Toyota invests $394m in Joby Aviation's flying taxis
bloomberg.comThere are a lot of companies working on "flying taxis".
All of those seem to have a large footprint with lots of rotors, meaning they will need dedicated landing/take off zones.
This seems to limit their usability a lot, turning them more into a short range point to point helicopter service.
Not to mention the noise pollution. Those things are all loud.
Combine that with limited speed and range, and I just don't see the concept taking off in a big way.
Some other competitors:
* Volocopter: https://www.volocopter.com https://www.youtube.com/watch?v=OazFiIhwAEs
* Hyunday S-A1: https://www.youtube.com/watch?v=L6K7GAG1Aas
* Bell Nexus: https://www.bellflight.com/products/bell-nexus
* Ehang: https://www.ehang.com/ehang184/index https://www.youtube.com/watch?v=d66MoI4GdFs
* Kitty Hawk HeavySide (Larry Page pet project): https://kittyhawk.aero https://www.youtube.com/watch?v=q7mc3C19kE4
* Lilium (branded as jet): https://lilium.com https://www.youtube.com/watch?v=8qotuu8JjQM
Rotor size matters a lot for noise and how far it carries. Compared to a helicopter these things are going to be a lot less noisy. Also there's a difference between landing/taking off and cruise. Several of these designs have wings and a vtol configuration. There's no shortage of roof tops, open areas, etc. that could be converted to land on. As soon as viable products hit the market they'll be very popular. Finally, cities are noisy places and it will be hard to hear them over the background noise.
The reason this will take off (physically and economically) is cost. If you can travel 40-50m quickly for about the energy cost of a cup of coffee, it's going to be a game changer in big cities. I can take an Uber across town in Berlin but it will cost me around 20-30 euros and take 50 minutes (worse in rush hour) and is not that competitive with public transport. The same journey with a flying taxi could be done in 5-10 minutes (just like with a helicopter) the difference will be vastly lower cost. The main cost will be the pilot who can now do multiple journeys per hour and at least short term still charge a premium.
Even if this will be economically viable, the regulations around it could be so harsh that the idea could not take off.
There have to be rules where those taxis can start, land, in what direction, time frames and over which places in a city. You need some kind of air control and "traffic rules". Drivers need regulated training in simulators and there need to be emergency procedures.
I believe that in the first few years such things won't be allowed near towns and cities. There will be similar rules like flying drones [1], but a lot stricter.
And the time saved by such travel will probably decrease when the sky starts looking like in the 5th Element [2].
[1] https://uavcoach.com/drone-laws-in-switzerland/ [2] https://media.giphy.com/media/Bs2pZhpxf2168/giphy.gif
Initially yes. But the way this starts snowballing is some cities showing they are cooler than others by allowing these things and demonstrating it is fine. Then envy will force the issue and regulation will catch up in most places. IMHO autonomous flight will be the drive this. By the time regulation catches up, having a pilot on board is not going to be a thing any more. Also practically speaking, training that many pilots is just not going to happen in time for that to matter. E.g. deploying 10K of these things would require as many pilots (at least) and they simply don't exist right now. Going from a few hundred to a few thousand will happen relatively quickly but from there to e.g. a few hundred K won't happen until autonomous flight is ready to scale. IMHO we're looking at 15-30 years here for this to happen. With autonomous prototypes flying today, that's a conservative estimate. IMHO the biggest bottleneck will indeed be legal & regulations.
Short term, these things will mean helicopters that currently service rooftops in many cities will be replaced by slightly more of these things flown by professional pilots that will have increasingly less to do as these things start flying themselves. I also expect an increase in heliports. E.g. Manhattan only has a few right now.
I don't see anything fundamentally different than when automobile travel was new. Yes, there will be rules and training, etc. That does not preclude the possibility of having cheap and efficient air travel.
How would this differ from existing regulations for helicopters?
> travel 40-50m quickly for about the energy cost of a cup of coffee
By "energy cost" do you mean something like "the price of a cup of coffee spent on electricity"? That seems surprisingly efficient but maybe here (Europe) the coffee is cheaper and the electricity dearer - what's the figure in kWh?
Around 20-40 kwh or so for a single journey assuming a maximum capacity of 100-150kwh and assuming it would be rare to use more than 20-30% of it on a single journey or fly the maximum range. At 5-10 cents per kwh (i.e. 20-40kwh/$) we're not even talking some fancy barista doing their thing. Grid prices can be higher of course but I'm assuming a bulk consumer of energy would invest in turning this in a fixed cost by e.g. installing solar panels & batteries to lower the cost.
