made possible by the years of skateboarding and snowboarding experience I was lucky to have. I completely agree with your take, it was akin to a full day of snowboarding in terms of the athletic load it put on my body, and constant danger I seemed to be in. There are so many opportunities to hurt yourself and only a few ways to safely navigate the random situations you encounter. I'm glad I got out without serious injury.
The amount of people I see on e-scooters with absolutely horrid body positioning, unaware they can use their body weight to stop much quicker scares me.
That and the lack of helmets.
I ride mine as safely as I can, and have 5000 kilometres done so far. I’ve had to drop the scooter and bail a couple of times, but mine maxes at out at 25km/h for good reason. Faster than that on tiny wheels is a horrible idea.
This is absolutely the case. When Onewheels were new they were mostly ridden by people who came from other boardsports. They knew the danger and treated them with the due respect, including taking the time to learn how to properly operate them.
In the last couple of years they've been wholesale adopted by techies who treat them like toys. The consequences are inevitable.
Knowing how to fall is such an incredibly important life skill, it's baffling to watch people who never learned it.
As a ski instructor, you could instantly tell from their first fall the kids who would get it and stick with it from the ones who would be sitting in the lodge pouting after an hour.
I know how to fall (intellectually). How do I translate that into the real world? I took a nasty fall on my MTB this summer, broke my shoulder. Everything was instinctual and a blur.
Can we somehow retrain our innate responses?
I know it's not helpful, but from a lifetime of doing really stupid things in action sports, starting young is a lot of it. Falling like anything takes practice, and falling when your 12 is so much less painful than falling when your 35.
Anyone who grew up in the skatepark/terrain park knows the experience of learning new tricks and progression. It's thousands of falls building up the muscle memory to land the trick. Over time, it just sticks (or you hurt yourself bad enough you quit).
Cant really do this when you're old. It just takes less to cause damage, unless you're in excellent shape from doing active and dynamic movements over years of work.
Now to try and be helpful - Martial arts, wrestling and doing low weight dynamic movement exercises will help you train. Also, if you want your whole body to be sore, pick up a skateboard, strap as many pads as possible, and go learn how to ride a bowl at your local skatepark. Guaranteed you'll get lots of fall practice :)
I skied when I was young and later rollerbladed on ramps and street and did adult gymnastics classes for fun. Definitely learned to roll out of a crash and body awareness in the air. You just get used to rolling instead of trying to stop yourself.
I used to ride a racing bike to work and had to slam the brakes on suddenly once when an idiot in a car suddenly turned in front of me. I went over the handlebars, but instinctively did a forward somersault/roll and was pretty much unhurt except a slight graze. It happened so fast that I have no idea how I did it. In the air I must have recognized that my body was spinning and I just tucked into it until I was the right way up again.
So I think the answer is just practice. Do silly shit until you learn how to land it. A foam pit makes it less painful. :-)
> I know how to fall (intellectually). How do I translate that into the real world?
As a martial arts instructor, here's my advice:
The first month or so of aikido classes is a great way to learn rolling. Start on your knees, on a padded floor, arc your arms/"hold a ball", & practice rolling diagonally (eg right shoulder to left hip, etc)
1. Keep arms in a curve: the arms pattern your fall, rather that 'push the ground'
2. Point your nose into your armpit. Don't let your head touch the ground
3. Protect your clavicles. Super easy to break, especially if you hit the ground with a stiff arm. Clavicles take MUCH longer the heal than wrists, & hurt worse too
4. DON'T learn rolling from gymnastics, if your goal is to survive crashes on concrete. Gymnasts practice on thick padded floors & don't mind that their head touches the floor. Bad idea when there's no padded floor.
This is great advice - it is true to me as well. I would ask You to also consider mention rolling across the upper back unless You don't endorse it and then I would like to hear [read] that too - i.e., one backside shoulder across to the other with your #2. It has saved me many times.
Practice. In mountain bike terms, that means lots of slower/easier terrain, with occasional “soft” falls. If there are skills areas in any of your trail networks, those are great. Trail running can help - you’ll eventually trip and you’re closer to the ground and going a bit slower, so you have a bit more time to react (tuck and roll, hopefully).
That said, broken collar-bones (along with separated shoulders) are one of the most common serious cycling injury. I’m one of the very few of my friends who hasn’t broken one. And several friends have broken or separated each shoulder multiple times.
Ouch. That’s not a common break, IME, but either an outstretched arm or direct trauma can cause it.
I’ve mildly separated both shoulders a few times over the years. Thankfully no major separations or breaks - just some MRIs and PT (plus a few concussions). I did break my forearm when I was 5 - fell jumping a fence, reached out, and snap. Classic broken arm.
Folks are saying to practice your fall-possibility-sport where a fall won't hurt as much. I say take it a step further and do focused practice of falling and rolling intentionally. There are a lot of videos on YouTube about how to do so.
When I started long boarding at ~38, I practiced throwing myself into a roll first from a crouch, then standing, then standing on the board - onto grass of course. It helped a lot when I did inevitably have unplanned falls on the pavement.
I have had reflexes learned from contact improvisation kick in during a couple random low speed falls from standing or walking/tripping. I had a feeling of "ah I have been here before" as I fell. Maybe not relevant to oneboard speeds, but relevant if you trip on a toy or kid in your house, or slip on some ice outside.
Practice at home (outside on grass is nice) starting from on your knees work up to on your feet. The real test is to have a partner push you over. Spend time strengthening the neck to avoid concussions.
Casual ice hockey might be a good start. It’s certainly possible to get hurt, but with shin pads and gloves, a good sliding fall on the smooth ice will be totally painless.
The most instinctual thing we can change is avoiding panic - and the negative things it causes. Like looking down instead of ahead. Or trying to stop yourself.
No, it's not!
When you surf, you get used to punching through the surface and then holding your breath and dealing with the water movement.
You have to consciously remind yourself to not do the equivalent of going head first through the face of the wave or stretching out your toes when bailing of the board.
Why can't life skills, especially ones that could be lead to injury, be explained instead of each person having to make the mistake before they learn it?
A lot of people just fall. Like a sack of potatoes. Their inner ear senses a point of no return, and they just let gravity take over from there.
Other people sense the fall, and react, but they are still just trying to stop the fall from happening, so they break their wrists on impact.
But usually anyone with any kind of athletic experience or decent kinematic awareness understands that the fall is happening and the point is to direct it. The elbows tuck, the neck lowers, and they guard the body while directing the inevitable fall.
Judo and parkour both actively teach falling and body-awareness. Gymnastics does, though it’s not generally as formal/explicit - you just get the body awareness from beginner-level tumbling.
Agree. Near a building under construction I was on my Boosted board riding along probably around 6-8 mph and couldn't see a water hose that was strung across the road, and went flying off. I was in protective gear and probably would have otherwise had some kind of head trauma. I've skiied and bicycle regularly so those played in to me not breaking anything.
I wasn't brave enough to turn the speed maximum up beyond the regular setting.
Yup - and by the time you don all the safety gear appropriate for motorcycle riding it's just not quite as much fun anymore, is it? Seriously though, you should at least be wearing a 3/4 helmet when riding these things and it wouldn't hurt to wear a riding jacket. It's all fun and games until you inevitably fall.
Heck, i went over the handlebars of a razor scooter in Palm Springs (bad place to ride anything with small wheels) in my early 40’s. Thankfully, i just came out bloodied (i still have the scars). I would hate to try to do that with something at a higher speed.
funny, I was about to build and electric skateboard, then I thought: "hum, I'm an out of shape 100+ kg slob, maybe 1) I shouldn't take a heavy fall from a standing position 2) use my muscles for transportation".
So I got a non-electric bike, because I'm too lazy to walk.
Hmm, I don't think people using bikes are too lazy to walk. Then you'd use an electric bike. People using a bike are too busy to have time for walking. Using a bike is just as much effort, just condensed over a shorter period of time.
To be fair: I simply cannot ride a bike in my area - I moved to a mountainous area about 10 years ago. I'm fine on flat stretches, obviously OK downhill, but uphill is a struggle. A half a mile uphill is no joke. I walk because I can't realistically ride a bike. An e-bike would allow for slightly faster transportation and the ability to go up somewhat steep inclines. Since the ones around here are all electric-assisted (you still have to pedal), it means that I'd at least get some movement out of it.
I genuinely do not believe any OneWheel riders are in this category. Loads of things aren't safe and we still let people ride them. I don't have a OneWheel, but my friends and I have beat those light-up speed signs enough times on bikes, longboards, skateboards, you name it.
It's fun as fuck, and maybe you can die so you should wear a helmet but preventing people from playing with death is bullshittery.
Reading this warning, I don't understand why now? Is there a bug with onewheels that are causing this injury/death? Or is it just rider error doing a dangerous activity?
Is the CPSC going to start warning against purchasing Rossignol skis or Santa Cruz mountain bikes because their respective activities are dangerous?
Participation in action sports and high-speed transportation will result in a higher expected mortality rate over the mean. I don't know who in their right mind would think flying down a street at >15mph on a single wheel would be _not_ incredibly dangerous.
Let adults make stupid decisions - whether that's jumping off a building with a parachute, riding a bike down a recklessly steep hill or hurtling my body down Main St. on a sideways unicycle.
> Is there a bug with onewheels that are causing this injury/death? Or is it just rider error doing a dangerous activity?
The article describes the scooter suddenly stopping operation and throwing riders off. It's not just scooting being dangerous generally, but a specific product flaw.
I am absolutely no fan of Future Motion, and I ditched my OneWheel in protest. This isn't entirely a product flaw and comes down to physics: the board pushes you back (by lifting the front) to indicate that you are exceeding it's capacity to balance (all balancing products have a limit, with no exceptions). It will also push back when the battery is low. Either way, ignoring pushback is how people "suddenly have the board stop."
Major caveat though: nearly all reputable Electric Unicycles (what I switched to) use a supercap for emergency power and can pull you out of almost anything. FM is too cheap/stubborn/unknown to do the same.
Furthermore, EUCs generally have a speaker and can make audible alerts when you approach the limit. OneWheel pushback can sometimes be really ambiguous, and can be missed. EUC apps also generally vibrate or something during these events. The same can't be said for FM.
The big issue recently has been the OneWheel GT, a.k.a. Ground Torpedo. The foot sensor "ghosts" and causes the board to miss disengagement from the rider. This results in the board careening off (at 35mph) into whatever/whoever is in front of it. The last I saw was one having made a good bend in a wrought iron fence. FM has generally denied that it is a widespread issue. I suspect it's the Ground Torpedo that has cast so much attention towards FM.