By the time these things start flying at scale, the coffee will be way more expensive than the energy cost. That's why most of these companies are investing in autonomous flight as well because short term that is going to be the cost bottleneck (that and training the army of pilots that they'd need).
So around 0.4 kWh/passenger-km? - seems it compares pretty favourably to long-haul aviation (e.g. wiuth very crude maths 600 people on A380 at max range/fuel works out as 0.36). Naively I had been assuming that the battery mass and small scale would be more punishing than that.
I think you’re going to need to make an actual argument about why the cost would be lower.
Wheels are really awesome at fighting gravity when the engine dies so I’m not sure I ever see a time people are flying around in personal aircraft en masse. I’ve seen enough try to drive on the ground.
Just an FYI, helicopters can land without engine power by autorotation. I'm assuming these things, if you're putting people in them, would do the same.
Additionally, autonomous flight is fairly common right now. There's less going on in the air than on the ground (or rather less surprises with small response time and high consequences). Planes even land and take off by themselves. The first plane to actually be certified to autoland was in 1968[0]. The tech has been around for awhile and been making serious development this entire time.
Those powered lift aircraft don't have enough rotor inertia to perform autorotation. They will have to rely on redundant power systems plus ballistic recovery parachutes.
Autonomous flight is still quite rare. And even when it is used, there are still human pilots standing by to take over in case anything goes wrong.
> Autonomous flight is quite common. When it is used, there are still human pilots standing by to take over in case anything goes wrong.
FTFY.
I'm just saying that comparing autonomous flight to autonomous driving isn't fair. Flying is a lot easier for a machine. You already have tons of data streaming in from airports, other planes, and lots of equipment on the vehicle itself.
That's completely wrong. Sure machines can control take off, navigation, and landing as long as everything works. However they are unable to cope with unexpected system failures. A lot of things can go wrong on even the simplest aircraft and it's impossible to anticipate and code for all of them.
There's different levels of autonomy, just to be clear. I'm not saying they are level 5.
Additionally, people forget the extra energy cost of fighting gravity. It takes a lot more energy to use a motor and prop to directly resist gravity, rather than using a static object like a wheel. Energy loss fighting gravity with a propeller >> energy loss fighting wheel friction.
Energy is not the only thing you should care about freight and human logistics. Logistical resources of cities are scarce and it already badly affects labor market there.
Planes and drones are getting pretty good at autonomous flight. You might not need pilots by the time this tech is mature.
They said the same about doctors, and yet heart surgery is done by real people.
All your NNs are entirely completely utterly pointless when faced with inputs they have never been trained on. They always suck at extrapolating, and almost always suck at interpolating as well. So when an unexpected emergency happens, what exactly are they going to do?
And outside of NNs, The only thing we have are autopilots. They sometimes fail, and that is why real pilots mainly just babysit them as their main job.
Just an FYI, planes already regularly fly by themselves. Auto landing has even been around since the late 60's.
The idea that airplanes fly themselves is spectacularly overstated in the public consciousness. The reality is closer to multidimensional cruise control than the pilots are just there for decoration.
Yes but there are still trained human pilots monitoring the auto landing systems, ready to abort if anything goes wrong. It general autonomous systems are incapable of coping with unexpected failure modes.
Sorry, to be clear, planes are not level 5. But to also be clear, there are different levels of autonomy. I'm not trying to suggest they are level 5 though.
From what I gather most companies in the space plan to land and take off from rooftops. That leaves a lot more options for stations and edges connecting them leading to a denser network than something like a subterranean train which requires dedicated stations with tunnels in between them
There's actually examples of this in the world now. In São Paulo, the rich take helicopters between buildings [1].
Even so there are only 469 (in 2008 according to the article) in all of São Paulo and that’s the metro area with the most helicopters in the world.
I doubt the likes of Hyundai are looking to sell their things “in the hundreds to thousands” range.
It’d a a big change in air traffic and noise pollution.
You'd be surprised how far 469 heliports go. That's one more than the number of stations the NY Metro has, which is the metro with the most number of stations in the world. Now imagine you could travel as the crow flies between any station in NYC. That's awesome efficiency, and if you still need you can grab an Uber at street level if you're still not close enough.
You're also not limited to just those 469 heliports. The vertices of the convex hull they produce can all serve as jumping off points to go about a 100 miles further to heliports one may have in ones own home.
For the rich in São Paulo, that may be homes in places like Angra do Reis and Laranjeiras. Even places like those two (which sit between Rio de Janeiro and São Paulo, can serve as connection points to jump from São Paulo to Rio de Janeiro with only one or two stops in between the two cities.