The last nail in the coffin (which has nothing to do with the CPSC issue) is that FM are aggressively anti-right-to-repair. The Ground Torpedo has volatile RAM in the Battery Management System that bricks the device if it loses power (due to self repair, or even complete discharge). The claim is that people are installing inferior batteries, the irony is that it is FM who install cheap crap.
The pushback is entirely inadequate as if you’re leaning forward enough you won’t have time to even feel it. It happened to me - I was using it to search for my dog that ran away for the first time ever. Because I was in a tizzy I wasn’t wearing my helmet, for the first time ever. Someone told me where she was - I floored it to get around a slow bicyclist. I nosedived.
Luckily I had “fangs” on it that are a set of small wheels you can add to the front. That bought me the time to fall correctly and all I ended up with was a severely skinned arm.
It should always have enough power to go “whoa, you’re trying to go too fast” and gradually slow you down while keeping the front up.
Mine’s been collecting dust and I’ve been meaning to sell it. I’m assuming that’ll be pretty difficult now.
That's emergent behavior (and that emergent behavior is the principle by which all balancing devices work). All it tries to do is keep the board level. Below a certain torque (which is inversely correlated to available wattage and speed) the board loses the ability to stay level. If overcurrent protection kicks in then the motor will abruptly turn off, usually resulting in a nosedive (because your center of gravity will be towards the nose of the board while speeding up). There are experienced riders who can ride pretty far beyond safe limits by balancing themselves, but that's incredibly dangerous.
I can't prove it but I'm fairly certain my OneWheel Pint just "powered off" a couple of times while in normal operation. Luckily I was going slowish so I was able to run-off and catch myself.
It does seems possible the CPSC is noting an actual product glitch. If the microprocessors aren't hardened for it or using redundant chips, then it'd be possible for them to bit flip occasionally. Among many other possible design flaws.
I'm on an InMotion V5F, which is the slightly more recommended entry-level EUC. I understand that Begode is a better brand once you get into the midtier, and KingSong is the best high-tier brand. My only complaint is that I wish it went a little faster (I guess that's always the case no matter the top speed). It's much easier to transport when it's flat (i.e on foot) as it has a "leash" and just rolls along next to you. It has ~18miles of range. It took me about 8-10 hours (basically 50% of the battery) to successfully balance, with pretty extensive prior experience with a OneWheel.
They are objectively safer so far as the forwards/backwards balance goes. The theory is that it's all around safer because of the psychological effect of the steep learning curve. You do still want a motorbike helmet and BMX/skating pads (the community is way more pro-safety, which is nice). You'll need to try soft-sole and hard-sole shoes, one of the two will be unusable for you due to foot/sole fatigue. Once you get to mid-tier, you generally see incrementally more biker gear.
You don't look as cool on it. It doesn't have the same emotional impact. It is way more fun.
You could also look at electric skateboards or scooters.
EUCs do not seem like a very good alternative to the OneWheel. I think a huge draw to OneWheel is that it looks like a skateboard, but has one big wheel so it handles most terrain without trouble, helping to avoid the pebble paranoia you usually develop riding on a normal skateboard.
I did find the Trotter MAGWheel T3 as an alternative, but it reviews badly from its "prototype without any polish" experience in use.
It sucks that there seemingly does not exist a good alternative to OneWheel, other than changing to a different product category entirely. I wish we can get to see some true competition in the one-wheeled skateboard category soon.
imo the scooters while more portable and cheaper.. at least the examples i have access too.. lime/bird etc. have a problem due to hard low diameter wheels. They can get hung up on random gravel or small sidewalk 'cliffs' leading to potential over the handlebars ejection.
I went with an ebike for my neighborhood 'runner' (i don't currently commute).
I don't think this is what's happening, at all. Here's a deep dive into what's actually happening, which is people ignoring built in safety, overpowering the motors ability to keep them upright: https://www.youtube.com/watch?v=WGn7iPN07XI
The motor is at maximum power and speed when this happens.
This video is directly produced by Onewheel's marketing department. It does certainly highlight one way user error can lead to injury on a Onewheel, but I don't think this is a credible refutation of the idea that there may be a flaw in the product.
I had a onewheel that would occasionally just stop. The first time I was going at 15 mph and fortunately came away with only a few scrapes.
I sent it in and they fixed it. This is their explanation which I don't know that I fully believe:
Our engineers completed the repairs on your board! They found that the power button had broken which led to damage to the controller circuit board. Both have been replaced under warranty for you. After your board passed our post-op testings it was picked up by FedEx!
I see, assuming that is what's happening here I'm still not entirely certain if this is usage error or a design fault. There's two things I have my doubts about.
Firstly, sure pushback seems like it is noticeable but is it really instinctual to push less when something starts pushing back? A counterforce is good at preventing someone from moving something, but I'm not too sure if it's good at preventing them from trying.
Secondly, I have my doubts about a system of transportation that cannot slow down without throwing off its rider. I mean the automatic balancing is a fun trick, but it's somewhat concerning when the only response it has in case of problems of insufficient power is to accelerate even more and when that doesn't work it does a nose dive resulting in what looks like a sudden stop.
This can be ridden through as well, the bumpers are consumables that will slide on pavement. This is what I'll typically do if I push the board too far, though I have pitched the front into a sidewalk crack where it stopped dead and I kept going.
But I've got decades of board riding experience that has taught me to keep my center of mass over the top of the board. This is an important skill to deal with unexpected bumps on snowboards and skateboards as well. Even when the board stops due to colliding with an object I've still got a decent chance of running it out.
Is the CPSC going to start warning against purchasing Rossignol skis or Santa Cruz mountain bikes because their respective activities are dangerous?
Skis balance just fine without power. A skier will slow gracefully due to friction.
Likewise, mountain bikes don’t fall over when power (leg or EV) is removed. They coast to a stop. A rider can dangle their feet to slow and balance.
A One-Wheel/electric unicycle doesn’t naturally balance when power is removed. During use, the rider is leaning forward and the board is fighting that forward fall by accelerating forward and pushing the board/deck back level. When power fails, the nose of the board/deck necessarily plunges into the ground, tossing the rider forward. “Training wheels” on front and back would mitigate this, but would look dorky, so nobody (that I’ve seen) builds them that way.
They sell accessories for the onewheel that puts little wheels on the front and the back, they don't really work reportedly. Maybe down to the thing I can't stand about escooters ... the wheel diameter is just too small and too dense/inflexible. If a decent sized chunk of gravel is going to cause your wheel to just stop rolling .. well that's not great.
I should have explained this more. There are whole threads on YT on how these things are super dangerous and causing a lot of injuries. Especially with random lockups.
There are videos about the poor construction, lockups, dangerous to self repair, etc.
I found them when I started to look into buying one of these myself.
This is not a link to a video describing a specific bug in the product. It's just a link to a search of "onewheel injuries" in YouTube, which presents a variety of videos detailing all manner of injuries that come from operator error and the inherent dangers of OneWheel operation. Try searching for "mountain bike injuries" and see what you get.
Is there anything else? (I'm sincerely interested. The CPSC article clearly infers a situation in which it suddenly stops. Is this confirmed?)
What I'm finding after some light digging is that this "nosedive" problem has seemingly been injuring people for years. There's apparently even a small ecosystem of add-on products that purport to address it: https://www.badgerwheel.com/shop-online/badgersense
These search results do not appear to describe a flaw in the product. I watched a bit from one of the crash compilations and would describe every crash I saw as rider error. Many of them were attempting stunts, holding cameras while riding, or both.
It may be easy to make such errors, but the same could be said of a unicycle, skateboard, BMX bike, or any of many other vehicles generally seen as safe enough for sale to the public.
Not even 4 deaths a year, I have to say this is still a magnitude safer than swimming or skiing. It's dangerous to some degree, but enough for a recall seems over the top. Just the statement itself seems unusually targeted. First they came for the magnets, now the uniboards?
I think at least part of the difference is that this is a single company that is building, selling and supporting this product. They go out of their way to hold their dominance and not allow for competition and thus improvement of products. The CEO says as much so in his video and in a lot of ways is using safety and control as an excuse for this. Since that is the case, they should own it and provide a product that doesn't randomly lock up as well as have a whole bunch of well documented electrical / construction / design problems.
Imagine that there was only one company that made skis.
My take on it is that if it's no more dangerous than the term "20+ MPH electrically-driven skateboard/unicycle hybrid" sounds, then it's perfectly fine to market it to adults.
That sounds kind of dangerous to me. If I was going to ride one, I'd be sure I was wearing a helmet, knee pads, and elbow pads. I'd ride it in a very controlled space free of obstacles, uneven surfaces, and unpredictable road users until I mastered controlling it. I'd step up that safety gear a notch if I was attempting stunts.
Some people aren't that careful, but as long as they're injuring themselves rather than others, it does not strike me as grounds for a recall.
Edit: the wheel locking randomly or unpredictably certainly would be grounds for a recall, but the linked Youtube search doesn't show that, at least not without watching a couple hours of video.
It is too easy to nosedive on these things at speed and go superman. Either a balance mistake or hardware failure. There are tons of videos of people nosediving.
There are now third party companies making little wheels that sit on the end edge that are supposed to help protect you. IMHO, that is one advancement that the company should be making as part of the core product and not just outsourcing.
Safety wheels do seem like a good feature that should be standard on these. There's a speed over which they can no longer accelerate fast enough to self-balance, and braking to override the user's questionable decision to go faster would cause a nosedive.
What I'm seeing from a quick search is that there's an audible warning upon exceeding the speed that's safe for self-balancing. Ignoring that is rider error.
Yeah future motion cites bicycle deaths vs onewheel deaths. As if bicycles are not used to cover many many orders of magnitudes more miles traveled. Even with that we should be talking about bicycle deaths caused by a bicycle hardware fail, not being hit by a non-attentive driver.
When the GT was released, there was a problem with "ghosting", which meant the board would keep moving after the rider had gotten off the board. This was traced to a faulty sensor in the foot pad, for which Future Motion eventually did issue a recall and will replace that gen foot pad at no add'l cost.
It affected a minority of the boards, and the biggest concern was the board crashing into a pedestrian's ankle or smashing into traffic or parked cars. It was certainly a concern, but in no way something that could reasonably be expected to cause death or injury to the rider.
That recall from FM of the footpad was done this summer.
There is no open issue that I'm aware of with the board.
Using them is inherently risky though, like downhill biking or snowboarding.
I can only imagine it's about the feature where it "warns" you when you are leaning too far, which you can choose to ignore. I'm assuming most injuries are from people pushing the angle way too hard
"Is there a bug with onewheels that are causing this injury/death?"
There was an issue that the community referred to as "ghosting" whereby the board got a bit out of control. This was fixed with a firmware update. The boards also nosedive when approaching top speed. Some people consider that a bug, but it's just users neglecting instructions and warnings.
I know a couple of people injured by the so-called non-bug and they have both dumped their one wheels and feel duped about it.
I hate to think that the whole idea is fatally flawed, but it should have enough reserve power to gracefully slow you down if the machine is in trouble. They guys I know, one is a very talented board sporter and broke his collarbone. He takes safety pretty seriously and felt like there was no warning and it just cut out on him. North of 10mph? That's a pretty good tumble for most people, you might not just pop up after it.
In the case of my friends, they knew they were going to get hurt, they were setting up ramps and trying to do tricks and things. They entered into it with that in mind and then decided it wasn't for them. Hard to imagine how a total civilian would approach such a device.
Bug is a bit of a misnomer, it’s a constraint by the laws of physics due to the board having only a single wheel. If the board is being pushed beyond operating capacity, there is no graceful way to slow it down without the rider cooperating. If the rider never cooperates and the motor overheats, that’s when you see a nosedive.
onewheels suffer from a problem known as nosediving in which the board shuts off when it can't supply enough power to support the rider, as the board is self balancing this is a problem intrinsic to the board's form factor. The board works in a similar fashion to balancing something like an umbrella on your hand, as the rider leans forward it creates an imbalance that requires the board to accelerate in order to keep the rider upright. The only possible safety feature to prevent nosedives is to inform the rider that they're approaching the board's limits, this is done with "pushback" where the board elevates the nose making the rider uncomfortable, signaling that they should slow down. Newer boards are more aggressive with pushback, it's definitely a balancing act giving the user the most power from their board while also preventing them from nosediving, future motion faced significant backlash when their new flagship board implemented extremely strong pushback at a speed lower than a prior discontinued model
Mine just turns off even on flat ground when fully charged and ejects me forward. Started happening after about a week of use, just as I was getting comfortable, but it's just completely unusable. Maybe I'm a bit too big, or riding a bit too far forward or something, I don't know, but I feel a bit vindicated now.
What a waste of money, I'm glad I wasn't injured worse than just some scrapes and bruises.
As a onewheel owner, one feature I think needs to be eliminated from the device are the "digital shaping modules" that allow you to modify the behavior of the board via software. It should has only one mode, which is "do everything possible to make sure the user doesn't crash"
I only had one fall on my onewheel with ~2 years of use, and that was when I was testing one of the "smooth ride" software modes and it therefore didn't move forward as quickly as I usually expected (because it was emphasizing "smooth" over "responsive") causing me to fall forward. There was absolutely no good reason for that fall to happen, I think.
Good summary. I would just add that "can't supply enough power" is a state the board can enter into either in lower battery levels or (more often) when a rider has put their center of mass too far forward, causing the board to work harder to stay under them, while also moving at a higher rate of speed or accelerating - the board can't give enough power to maintain this.
Pushback is to be respected, but the user can also ignore it and carry on. It's literally the board telling you that you need to get ready to run if you don't stop, but many will just ignore and keep on keepin' on, often at speeds faster than they are capable of running.
I've said before that Onewheels are the Lawn Darts of our generation, we're lucky to enjoy them before the nannies start taking our toys away. They are super fun though - so much fun.
Or “Yeah a bunch of my friends have broken their bones at our weekly OneWheel meetup, and OneWheels are universally recognized as a wheeling death trap if you’re not careful. But it’s totally worth it because, like, it’s fun!” https://www.reddit.com/r/funny/comments/ywkg0y/the_scorpion_...
I have a broken nose and cracked ribs to show for years of snowboarding.
Scars from wounds and stitches from years of MTB.
Nothing but a bit of bruising from the OW.
It probably helps that I’m middle aged, story would probably be very different if so had one in my teens or twenties.
Nothing I’ve possessed before the OW has instilled the kind of giddy joy reminiscent of being ten years old that it brings. It’s insanely fun and delightful!
That said, yes, half the posts on the OW sub and discord are people showing off injuries. The other half are older people admonishing everyone to pad up. I wear knees, elbows, wrists, and padded shorts, typically long clothes, either a skating helmet or full face depending on my plans. I practice running out, falling, hopping obstacles on the OW. Practice means pain, so it’s hard to convince yourself to do it, but it’s totally worth it. I’ve done some impressive subconscious recoveries.
What everyone is saying here about shifting weight with hips rather than upper body, learning how to grind the nose and tail, keeping feet oriented to run, are all parts of good riding technique.
There definitely is a learning curve to riding safely. I don’t think that warrants a recall though, or threats of one. Would have preferred the agency to voice it differently - warning about risks of injury to beginners - rather than the fear-mongering about phantom death traps.
I’m assuming you don’t take part in the MultiGP drone racing scene then. Onewheels and quads just seem to go together - at any big race you’ll see a bunch of them wheeling around.
Quads can be pretty dangerous too. One wrong switch flip and you can look like you went through a deli slicer. Move up to the bigger prop sizes and they can do more than that.
yeah go browse /r/multicopters to see people who have absolutely shredded their hands because they thought the copter was disarmed when they go to pick it up.
Apparently some users have attached smaller wheels to the front of the Onewheel that engage during a nosedive [1]. I wonder how effective these are at preventing injury.
That split second could be all I need to jump for grass instead of pavement. I've seen people intentionally ride the nose so it's likely something that they should just integrate into the thing.
When I was a teenager I rode my skateboard down a parking lot ramp when I realized I was going way too fast, was about to enter the street and the only way to bail was to jump off and run. It looked about like that video.
I didn’t realize these one wheels have top speeds of 16-20 mph. That’s faster than most people can sprint. 16 mph is a 3:45 mile. 20 is a 3:00 mile.
> we're lucky to enjoy them before the nannies start taking our toys away
But I dunno, where do you draw the line? As a 50 year-old who makes a living typing I chose not to buy a table saw last year because I decided it was inherently a riskier tool that I ever wanted to use. I ended up with a track saw instead. I think that was a good decision but not sure it’s one I would have been wise enough to make in my younger years. Now I’m not advocating for banning table saws: my point is that Onewheel can put every warning and disclaimer in the world on their product and some people will still not appreciate the risks involved.
That said, 4 deaths over 2 years doesn’t seem out of line with other products in the same category. I wonder if something else is going on to draw the CPSC’s ire.
A lot of the older guys I've seen on these are generally wearing motorcycle pads under their jackets/other clothing.
Even doing it as a 27 year old I hit the ground going twenty, I was sore for a week plus afterwards. I hit the ground and just rolled out the energy. Had a friend break my helmet testing mine out so I consider myself lucky.
16 mph is also a 14 second 100-meter dash. You have to be in decent shape to run that quickly and your legs already have to be in motion. 20 mph is an 11 second 100-meter dash. That’s fast enough to win races against all but trained athletes.
FWIW, I’m a marathon runner with a 3:07 PR. I’ve done a lot of speed work. I don’t think I could run fast enough to keep up falling off a board in motion at 16 mph.
The speeds are nothing to sneeze at, but also keep in mind that the peak speed in a hundred meter dash is higher than the average speed, and when you're jumping off a device you're rapidly losing speed which means less effort too.
There is a new(ish) safety device for table saws called a sawstop, which can capacitively detect flesh hitting the blade, and eject it before it causes injury.
Works great, and there's a campaign to make them mandatory safety equipment on new table saws.
Yup I didn’t want to spend that much and it still doesn’t help with kick backs. I decided the track saw was sufficient for what I wanted to do, safer, and more space efficient. If I did ever need a table saw though I’d consider a Sawstop model cheap insurance. Maybe their parent will be expired by then. A few years back they won a patent suit against Bosch I think.
I think I ran into this "can't supply enough power" state last week. I was coming to the end of my ride, battery was around 15%. I was trying to slow down for a light that was turning red. I just couldn't make it slow down, and ended up hanging a right turn at 8mph then continued to speed up until 19mph. (in the mode I ride in, it's supposed to be limited to 12mph). It was terrifying. I was actively trying my best to slow down the entire time, but the board was going fast. After 15 or so seconds of this I bailed and walked away with a bit of road rash.
Totally different scenario from the CPSC complaint. But, yes, another way these machines are dangerous.
Pushback on my XR is extremely subtle. The GTs have audio pushback but it's quiet. The app on my phone and watch tell me if I'm low on battery or have wheelslip, but I wish there was just a simple pushback notification. It would be so easy.
It happens at low speeds too! I hit a pothole on my bike and flew off the front and had a concussion/sternum fracture, and I was going like >5mph. I couldn’t believe it. It has made me permanently scared of electric bikes.
(yes I was wearing a helmet thankfully or I might actually be dead)
I've read somewhere that a majority of the "damage" from a bike accident is actually the "head to concrete" fall distance, and that speed often isn't a major factor.
this doesn't seem like an 'electric bike' problem, more like a 'bike' problem. Hit the same pothole on a non-electric bike, what's the difference. He says he was going ~5mph which is not that fast...
Glad the newer ones are more aggressive. I've pushed an XR to 24 on flat and at that point you're just using your own balance and praying nothing is in the road. This whole nosedive thing where "Is this Future Motion Fault or someone idiot trying to ride faster then allowed" is the big thing preventing a recall I suspect.
I don't think that would work, because pitching the board forward would require the wheel to accelerate to keep you upright. Also, what if it needs to warn you while you're actively accelerating (with the board already pitched forward)?
It also seems like they could do haptics, i.e. superimpose an audio-frequency wave on the motor current. Similar to the steering feedback you get with a lane departure warning system.
But then again it might be difficult/impossible to make it distinguishable from e.g. rough pavement.
This could 100% be done in software -- it's already adjusting the wheel speed a thousand times a second, it would be trivial to add some haptic oscillation.
Your natural reaction is to try to keep the board level, so when pushback happens, you push forward against it, which is telling the board to accelerate. Pushforward would be the opposite.