When you eliminate the time in traffic traffic to get to Congonhas or Guarulhos and the time spent in airport security, it makes a ton of sense for those with the means. Eventually as the tech progresses and becomes cheaper it will become accessible to more than just the very very rich.
No. Seoul Metro has nearly double that of NYC. I have no idea how you could possibly think NYC has the most in the world. Just think of most Chinese cities, let alone Korea's capital. https://en.wikipedia.org/wiki/Seoul_Metropolitan_Subway
Also Tokyo, Japan. It's ranked first in the world on subway usage and has 882 railway stations. https://en.m.wikipedia.org/wiki/Tokyo_subway
Actually Tokyo has much less than Seoul. You're counting railway stations, not subway stations. There's a large difference. Though the water is quite muddled, the easiest way is to actually look at the maps of the differing cities.
I was actually very let down by the metro of Tokyo compared to other Asian cities. Probably due to my high expectations.
Thanks for the correction. Google failed me when I tried to look up the metro with the most number of stops.
They also used to do this in NYC a lot. Here's a Bloomberg video on it that also discusses why it failed https://www.youtube.com/watch?v=8nbz5VFilxY
that smog tho...
Except those rooftops are very expensive real estate, that often already have other stuff on them. So to rent one, you need to pay a bunch of money, which increases price per ride and decreases total rides... that combo means this isn’t that realistic for wide spread adoption.
In that case, what makes them more useful than helicopters?
They aim to be much cheaper to run. Helicopters are mechanically complex so require a lot of maintenance, and have multiple single points of failure so you can’t skip the maintenance, and are demanding to learn to fly. The hourly rate of a helicopter is high.
Electric motors are simple and reliable and all these companies use multiples so have some redundancy. Multi-rotors require computer control for stability. With that done the piloting is easy.
Sure, they're trying to make it cheaper. But all of the eVTOL designs I've seen can't autorotate, making them much less safe (contrary to your implication about redundancy).
Everything I've seen about this space is people with big checks trying to cut corners to enter a new market, and it seems ripe to fail much like the 737-MAX.
https://www.forbes.com/sites/jeremybogaisky/2019/12/01/insid...
And that's ignoring all of the problems with the market itself, not to mention regulations, as well as logistical headaches of transporting between rooftops (which by the way, many cannot safely support landing pads - so now you also have to retrofit skyscrapers with incredibly expensive infrastructure).
To be fair you answered my question and I'm just being belligerent, so thank you for the response.
The argument is that you don’t need to autorotate if you can land under control on 2/3 of your 16 motors and the failure rate of each is epsilon.
The likelihood of failure is much lower with an eVTOL than a conventional helicopter. Additionally a BRS chute could work with eVTOLs in a way it couldn't with a normal heli.
> The likelihood of failure is much lower with an eVTOL than a conventional helicopter.
You're basing this on a myriad of assumptions as eVTOL designs are barely at the prototype stage right now. Helicopters have been in use for decades, so we know how safe they are.
If they truly prove to be safer then that's awesome, but based on everything I've seen I don't believe that to be true.
Why don't you believe that to be true? There are a myriad of ways for a combustion powered helicopter to fail. Just look at how many billionaires have been killed in helicopter flights.
Electric motors do not fail as often as combustion engines. Most eVTOL designs have redundancies that don't exist in a normal helicopter. I have flown R22s a handful of times and there were many times where an engine failure would have been disastrous.
What makes you think people aren't working on all the problems you think they are ignoring? I personally know at least one person working each and every one of the problems you mentioned.
Just because they're working on the problems doesn't mean they're going to solve them. When you look at all the pieces and read that article about the clusterfuck that is Kitty Hawk, you start to get a sense of just how much buzz and how little substance there may be.
FWIW I've interviewed at many of the eVTOL companies and found too much sizzle and not enough steak.
But to each his own. Ultimately it's just my opinion. Reality will assert itself regardless of what I think.
They are all-electric, 100x quieter, notably safer, and significantly cheaper by the mile.
do these have clear benefits compared to choppers ? open question.
Half of these designs are simply scaled up drones which, according to simple physics and engineering, is the wrong direction.
Details: http://datagenetics.com/blog/february62019/index.html
How can organisations this large get it so wrong? When is someone going to tell them that the Emperor is not wearing any clothes?
I think multi-rotor is a great safety feature, especially if they're partitioned into separate power systems. It would almost require intention to design something like the Volocopter without the ability to soft land in the case of an emergency.