For what its worth this happened to me (I rode a onewheel without reading the instructions). The outcome was that I had no idea what was going on when pushback happened, and it was terrifying and probably dangerous, but ultimately my reaction to this scary situation was to slow the board down so I guess it worked.
FutureMotion must equip all onewheels with safety wheels on both sides. Also known as Fangs bumper wheels. This must come standard from factory, just as safety belts come with car.
physics is no excuse for lousy engineering from FutureMotion and complete disregard of life threatening diving condition!
1. firmware can be upgraded to account for presence of fangs, for example replace pushback mechanism with gradual diving (soft landing on fangs) instead of abrupt nosedive
2. re emergency stop - agree with you, I am okay if fangs are placed only on the front
With thunderstorms, you count seconds 'twixt bolt and boom.
With the current golden age of electrified last-mile transport, we're seeing the gap between innovation and regulation opening up wide -- now several years.
Real-world impact: I routinely get up to speeds on my e-bike that are, quite simply, dangerous. It's not that I never hit 25 miles an hour on my old road bike, it's that I spend so much more time hanging out at ~25mph on my ebike that potholes have gone from annoyance to mortal danger.
The risk is somewhat mitigated by the enormous tires and superior build quality on the braking system, but not entirely. I'm glad to have taken a motorcycle license training course, and heartily recommend that other early adopters think about voluntarily seeking out additional training (and I imagine e-* specific courses are available now, if not soon.) Not all good ideas come with mandates :D
Another commenter posted about this in a separate top level comment already but it's worth mentioning here as well since you mention speed. The people who routinely hit 25+mph on a regular road bike know how to handle one at those speeds, many ebike riders simply don't have the handling skills or the experience to ride safely (for themselves and others) at speed.
Yeah, you're probably right. When you start factoring in inattention and insufficient physical conditioning to control the bike (ebikes can weigh significantly more than a regular bicycle) it might even be lower.
The speeds of the motorized scooters/bikes/etc., and seeming recklessness of their riders, has become a problem on the sidewalks of college town Cambridge, Mass.
For example, at least three times in the last week alone, I've literally almost been run into by someone blasting out of, or alongside, Harvard Yard on one motorized vehicle or another.
Some of the bicyclists seem similarly reckless and self-absorbed. A couple times in the last week I've almost been hit on the sidewalk by a speeding bicyclist.
Also, a few nights ago, I was almost struck in the head by someone on a Blue Bikes rental bike, blowing through a crosswalk that had a walk light, and after the cars had already stopped for the red. (They were also speeding across the ambulance entrance&exit for a hospital ED, so doubly reckless, though convenient for me, had they cracked my head open.)
Anecdotally, the bicyclist wtf rate seems much than it used to be, and I wonder whether some of the motorized vehicles are setting precedents for behavior.
I intend to bring this up with the City, where I know they have some people who care very much about bike etc. transportation. I'm also mentally composing a concerned letter to the Harvard administration, both about public safety, and about the image of their students as reckless and self-absorbed.
At least bicycles are stable. This onewheel thing cannot work without a computer balancing it (+ the rider). If it fails the rider falls on their face. It would be the equivalent of a bike fork breaking.
I picked up an e-bike not too long ago and took a bit to decide between class 2 and class 3 - I didn’t have enough experience with a bike and a speedometer to gauge whether the 20mph limit on class 2 would be enough. Having ridden around for a while now, yeah, absolutely agree - anything over ~15-20mph is above my comfort zone for “able to adjust to sudden changes in the environment.” Folks who get the “class 4”s are baiting a date with a reconstructive surgeon.
It's a bit of a balance. It's great to be able to keep up with the 25 mph/40 kph traffic on city streets, but small bumps in the pavement are rough and of course there's quadratically more energy to manage in the event of a crash.
I think we need to normalize the idea that riding a class 3 bike requires using at a minimum a full-face helmet, motorcycle gloves, and close-toed shoes.
Personally I'll likely keep riding my bike in class 3 mode since it results in zero speed penalty over driving in town (and often is faster thanks to bike lanes that bring you to the front of a line of cars stopped at a light, and can typically be parked steps away from the door of where I'm going).
While quite reasonable, you'd be facing an uphill battle in many places.
In a lot of the United States, it's pretty common to see someone riding a 160hp 4-cyl sportbike in a t-shirt and flip-flops. Other riders call them 'squids.' EMTs call them 'road crayons.'
Yeah, I'm lucky in that my city's done a fantastic job of creating bicycle infrastructure - between dedicated trails, clear bike lanes, and streets that have been designed & designated for bikes, it's rare I have to interact with fast-moving traffic (the rare times I do are just as unpleasant as everywhere else, of course).
A new e-bike rider who suddenly is capable of 20mph and has no experience to the contrary might assume (wrongly) that they can navigate safely at that speed.
Cyclists who can maintain 20+ mph on flat ground (not at all uncommon!) will have many more riding hours under their belts, and the commensurate handling skills and instincts.
I've certainly seen this with the rent-a-bikes - there were rent-a-ebikes in my area for a while, and those folks were frightening.
Of course, we've still got the rental e-scooters, so our supply of "people riding way faster than logic, wisdom, their wheels, and the surroundings would suggest" is still adequately supplied.
God… the most close calls I’ve seen have always been with rental e-scooters. Both of them blew past a red light, which btw, I was stopped at on my e-scooter. He nearly got hit by a SUV if the driver didn’t stop.
I think there’s some expectation for bikes to go with traffic, rental scooter riders think they’re some kind of unicorn where right of way no longer applies.
And I am assuming they are rental scooters because of the styling and lack of helmet.
And we have still had one of those cyclists (on a traditional road bike) with all of those riding hours, handling skills and instincts, kill an elderly pedestrian on a mixed-use trail around here by maintaining that 20+mph.
I'm starting to think e-bikes that go that fast should use traffic lanes intended for cars and motorcycles, not mixed-use trails intended for bicycles and pedestrians.
20 mph on a mixed-use trail is dangerously reckless, unless you get a long empty stretch out in the countryside.
There are always groups of 4+ pedestrians who will suddenly spread out and block both lanes completely, with almost zero warning. If you can't react to that without an accident, you're going way too fast.
It would be nice if pedestrians would stay in the correct lane, but it's never going to happen. Even if you're only going 5 mph, you've rung a loud bell, and you've clearly said, "Passing on your left" (if that's the local trail's convention), then half the group will immediately spread into the left lane. And the other half will block the right. This is the most basic fact of mixed-use trail safety.
According to witnesses in this case, the cyclist called "on your left" (which is the local convention) prior to attempting the pass, and the pedestrian moved left. The descriptions did not sound over-the-top reckless to me.
Huh, I used to commute on a mountain bike in Somerville, MA. There were a couple of sections where I normally hit 20-25 mph on downhills. (Ones with no side roads to the right, and no tight corners.)
I wouldn't have wanted to wipe out or go over the handlebars at that speed. But on a familiar road, with 26" knobby tires and a front suspension, I had reliable control. The gyroscope effect of mountain bike rims is substantial at 25 mph. And a mountain bike is usually fine even on awful pavement, especially for someone who also rides in the woods.
The biggest danger by far in that scenario was Boston drivers. All the injuries I ever heard of were cars doing something illegal, or people getting doored on the Central Square bike lane. Overall, the statistics are pretty decent for experienced cyclists, if they're riding their daily commute and obeying traffic laws.
For an ebike, I'd want to stick with max 20mph pedal assist, and full size tires. And I'd want something I could ride onto a soft shoulder at full speed. So probably knobby tires and a front shock? If I can't drop 2" onto a sand shoulder, then I'm going too fast.
The other thing is someone on a pedal bike hitting 20+ is generally doing it in an area that can handle it. An ebike you can get to 20 plus in half a block.
Even on normal bicycles, most people seem to have pretty bad handling skills. The two things I think people should really practice are braking (especially emergency braking, using primarily the front brake) and very low speed riding.
I was using an e-bike on a road with some ripples (I guess they messed up during paving). I was thrown off of the bike, and my helmet prevented any serious injury.
I wasn't even going very fast.
The only solution to that (and the potholes) is larger wheels.
If you're sitting straight up with 90% of your weight on the saddle, this can happen easily. If your weight is evenly split between saddle, pedal and bars, and your elbows are bent, you can absorb some pretty rough roads.
Did you bike much before? My impression of road biking and really any biking is that one eye has to be constantly glued to the road surface while the other eye watches for non-surface obstacles
Smaller tires and rotating assemblies with less mass are more susceptible to uneven pavement. For example, a vehicle like a motorcycle or even a motor scooter will be able to handle imperfections on city streets more easily.
If you got a bigger gyroscope under your butt, you're harder to knock over.
Bicycles tend to go with smaller and less massive wheels, because it decreases rider effort required to spin them up, and it's generally a reasonable compromise for vehicles that operate at slower speeds and on smoother surfaces. Of course, if we start adding more power beyond human effort, more speed, and put those vehicles on surfaces designed for larger vehicles, it may make sense to reevaluate that compromise.
Yeah, they do it for exactly that reason -- but not all do. Some even go with smaller tires to be convenient in a folding form factor, etc. And then you're got things like e-scooters which will launch a person at the mere thought of uneven pavement. I don't understand how people will ride those things and then call a motorcycle dangerous.
He’s smart. It is not very common that people fall off of a two wheeled vehicle and hit the direct top of their head. You’re most likely to hit your face and extremities.
I suspect a regular bike would also have a hard time (my car shakes like crazy going over that spot), but the e-bike has much smaller wheels (about half the size of a bike), and that made it much much worse.
In my city they rent out these scooters with tiny wheels and people are only allowed to use them on the road. Those ripples are at the bottom of a nice downhill, and if anyone were to hit them on the scooter they'd probably go flying. I just fell hard.
The opposite. The answer to your question is that electric bikes have unique handling characteristics compared to everything that isn't an electric bike.
If your comparison is human powered bikes, the answer is that you have more energy at your disposal than a human powered bike, and so you may be on a different surface and at a different speed than you otherwise would be, with equipment designed for different conditions.
One of my own more indelible memories is of sprinting down a sizeable hill, out of the saddle and over the front wheel, handily pulling away from my buddy whose bike computer was reading 65 kph (40 mph), wearing shorts, cleats, gloves, and a shit-eating grin.
Two days later, tooling around on flat ground, my handlebars came apart in my hands, thanks to hidden long-developing stress fractures, a characteristic of aluminium alloys. (There'd been numerous previous falls.)
Speed is indeed fun. But its consequences can be extreme.
(I've hit 80+ kph / 50+ mph on other rides.)
Another factor is rider mass. An elite cyclist at 60--65 kg (135--145 lb) can brake far more effectively than a past-their-prime 115--135 kg (250--300 lb) rider, particularly, again, on a grade. Brakes have only so much stopping power.
E-bikes make higher-speeds for less-experienced and less-skilled riders far more attainable.
Typical recreational cyclists spend most of their time in the 20--30 kph (12--18 mph) speed range.
I've hit 50 mph downhill on my bike just to say I'd done it. I started thinking of all the ways it could end badly. As soon as I hit 50, I was on the brakes.
Motorbikes can easily (<10 seconds?) reach 4x your 35 mph, is probably why. That's why the full-face helmet and racing leathers. The leathers aren't going to help you if you go flying and hit something, which is why you should never ride that aggressively on the street, but if you go sliding for hundreds of feet, hopefully you only need a new suit and not most of your skin.
But you're right that even at 35 mph you'd be in a world of hurt. Every time I see a bicyclist going aggressively downhill in a bowl helmet and a barely-there lycra suit, I cringe so hard. You know how they get rid of road rash? They aggressively brush it out with what amounts to sandpaper.
Yet, the average motorcycle accident happens from speeds less than 30mph. Those speeds are plenty enough to kill. It all depends on what you hit and how.
Safety is also more than just "number dead" or "number seriously injured" though that plays a part. Some of it is also "number of incidents that could have been serious" - people walking can bump into each other without any real risk of serious harm (though a mob/crowd crush is a real danger that has to be considered, for example), but many bicycle/pedestrian or bicycle/bicycle incidents have the risk of serious harm.
And "depend on people to do the right thing at the right time with the right skill" should be the absolute LAST fallback - only used when there is no other reasonable option.
Think of "idiocy" as the lack of intelligence, rather than a separate entity of its own, similarly to how high-school physics (and therefore, contemporary common sense!) understands cold as the absence of heat.
This means that you can get rid of idiocy by adding intelligence to a system, in the same way that you can warm up a room with a space heater.
But how do you build up intelligence? Put it this way. Your onboard wetware neural network needs to iterate on e.g. pulling out of a slide, and a bunch of other stuff that you won't know how to do unless someone trains you. No iteration means no gradient, and no gradient means 'no smart'.
So if you want to defeat idiocy, you need training. Now, you can train you, but of course, you'll never know if the training was complete.
Thus the obvious antidote to e-vehicle idiocy-at-scale[1] is, yes, formal lessons and deliberate practice. Just like driving. Just like piano.
[1] a friend from grad school who is Korean told me that there's a word in Korean that literally means "road stupid" and this is the only fact I know about Korean and I love it. So many people are road stupid! I'm one of them! I'm trying to improve!
Well, they're welcome to it -- at least once a week, I use dodge-skid-stop, a specific skill I formally acquired by trying to do it and dropping the training bike a bunch while a grouchy 65yo biker glowered at my incompetence until it evaporated. Take my money
I will say, anecdotally, that 25mph can sometimes, or even often, be unsafe on several popular brands of e-bike.
There are lots of reasons for this, but anecdotally, tire thickness, wheel diameter, rider height/stance, and braking system quality all seem to contribute, along with a lot of other factors that are hard to reason about beforehand, but easy to read off crash statistics, if you have data of sufficient quality.
The one factor that is really counterintuitive for me is weight. We learned in the motorcycle course that a heavier motorbike will actually be safer in, for example, rainy conditions, as the weight of the internal-combustion engine pushes the motorbike against the earth, expelling water from between the tread and the asphalt.
E-bikes, however, are often bicycle-ish in weight -- only twice as heavy as a standard bicycle, say, instead of ten times as heavy, which is what a motorcycle is. Nevertheless, they still vroom at motorbike-ish speeds.
This makes e-bikes "inherently" more dangerous in icing conditions, in comparison to an ICE motorbike, as there is less weight holding the business end of your e-bike-tire flush with the asphalt.
But 'inherently' is in scare-quotes above because it's still not quite right to say that every e-bike will be more dangerous because of this -- and I'm sure the market is already working on mitigations.
Keep in mind I was responding to someone implying that "don't be an idiot" is all you need, which is pretty similar in bad reasoning.
I wanted to know why that particular person objected to 25mph.
> The one factor that is really counterintuitive for me is weight. We learned in the motorcycle course that a heavier motorbike will actually be safer in, for example, rainy conditions, as the weight of the internal-combustion engine pushes the motorbike against the earth, expelling water from between the tread and the asphalt.
> E-bikes, however, are often bicycle-ish in weight -- only twice as heavy as a standard bicycle, say, instead of ten times as heavy, which is what a motorcycle is. Nevertheless, they still vroom at motorbike-ish speeds.
On the other hand, motorbikes lose a bunch of pressure because of tire shape. And the rider provides a lot of weight. So I'd want more information here; it's more complicated than motorbike vs. motorbike.
All excellent points, but I think there's something like 2-5x as much tire surface area in contact with the road, and something like a x10 difference in weight, but I'm quite pointedly not googling either of these hand-wavey claims.
Suffice to say, you're quite right, and I don't have all the answers. And I suspect very strongly that regulators are similarly answer-tare.
Which is why, for now, it's a great idea to purchase e-bike-specific training if you're going to be spending a lot of time with an e-bike between your thighs, and, in a pinch, you can learn a lot from a motorcycle course.
Anecdotally, I use the controlled-skid technique at least once a week, when decelerating suddenly (to avoid a pothole, say.)[1] My middle-aged miniscuses would thank me, if they had the power of speech. ;)
[1] Sadly, I still have some of the bad cycling habits I picked up in my twenties in Chicago, blithely ploughing through six-way intersections and so forth, but none of the associated physical characteristics that made this activity if not safe then at least stochastically survivable.
Specifically, reaction time, strength, and flexibility are all reduced, but all the bad habits I acquired are still there. This is the other reason I took the motorbike course: pruning leftover bad habits that I can no longer afford to offset.
> All excellent points, but I think there's something like 2-5x as much tire surface area in contact with the road, and something like a x10 difference in weight, but I'm quite pointedly not googling either of these hand-wavey claims.
When you consider the total weight with the rider, the difference in weight might only be 3x.
I would suppose it would depend on the cc of the motorbike, so, tentatively, yes, that makes intuitive sense -- a Honda Ruckus for example might not be much heavier than 3 e-bikes.
All the same: big bikes are heavy, and that turns out to be a good thing, balance-wise. Really different feeling. You can't really put it in words, it has to be experienced!
> a Honda Ruckus for example might not be much heavier than 3 e-bikes.
I don't think you're following what I'm saying.
If the ebike is 50 pounds, and the motorbike is 550 pounds, and the human is 200 pounds, then motorbike+human is 3x the weight of ebike+human. And that's how much the tires are pushing down.
Falling from a standing position can be dangerous. "Safe" is a function of the environment you're in and device you're riding- traction, obstacles, intersections, speed of other traffic, visible distance (fog / clear sky / bend in the road), wind, all sorts of things.
Motorcycles have different tire sizes, masses and centers of gravity. The speed they can "safely" travel will always be different than a bicycle.
> Falling from a standing position can be dangerous.
If your definition is "nothing is safe" then there's no reason to complain about 25mph in particular.
> "Safe" is a function of the environment you're in and device you're riding- traction, obstacles, intersections, speed of other traffic, visible distance (fog / clear sky / bend in the road), wind, all sorts of things.
So give an example.
Either specify conditions or assume generic conditions.
Don't say someone else's example number is wrong without giving a rough correct number.
> Motorcycles have different tire sizes, masses and centers of gravity. The speed they can "safely" travel will always be different than a bicycle.
It's not that "nothing is safe" but rather nothing is "inherently" safe.
I've crashed several times going roughly 12mph, with only a few scrapes and no broken bones- once because by brake line snapped, once because my tire got caught in a crack in the road I didn't see, and once because a car pulled in front of me.
Any one of those could have ended in a broken neck if I'd landed wrong. Going slower might have prevented one or two of those. Going faster wouldn't have caused worse injury in the third case given that I bounced off the car rather than going straight to the ground.
That's fair. I'd feel pretty uncomfortable on most bikes at 25mph, but I've happily gone 18 without stress on an empty road on a clear day. I think most people who don't have a lot of experience should stick to 10-12 and work their way up, much like learning to pilot anything.
Safe braking distance depends on how much you weigh, the quality of your gear, and the road. I'm 6'4" and weigh 50 more pounds than I did as a scraggly youth when I did faster speeds, so unless I'm on equipment I trust very well I wouldn't often go over 15, I think... for me, most bikes don't brake well enough, and some aren't balanced well for my height.
The physics of Onewheels are actually super interesting, and Future Motion published an extremely well-made video recently which explains the issue that the CPSC is referring to. It goes into detail about why "nosedives" happen, and how to prevent them. Really interesting stuff!
It seems to me that the correct behavior to encourage braking from the user is TILT FORWARD, i.e., show that you are nearly at the limit but do it before you're outside of controllable phase space.
I love riding my onehwheel, but it is incredibly, stupidly, dangerous and the company DOES NOT CARE.
Out of the box, mine was prone to runaway/ghosting where it would continue riding even if no one is on it. Kind of dangerous for a 25 pound device to go careening into the world. I contacted the manufacturer and the response was basically: 'not our problem, you're probably using it wrong' until I sent them a video that I had posted on social media.
I have also had the nosedive thing happen. Yes, it happens when you are exceeding the power output of the board. No, it is not clear when it will happen, for me anyway. There is the pushback 'feature' where the front of the board is supposed to elevate, but as a 200 lb guy, it is pretty easy to miss. I suspect that smaller people might get a stronger feeling from it. It is also possible to exceed the power limit of the board at lower speeds where pushback won't happen.
In reality, the board should, at minimum, have an audible warning that you are nearing the power limit before sudden failute.
35 pound, that thing is heavy and solid, it's a missle when you crashed.
One Wheel XR needed more indicator lights (what is my battery without the app), and a more audible feedback for a pushback. As another 200 lb guy, you could feel the pushback if you weren't trying to split the weight between your feet and instead pushing down. This is a very unintuitive thing at first.