The link you provided mentions this in an odd way:
> With a single engine helicopter you don’t have this redundancy. However, on engine failure, the single massive disk of the helicopter is an asset. ... Close to the ground, this stored kinetic energy can be traded, through pulling up the cyclic, to allow a safe landing. This is called autorotation, and is practiced by all helicopter pilots.
The air taxi that succeeds, at any sort of scale, will not be meant or designed for skilled helicopter pilots pulling levers, at the right moment, as they speed towards the ground. They will be dumb, cheap to service, unskilled to fly, and have more than one point of failure.
> pulling levers, at the right moment, as they speed towards the ground
I think this could be automated?
Sure [1], but safety through redundancy is much easier than automation.
Noise may be a factor in certain locales with decent human-centered regulation against it, but:
A) rich people have a ton of power, they will get it legalized if they really want to use them
B) There are many sparsely populated areas where rich people would still be able to make this work...think rural islands of Japan or New Zealand, very mountainous areas, the outskirts of a major metropolitan area...I think these will find use in certain markets.
These are 100x quieter than a helicopter, and nearly inaudible overhead. All-electric range is 60 miles at 150mph, which covers the vast majority of popular and congested urban routes.
The people with the money for these have the political power to force others to deal with the noise. Already, helicopters have remarkably few restrictions. If you can afford one, you can fly it almost anywhere you want.
I really don't see a pattern of any sort of large scale noise pollution via helicopter forced on people to think it will somehow be sure a thing.
It’s not large scale because it’s super expensive. You don’t have a problem with helicopter noise because they are almost no helicopters.
Helicopters are so expensive to own and operate that the number of people that are even in the running to cause noise is low to begin with.
Exactly, people with that much money can lobby against any noise restrictions.
If an aircraft can’t glide or autorotate then I don’t understand how it can be safe at low altitudes. Because whole plane parachutes (BRS) have a minimum altitude required to open successfully, and that altitude is a lot higher than anyone would care to drop.
Airplanes have energy from their forward motion. Helicopters have energy in their rotor blades. This energy can be used to soften a crash landing. Without this available energy, and without a parachute, then how do you soften a crash and survive?
People say that electric motors are so reliable... But batteries can spontaneously combust.
I would like to know how these aircraft are safe enough to be treated the same as a taxi ride.
The usual approach is to use a rocket to accelerate parachute deployment so that it's usable at lower altitudes. But even so there may be a "dead zone" in part of the flight envelope.
These are fixed wing, so they glide like airplanes. They will also have a BRS unlike helicopters. Additionally, the elctric rotors are independent, so there is built in redundancy. All of this results in a significantly safer aircraft.
Perhaps we could borrow ideas from bicycle helmets and airbags to create an emergency mechanism which absorbs most of the impact?
This is pretty much everything you need to know about Toyota - everything you need to know about corporate Japan - wrapped up neatly in one anecdote. Toyota can’t make a plug-in electric car to save themselves but for white elephants like flying cars and smart cities they are all in.
Uh the Prius Prime and (later this year) RAV4 prime exist or will soon. What’s your point?
Not OP, but I'm guessing their point is that Toyota has completely missed the boat on electrification where they had an early lead with the Prius.
They went after shiny unrealistic options like Fuel Cells/Hydrogen and wasted their lead. The world would have looked very different now if they had invested in Electric 10 years ago. Their "plug-in" electrics have 20-40 miles of all electric range. Even Ford has vehicles with 200+ miles range.
Instead, they still have only concept vehicles and their exec VP still says “We haven’t changed our policy towards battery EVs. We are not shifting our focus to prioritise battery EVs, nor are we abandoning our FCV strategy.” source: https://ww.electrek.co/2019/06/07/toyota-electric-car-images...
I find it very interesting how stubbornly Toyota is sticking to hydrogen/fuel cells. The rest of the market seems to have accepted that the big downsides of hydrogen based solutions (need for extensive transport + storage infrastructure, difficult containment, horrible end to end efficiency, ...) make batteries the better solution.
Tesla seems bound to demonstrate that even semis are already viable with current technology, and battery research is bound to reduce price, weight and longevity further. We may find chemistries that rely less on materials like cobalt, nickel, copper.
Is it pride and inability to accept failure, or are there valid reasons for this and Toyota could still emerge as a big winner?
It seems unlikely to me for personal cars.
Hydrogen seems better suited for energy storage, trains and airplanes.
> Is it pride and inability to accept failure, or are there valid reasons for this and Toyota could still emerge as a big winner?