One issue with the skateboard style of e-wheel is that your feet are perpendicular to the direction of motion. This means when the wheel quits or you hit a big bump you will have to turn 90deg before you can run. The unicycle style where your feet are parallel to the direction of travel is much easier to "run-out" if the motor quits. The unicycle style also allows a larger wheel and larger batteries.
I think reason the unicycle configuration is less popular is that it does not look as cool as the skateboard style. My wife calls mine the dorkmobile.
> I think reason the unicycle configuration is less popular is that it does not look as cool as the skateboard style.
The fact that it may look "cooler" is entirely beside the point. A sideways stance is much more stable forward-to-back. This is why we ride surfboards and skateboards sideways, and why if you're standing in a boat whose nose is crashing up and down through waves, you'll tend to turn sideways for stability. Same goes for if you're standing on a crowded bus and don't have much to hold onto: sideways is better. The toes-forward stance feels very unstable in the face of an unexpected slowdown or bump because your only way to counteract it is to start leaning back in advance, whereas when sideways, you can counter a lot of forward-to-back jolts with a wide stance.
Skateboarders train themselves to run out in this situation pretty much immediately.
With OneWheel you never really "train" to fall, instead you try to avoid it. So if you don't come from a skateboarding background you have no muscle memory.
It’s much easier to run after bailing from a skateboard than to run after a nosedive. I’ve been casually longboarding for ~12 years, and I rode an electric longboard for my commute for ~3 years. Learning to run out after bailing (or at least slow yourself down for a few steps before you lose your footing) is an essential skill, and you learn to do it automatically. Having the right stance helps a lot to ensure that when the board stops you can handle it. Realizing you need to hop off is a luxury you don’t always get.
When my OneWheel nosedived, I was completely thrown for a loop. It stops abruptly (more so than a skateboard usually will), your stance is heavily restricted (due to the balance requirement), and the board messes with your trajectory and balance as it tips. It kind of throws you toward the pavement while a skateboard just throws you forwards.
I love it, but it is definitely a vehicle you need to be careful with.
Skateboarders train themselves to run out early in their practice, in front of the garage when they hit a pebble at <5mph. And get frequent future practice.
I imagine if your first skateboard fall was at 15+mph after a month of complacency, skateboards would be attributed to a whole lot more concussions.
I personally don't like fangs as when the bumper drags on the ground during a nosedive it slows the board down quickly, when I first nosedived at 3k miles the friction caused me to slow down to about 5mph before I had to run it out, I was going downhill and if I had fangs I would have continued accelerating, eventually you need to bail and with fangs wouldn't have been able to run it out.
I have these. Not sure if they offer a false sense of security or not. But, to me, it increases the chances of me not having a catastrophic injury. I also don’t try to go 30mph downhill without protective gear. Full TSG Pass Pro helmet & wrist guards. Still fun.
There's a heap of videos showing serious crashes on youtube.
https://m.youtube.com/watch?v=Ys3ivCUxIvY is titled "OneWheel — The Deadliest EV" and it is was published two years ago. It shows many short clips of some crashes in the first minute, however, beware, it is very uncomfortable viewing if you empathise with accident victims (I don't watch American pratfall TV programming for the same reason).
That video also talks about another design/usability flaw at 8 minutes 30.
It's great that your single unit hasn't failed but that's not much evidence against a recall.
My onewheel at some point started to fail occasionally. The first time I was going at ~15 mph and fortunately I came away with only a few scrapes. After that, I reproduced at slower speeds and was able to not fall when it failed.
I sent it in and they fixed it. This is their explanation which I don't know that I fully believe:
Our engineers completed the repairs on your board! They found that the power button had broken which led to damage to the controller circuit board. Both have been replaced under warranty for you. After your board passed our post-op testings it was picked up by FedEx!
I have a Onewheel and I was ejected after it suddenly died even though the battery reported a half charge. The accident was not my fault and I was injured from it. I don't believe the product is as safe as you imply.
"I have never had a problem therefore there is no problem"
If you actually read the complaint you will see several product safety issues (such as sudden stops) that cannot be solved by wearing a helmet or learning to ride.
Unfortunately the CPSC warning is too vague to know if this is people pushing the device past its documented limits or the device failing within the standard limits.
Are we sharing anecdata now? I also have an XR with about 1k miles on it. For the vast majority of those miles it's been fine. It's had two issues, both of which were terrifying.
The first was just a simple nosedive. For some fraction of a second no power went to the board. I went flying, rolled, used crutches for a few weeks.
The second was when the battery cells became "unbalanced." The closest way to describe its behavior was a bucking horse - lagging, then surging. This wasn't a unique issue for the support guy... He told me exactly how to debug it.
The thing is an injury machine. I'm astounded it took this long.
While adding extra things that can fail to an already dangerous method of transport isn't the greatest idea I don't really see how that's too different from a skateboard losing a wheel or hitting the smallest pothole with an inline skate.
Powered or not, going fast on something you just precariously stand on will send people to the hospital constantly regardless.
Like most things in life if you are patient in learning it and respect the limits it is entirely safe.
Hey, just like C programming! :)
On a slightly more serious note, the point seems to be that people are not, and that can get them killed which is bad. If the thing is that the pushback notification is too easy to ignore/fail to notice, then that sounds fixable.
The training mode at 12 mph is there for a reason.
I'm in the same boat as you, I've got 1k miles on mine (more!) when I sold it. Never got seriously injured, and hadn't really crashed since the beginning. It was all the stories in the riders chats that made me switch to something else. It's fun but I like my collar bone as it is.
I assume you mean the board fully power off while riding?
If yes, then no.
It is possible to overload the motor by going over the maximum speed or going uphill by at too high of a speed but in that case the board will not actually power off.
The only way the board may turn off is if is fully charged and you immediately ride it downhill (regenerative breaking). To protect the battery from overcharging the board it will turn off in that case but the app will warn you before that happens and for newer boards they have implemented the ability to charge to less than 100% if that is how you start your route.
It's possible that the board just fails for any number of reasons.
I had a Boosted Board fail on me once. No idea why. It just powered off randomly while I was riding. Wasn't going downhill, wasn't full battery, wasn't a depleted battery. It was a bit scary to suddenly feel the power go out, but I was able to safely come to a stop. I was probably going about 15 MPH. I never figured out what happened. It turned right back on. This was the first time the board gave me pause. I kept riding for a few months until I did actually get hurt—100% on my own stupidity. I tried to go over some train tracks while leaning too much on the front trucks and was going fast, but not quite fast enough to cruise over them, and the wheels properly got stuck in the tracks, so I got to experience the fun of flying. Fortunately I was not critical injured, just extreme bruising. Helmet 100% saved my life though.
This is the same kind of thing that can happen with a OneWheel—only no user error is needed for it to happen, merely a power failure. OneWheel either needs an integrated solution that allows you to roll out in the event of a power failure, or some kind of redundancy to ensure the probability of a power failure is effectively zero. Anything less leads to (preventable) death.
The difference is that when most things fail (something that will happen), they do not result in instant deceleration. When your iPhone experiences a power failure it usually just doesn't turn back on. If a car experiences a power failure the brakes still work. Even if the brakes DO fail, you can still at least try to come to a safe stop—and it's possible you can.
When the power fails on a OneWheel there is almost no possibility of a safe stop. You are getting launched.
Yes, agree with you both - probability * severity. The severity is high (unless you know how to run off the board - that lowers the severity quite a bit). The probability is unfortunately unknown.
I think the severity of the event is also important. A Onewheel requires power for stability (it's an inverse pendulum), and as a result does not fail-safe. An occasional motor failure on an e-bike would be a non-event, as it fails to a safe state. An occasional brake failure would be significant.
I never realized how fast 25mph was until I fell off my two wheeled electric scooter going that speed and was slowed down by a bus-head impact after I braked a bit. Luckily I was wearing a helmet and long pants, but I still broke my back in several places. A cop that saw me whiff it said I was probably only going 10 by the time I hit the bus.
I believe all of these electric whatever should be lawfully mandated to go below at least 15mph if not lower. I don’t believe that people are able to grasp just how unsafe those speeds are.
US has this too for not peddling, in some states. In the US a class 2 is throttle only (no pedaling) hit 15. A class 3 is up to 25 as long as you're peddling.
It seems lax of CPSC to issue such a damning statement without an accompanying comparative analysis to other board or motor sports. What’s the injury rate vs other similar sports and how much of that is to blame from undereducated or reckless riders? Also, what’s the rationale for the recall if the issue is people ignoring the obvious warnings the thing is giving that the battery is about to die? This doesn’t seem to be a matter of system failures or inherent design flaws.
Paramotoring is risky, but no one is chasing all paramotor manufacturers to recall their products. Similar for dirt bikes. It seems somehow these are getting singled out due to their uniqueness and being a product from a single company, not because there’s a flaw in the design that makes them inordinately risky.
The device tips its nose forward and dumps its rider on their head. There is no need to compare to anything if a device has this behavior. If the battery runs out, I expect the device to come to a stop, not throw me on my ass. I'm pretty sure even a paramotoring rig that runs out of fuel isn't going to immediately hurt me, and those things fly.
Ever tried to brake too hard on a motorcycle? You can get them to slip out in all sorts of bad ways or just plain flip pretty easily without finesse and skill.
Certain sports just come with more risks. In some cases they’re niche enough with the right communities that they self police or fly under the radar and escape regulation. Others wind up with restrictions and licensing requirements.
In one wheel’s case it’s a very fast thing which requires an impeccable sense of balance and intense respect for it being something that can only keep you moving if it has power. Fangs (little wheels on the board edges) are an option for people that want more flexibility with it bottoming out, but they also lower your clearance so it’s a trade off and you’re still best off never letting the battery die.
Yes. If I turn off the ABS and traction control, I'm skilled enough to lift the back wheel. But you know what has never happened? Having the front brake lock all on its own because I dared run the bike to empty.
...and you’re still best off never letting the battery die.
...lest the board cast you to the ground in a dangerous manner. Which, from my reading, is why the CPSC would like OneWheel to issue a recall. I'm hard-pressed to think of any other device that doesn't just coast to a halt when it runs out of fuel. Even an airplane doesn't just immediately plow nose-first into the ground when it runs out of juice.
Exactly, this is the core issue. It also doesn't only happen when the onewheel runs out of juice.
There are endless reports of it just having some sort of control fault and blipping for an instant (I've experienced this myself, thankfully at low speed). A tenth of a second blip at 20mph = instant launch.
Ironically, the other end of the energy spectrum also gives onewheels trouble. If you charge your board too much (leave it plugged in without discharging it), the battery cells become unbalanced, leading to similar blips. This is a known issue - when I reported it (still under warranty), the support rep had a script for how I could fix the issue.
Having the wheel "lock up" is a mischaracterization of the failure mode under loss of power. The problem is that loss of power while you're on a reverse pendulum means that you're leaning forward, and the device is no longer able to stop you from extending the lean by giving more power and speed to bring you back into balance.
Any device which operates as a powered reverse pendulum will have this property. Segway was the first, and there are plenty of other "hoverboard" or "unicycle" style designs which act similarly. The differences with the Onewheel are thus:
1) It's a skateboard orientation, so if you don't have the muscle memory from skateboarding you won't know what to do when it starts to bite the ground. Front to back orientation is more intuitive.
2) It's faster and higher powered than most alternatives, lending more risk of being beyond the threshold which you can reliably transition to running if it loses power.
That's it really. It's a more sporting device with a higher learning curve and a bigger risk envelope. It is advertised as such though. This is a thing that's made to shred in all terrain for people who are daring enough to deal with the risk.
They're making manned multi-rotor copters where one motor failing mid-flight means you fall right out of the sky, and that's a pretty likely death. Sporting devices with power failure modes that have no easy recovery are not unprecedented in other categories either. You have the same problem with classical helicopters if you're below the auto-rotation altitude or are not skilled in auto-rotation recovery.
People have a sense that motorcycles are dangerous. They're loud, heavy, and take a modicum of skill to ride. Also, in many places you need to take a safety course to ride one.
I imagine a lot of people see onewheels as fancy electric skateboards and don't give the failure case much thought, or even consider how much balancing assistance they're getting electronically.
It does come to a stop. You get thrown on your ass because of the laws of motion.
Your last statement - are you talking about using a fan with a parasail, which is a stable glider without power? If you want to use that analogy, this is more akin to taking too sharp a turn in a parasail, where the sail can't sustain and collapses in, causing you to fall like a rock because of the law of gravity.
In a nosedive on a Onewheel, it also happens when the rider is asking too much, goes outside the performance envelope, and reaches a failure point. After the rider has been warned by the board that it's approaching that edge, physically and audibly.
> After the rider has been warned by the board that it's approaching that edge, physically and audibly.
After a thousand miles and some injuries, I've learned to detect the onewheel XR's subtle pushback. However, none of the new riders who have tried my board have ever been able to feel it. And it certainly has no audible alarm either, I'm not sure where you got that.
This is a good call out. I didn't know what push back was at first. It's not as intuitive as you'd think, especially if you're towards the upper edge of the boards weight capacity. Keeping most of the weight on the back leg and pushing with the front is just a weird feeling. I've had similar issues but it's why I always set it to that 12mph mode before handing it off unless the person had ridden at least a few times.
Try an Evolve skateboard control. Also google problems with those boards. It’s frequently reported to do all sorts of things.
I’m not sure why onewheel is singled out.
Any electric skateboard is equally dangerous.
Even if the control doesn’t make it easy to over apply brakes, cutting power when going at anything over 12mph is very likely to cause “eating it” if in bad stance. Definitely going to be a problem over 15 if speed wobbles don’t already cause the “eating it”
Braking without proper body posture is a recipe for disaster on an electric board. At least one wheels kindof force proper body posture.
As a onewheel owner, this response is missing something very important: because it has one wheel, it doesn't matter, even a little, what kind of "posture" you're in when the board blips. You go flying, end of story. Electric boards with > 1 wheel all have some degree of natural kinetic stability.
It's the single point of failure with no preventative maintenance plan that makes it more dangerous. When the power suddenly cut-out on my "one wheel" (it was a different brand) I was instantly airborne.
I can inspect my skateboard periodically to ensure the wheels don't fall off. If my dirtbike engine suddenly cut-out I still have momentum and brakes. But with a onewheel the wheel slips behind you and you are smashing the pavement when the electronics fail. For the record, I love my recently purchased Onewheel Pint and installed fangs in case the power cuts out unexpectedly.
Agreed. If this is a problem inherent in the form factor, it should be advertised as such and we continue on, like we do with motorcycles, skateboards and so on.
Disagree. All the warnings suggest rider error. I suspect that if they published, "We've determined that, on average, approximately once every N miles, a onewheel is likely to briefly fail to deliver power to its motor, throwing its rider at whatever speed it's moving," they would sell far fewer of these items.
Yeah but that’s not the case. You see a lot of the injuries because people on Reddit and YouTube and discord like to show them off, but in grand scheme of things most of these riders will tell you they were being idiots (like riding drunk at night, pushing 30 down a hill, trying to hop curbs at speed, ignoring pushback, etc), and many hop back on their board as soon as they can. The few that weren’t being idiots, well a fraction were lousy or inattentive riders and some fraction suffered a failure. What you’re not seeing is all the riders and boards with zero problems.
I'd be curious to know how many onewheels have been sold - my guess is that 4 deaths represents a very high risk of death relative to eg snowboarding, but without a denominator, there's no way to know.
4 deaths per 50 million miles means it’s just under 1 death per 10 million miles. That would put riding a one wheel for 1 mile at the same risk as biking 1 mile, walking 2 miles, or driving 25 miles[1]. That is of course only looking at death and not serious injury.
Still, as other people have mentioned there are solutions Future Motion has been avoiding that would significantly lower the risk. Adding small wheels on each side in case of nosedives, or adding a loud audible warning in case of low battery or max speed being reached rather than just a subtle physical alert are two that have been suggested here and seem like they would make a big difference.
It looks like most death rates for transportation products are measured in deaths per 100 million passenger miles. So 8 deaths seems like a reasonable estimate.
By comparison, cars are about 1.5 deaths, and motorcycles are 25-30.
For the car number, I'm willing to bet that OneWheel riders skew younger and male-er than the general driving population. I'd bet the risk difference mostly disappears if you're comparing similar demographics.
For the motorcycle number, keep in mind that you can't legally ride a motorcycle without a license and some training and/or non-trivial testing. And most riders wear much more extensive PPE than the average OneWheel rider. And they're still at something like 300–400% of the risk.
I think it kind of comes down to whether you think of a OneWheel as a toy, a recreational product, or a form of transportation. It's ridiculously unsafe compared with, say, a boardgame, and probably on par with recreational products like skateboards and jet skis, and somewhere in the middle between driving a car and riding a motorcycle for transportation.
The riders skew older then you think. I'd say the average rider I've met is about 35. Male dominated of courses.
This is a toy. Very few people not working can afford a 1.5k-2k electric vehicle, especially when you can grab an escooter/ebike for about half the price.
The issue I think they're going for here is the sudden lack of power which happens sometimes. Anecdotally it happened to maybe 3 people who publicly stated as such in a 60 person rider group. A ton of people have broken collar bones on these things, and it's an almost expected injury if you use it long enough.
One caveat here is that it’s not clear if it’s “4 deaths downstream of the procurement of a OneWheel” or “4 deaths attributable to this particular failure mode”.
There might be some number of “died riding a OneWheel after getting hit by a car” deaths, but arguably that particular type of fatality should be chalked up as “downstream of the procurement of a car”.
A guy at my gym was on one of these, it stopped suddenly and threw him. He broke his pelvis and is still rehabbing a month later, probably a couple months left to go. Guess he's "lucky" he didn't die.
I had my Onewheel take a nose dive for no reason. I had just started moving forward on it, was probably going 8-10mph. I broke my arm. I contacted support, and they told me nothing was wrong with board that they could see in their diagnostic. I haven't ridden it much since as I can't trust it.
My inner twenty-something and my not-twenty-something body will benefit from a report like this. I'm still reasonably athletic and those things look dang cool, but the pause a report like this gives is healthy.
I also agree with other comments related to motorized bicycles. I wear motorcycle gear even when riding locally and under 40 mph. Electric bikers can benefit from "gearing up".
After trying one for a bit I always wanted to get one, but never felt fully safe riding it. I even asked them repeatedly if they ever had a plan to introduce a board with some kind of additional set of wheels or bearings on the ends to let you "roll out" in the event of a power failure. The issues has always been that, in the event of a loss of power for any reason, because you are usually leaning forward, the board grinds to an almost immediate stop and you just go flying. Happened to me once in the sand and even that hurt. The board basically decelerates to zero instantly.
I thought long and hard about buying one and modifying the skid plates with a row of large ball bearings or maybe even small skateboard wheels. You just need something so that if the power fails you at least can attempt some kind of recovery. The way it is now, if the power fails, you are simply getting launched. I always wondered how they hadn't been sued into oblivion, always thinking to myself, "Someone must have died from this by now." I guess at least four people have… but somehow they've been able to produce and sell these for nearly a decade.
Onewheel started with a 2014 Kickstarter with 400 units that had 5 miles of range and a 13 mph top speed. The 2017 XR and 2020 and later GT and Pint versions that can go 20+ miles at 20+ miles per hour are incredibly new as far as transportation tech goes.
2021, when the most recent death was reported, was literally just last year. That's light speed for a bureacracy.
Technology is far faster than regulation - this is true with respect to Uber, Twitter, Onewheel, AirBNB, and a dozen other new tech companies.
The Segway had a shorter platform, so the user wouldn't put it as far out of balance under typical use, and it had handlebars which allowed the user to pull it back if they started losing their balance. It also had a lower top speed of 10 mph (12.5 on later models); the Onewheel could run at 15-20+ mph.
(I use the past tense because Segway production ended in 2020.)
"Forced" is a strong word. I don't think there was anything breathing down their neck to discontinue it, just market forces -- the semiconductor shortage of 2020 probably just pushed them over the edge into discontinuing what was already a low-demand product.
I think the pole in the center prevents your body from leaning forward more than the Segway will tilt (i.e. it can just tilt backwards, and push your body back where it belongs).
With the Onewheel you can just lean forward as much as you like, and the board is supposed to accelerate to bring your center of balance back into the middle.
All self-balancing vehicles have the same failure mode -- that you can exceed their ability to catch you by leaning too far forwards.
The Segway benefits from having a big pole it can jab the rider with to make them learn back. But it's entirely possible to nosedive one if you try hard enough.
One time I ran into someone who ran a consulting firm in the Bay Area at a meet up who told me that Onewheel had raised capital but had horrendous engineering when they came to this consultant. The consultants turned it into a product that could be sold.