Japan (and China, Europe and other regions) are investing in hydrogren based mobility. Japan has a bit over 100 fuel cell stations right now, and aims for over 300 stations and 200k vehicles in 5 years. [0] Toyota is one of the companies creating both the stations and also hydrogen based vehicles. They also sold about 3k of their hydrogen-based Mirai cars [2].
German company Bosch only started hydrogen fuel cell production in 2019 [1].
This is all very miniscule compared to the electic cars of today, but a hydrogen economy has a few important advantages, IMO the most important one is that hydrogen production can occur at times when energy is in abundance, which gets more and more important with rewewables based energy networks. Vehicles can also be fueled just as fast as ICE vehicles today, and hydrogen has much higher energy density than current battery technology.
From a strategic POV it makes sense for countries to look at hydrogen.
[0] https://www.airliquide.com/magazine/energy-transition/hydrog...
[1] https://www.japantimes.co.jp/news/2020/01/15/business/corpor...
[2] https://www.hindustantimes.com/autos/toyota-nissan-honda-amo...
You’re making it for me: stuffing a (tiny) battery into a legacy ICE or hybrid architecture and calling it a day isn’t competitive with _current_ competition, let alone where the market is going.
Toyota’s failure to convert its early lead in hybrids into a successful EV business will be quoted in business schools and boardrooms for decades as a textbook cautionary tale.
Is there another awd with high ground clearance phev? 39 miles per charge? You’re going to count them out for battery capacity? Something they can change unilaterally at any time?
I want to comment, but like, I can’t. For all the typical reasons.
Every other car in my town seems to be a Prius, are you sure?
Every $1 spent on noisy technology should require a $50 investment in tinnitus research.
As others have said, building the physical vehicles is a crowded space to enter, whereas there seem to be far fewer ventures involving the enabling infastructure (e.g. 3D spacetime routing/scheduling, monitoring, ledgering).
There are already commercial air taxis and helicopter services serving <300km market. Both are barely doing it financially.
Now think how a technical solution grossly inferior to both helicopter and a prop plane will fare in the market.
Is it just me or...
Why do we need to have startup founders and car companies try their hand at building a new experimental electric helicopter to validate whether or not the market wants to use helicopters for ride hailing?
They can carry five people 150 miles at up to 200 mph on a single charge?
If that's accurate, isn't this a huge step forward for an electric vehicle?
One only see a few helicopters at time in typical city skyline.
I wonder what happen if there are just 100 of them on the air at the same time.
True. The sound of a single drone is enough to disrupt a nice quiet afternoon sky, imagine 100 multi rotor, large enough to carry multiple people. Like a swarm of giant mosquitoes constantly buzzing around.
> Joby says it will manufacture prototypes at a facility in Marina, California, near Monterey, but plans to tap Toyota’s famous manufacturing prowess to build “highly reliable complex hardware at increased scale,” said Paul Sciarra, Joby’s executive chairman and a co-founder of Pinterest.
More glorified complexity. I would pay more to ride in something with highly reliable simple hardware.
This makes a lot of sense for Toyota. Their hydrogen fuel cells probably make a lot more sense in this context.
How would hydrogen make more sense?
On a simplistic level, the energy density of hydrogen is far greater than chemical batteries. Less weight to carry the same amount of energy.
This is more complex than I summarised, containing hydrogen effectively being one issue.
True, Hydrogen has a far higher energy density than li-ion batteries (~150x). But that doesn't show the entire picture. To store and use that hydrogen, you also need a very strong tank (cause of the high pressure it has to be stored in a vehicle) and a fuel cell stack to generate electrical energy. Taking the example of Toyota's Mirai, the hydrogen tank weighs 90kg to just store 5kg of Hydrogen (at 700bar). And this is despite being made of very expensive carbon fibre. If it was made of cheaper but heavier materials like steel, it would weigh much more. And the fuel cell in Mirai weighs 60kg just to output 114kw (155hp). Add all this up and it is a much more even (~2x, not ~150x) comparison with Li-ion battery (for reference Model 3 battery weighs 480kg). And given all this, not surprising the Mirai weighs (1850kg) more than a Model 3 long range (1725kg) despite having similar range and being far less powerful.
Skai VTOL claims to fly for 4 hours vs battery powered Ehang which is around 30m - for a hydrogen vs battery real world comparison. So perhaps there is some difference when these scale up. Their tank is made from stainless steel as well, rather than carbon fibre, so it appears that there is room for improvement there too.
Hydrogen fuel cells are much more energy-dense compared to Li-ion batteries.