I don’t know how true the story is, but whenever Onewheel comes up, I revisit that conversation, wondering if what that consultant said was true.
I'm a former rider of a Onewheel XR. I stopped due to not wanting to end up in a hospital during covid.
The nose diving thing has been known in rider groups for awhile. It's always been a sporadic issue though.
Some caveats to One Wheels. Everyone mods these things. New tires, fenders, fangs, colored panels for protection, different back and front pads to stand on, and skid plates were pretty common on most One Wheels I saw. More extreme stuff like battery mods (one involved removing some of the battery protective plating to fit more battery in) isn't normal but it does exist.
Future Motion sorta shut down the repairability of the newer One Wheels from my understanding. How many of these could be prevented by replacing a shot battery pack, or swapping in a new front pad? Not all of them of course, but if you're relying on this thing to keep you upright, why make regular maintenance take shipping a 35 pound board in? I had to do a tire swap after about 800 miles, and I did 3 in my time owning the board.
My children's grandfather is very good at sports and balancing and has been riding onewheels for as long as they've been around. My kids learned from him quite a while ago. Couple of years ago they each got a Pint from grandmother as a gift.
They always wear helmets but we had a hard time getting them to wear wrist guards, that is, until one of my kids pushed it to the limit downhill in a park, rode over the pebble, wiped out and broke his wrist. His app said he hit 17mph. Since then, there hasn't been a ride without helmet and wrist-guards and they ride around quite a bit, to a store, around the city, to the park, just for the hell of it.
Breaking his wrist sucked for him but was a great teaching moment for the rest of his life, to wear right equipment for the job.
They always comment on people tooling around without helmets on those wheels or scooters. We as parents have a small success right here.
Glad you got them on wrist guards. I found that as long as the wrist guard was relatively easy to wear and didn't look hyper dorky people would wear it. I was using fingerless Hillbilly wrist guards, and they just look like fingerless gloves to most people. Made people more likely to wear them when I lent it out.
I own and ride a Onewheel Pint (17mph max) and found it limiting, so moved up to an EUC (electric unicycle) that goes 30mph. I always wear a helmet and come from an extensive background riding BMX on ramps and jumps, skateboarding, snowboarding, and mountain biking.
I agree with some other comments here that there is a learning curve and these are relatively dangerous for new riders, just like a skateboard is dangerous. But I do not think these are inherently more dangerous than a normal skateboard or bike. It's just that the self balancing and electronic assistance can give an unearned sense of confidence where the rider is less cautious than they should be.
Been wanting to go over to an EUC. How have you found the transition. I have like 1.5k miles on a onewheel xr but switched to scooters after people I knew kept getting injured. Hate to say the scooter is... too safe but it's sorta just standing there and hitting a button.
The learning curve/transition from Onewheel to EUC for me was about a week to get up to speed, I watched a few videos and practiced along a building wall, as well as in a parking lot for about two hour sessions a few times for a couple days before I actually commuted on it on the streets.
For the commuting I do, an EUC has been great - I ride an older Begode Tesla V2 (current version is T4) it has been perfect for riding in traffic with the quick acceleration, higher top speed, and great in bike lanes too. Also for longer rides I prefer riding facing forward on an EUC (like skis), vs the snowboard style stance of my onewheel.
Onewheel is a bit of a special case in the sense that if it stops balancing, you tend to "nosedive" (tip forward) causing the front of the board to hit the ground and stop very suddenly, ejecting the rider forward as the back foot lifts and the front foot drops.
Given that electronics do stop functioning at some point in their life, if the onewheel is in motion when that happens it will be very bad for you, especially if you lack safety gear.
I purchased the OneWheel XR in 2016 and think it’s an engineering marvel. It has on occasion glitched while riding which has led to some falls. Speed and torque have degraded but it has outlasted my last 3 laptops combined. Anytime you get on a skateboard you are taking a risk.
I don't know why the CPSC has singled out Onewheel. If they're going to try and regulate this new class of mobility they need to do better than phoning it in. This feels just as random and absurd as the clampdowns on Juul. Don't buy Juul, but do feel free to buy flavored nicotine from these thousands of other less scrupulous vendors.
There are absurdly under braked e-bikes with 30+ mph motors, electric scooters with 40+ mph motors, "unicycles" with 40+ mph motors, and even competing "onewheel" type products. Based on the arguments provided in the linked article these are all worthy of regulation. I disagree with the premise, but if they're going to regulate one they should regulate all.
They should regulate them all, in a consistent way across all states.
One Wheels are unique in that they're a USA company that is pretty well known and has a very obvious failure mode. EUCs still suffer that dorky rep for whatever reason. Ebikes motor dying won't cause a crash. Same with most escooters.
Anything that goes above 20 with a motor has no place in a bike lane. Yes I know bike riders can go over that. Over 20 is when you start needing to look into moped safety gear instead of bike and knowing what you're doing.
This reminds me of the Juul ban, which flagrantly ignored the trivial availability of competing vape products.
Then again, the Onewheel system is rather unique. I would be curious to see a safety comparison of Onewheel versus the much more common self-balancing unicycles.
On the one hand people seem to get good enough on them to be able to race down mountains. But they do seem somewhat dangerous when in the mix with cars,bikes and pedestrians. There is I imagine a learning curve.
They're fairly uncommon here around Boston, and usually riders are wearing motorcycle style helmets. I see a lot more electric scooters zipping around (like the Bird and Lime ones, but privately owned). The only device I've seen someone fall off of was an electric skateboard (No particular reason (they were coming to a stop at a light and fell foward.).
I just wish more countries had the dutch biking infrastructure. I just bike to the city for 30/45m on a long, bike only road that's completely safe for everyone involved.
If I had to instead use devices like this on a road that can also easily have people walking on them, I can easily see crashes and many injuries happening.
There is just a need for making roads for cars smaller, and creating 2 extra separate roads for pedestrians and bikes/electrical vehicles (would rather have 3 roads, electric bikes can be annoying, but it's not always possible).
I have watched closely on my commute every day how people use these (SF/Mountain View, etc), and I am stunned at how close to disaster some people are. They put their hands deep in their pockets with the controller, don't wear helmets, have precarious backpacks that change their balance, etc.
You are one larger-than-expected crack in the road from being thrown off the wheel under a bus. At one point I rode scooters to work, but after one such incident (fairly benign but I could see where it was headed) I swore off anything so unstable.
4 deaths in all those years? Much safer than most forms of transport then? Of course I didn’t do the math but it seems like very little, perhaps there also aren’t that many out there?
"four reported deaths between ... after the product failed to balance the rider or suddenly stopped while in motion"
These are deaths specifically from the scooter suddenly stopping mid-ride and throwing the rider off. It's not including deaths like getting hit by a car. This is the product spontaniously killing people!
Yes, but it is unclear that there was a product failure involved in any of those cases. If the electronics failed that’s one thing. If the battery died because the user ignored it repeatedly haptically nagging them that the battery would die soon, that’s another very different thing.
4 deaths might be quite a lot for such a relatively low volume product.
By comparison, some car models have recently had their death rates drop to zero after nobody died in them over similar periods of time. And these figures are mostly user error. Deaths due to product failures of automobiles are usually pretty notable and are acted upon by regulators.
The onewheel is an inherently bad, unsafe design. The long board that a rider stands on is ever liable to stick into the ground and throw a rider. Compared even to a monowheel (not the safest mode of transportation in itself), it is downright scary.
Generally, rider of a unicycle or similar self-balancing device puts his life and limb in the hands of an unknown microcontroller programmer. The software on those things should be regulated as strictly as the airplane autopilots.
Vehicles like this are not actually road legal in a lot of places precisely because of the risks to their users and other traffic.
That being said, I think a recall is a bit harsh though. People falling off these things are going to have injuries and occasionally pretty severe ones resulting in death. In the same way, snow boarding is not without risk. I think you can make a strong case for that being expected and just part of the risk that you accept using these things.
Title does not match link. Nowhere does it say a recall was ordered, it does say the manufacturer is refusing to comply with what I assume is a suggestion for a voluntary recall. Does the CPSC have the authority to order unilateral recalls?
I'm honestly considering buying one while I still can, they seem like fun and I'm just fine with the risks as long as there isn't some hidden failure or manufacturing defect.
I dont see anything about a recall in this press release, just a warning for consumers. Looks like CONSUMER PRODUCT SAFETY COMMISSION (they call themselves in all caps) doesnt have any power.
One wheel scooter are generally more dangerous than their two or more wheeled counterparts because upon software bug or power loss, all control is lost. At higher speeds, serious injury is very likely.
the software on my pint is glitchy for sure. I have multiple steep hills to get out of my street, the pint will often times slowly lose its balance point meaning the nose gets closer and closer to the ground. When going downhill it is a disaster. Ill ride it around casually on the grass, but wouldnt use it for serious commuting.
It often times wont run with a battery overheating error when the app clearly shows the battery temp as fine.
The Onewheel seems so obviously dangerous. Any vehicle that dumps its passenger when losing power eventually will. It’s just a matter of cycles before the lithium ion battery starts dying fast.
While it seems like a simple mitigation could be to make the “pushback” mechanism more obvious (i.e. slowly decrease the top speed as the battery loses power), it makes me wonder what’s the point? Can’t we let Darwinism do it’s thing here?
Yes when there is a legit defect. People getting injured on onewheels are pushing the board to the max, ignoring the warnings and face planting when the board tops out.
This is the real issue. People don't read the instructions and push the board out of its safety envelope, then they crash, get angry, and complain about it online.
I've read hundreds of crash reports, and never seen more than a handful that weren't a direct result of the user's actions. Actual system failures are vanishingly rare, and most nosedives are only as bad as they are because the rider is traveling at an unsafe speed and has not invested in the training or equipment to fall safely.
Posting a warning is not a license to sell anything. Lots of products, including cars, that used to have safety warnings have been recalled or are no longer sold.
Novices to action sports often throw their arms out to catch themselves when they bail instead of rolling through the fall. They also don't know how to navigate obstacles via strategic weighting and unweighting of their implement.
The energies involved are also substantial -- to put it bluntly, some of these things fuckin' rip, which is super fun, but also makes safety gear a good idea. You can take a lot of trauma and abrasion bailing at 25mph+, potentially life-changing or fatal in the worst cases. There's a reason why downhill longboarders and an increasing number of electric wheel riders wear a fullface and leathers.