Showing posts with label Technology driverless. Show all posts
Showing posts with label Technology driverless. Show all posts

Friday, January 8, 2021

Updated Reality for Autonomous Vehicles

 Quote

In March 2018, Waymo confidently forecast that “up to 20,000” electric Jaguars “will be built in the first two years of production and be available for riders of Waymo’s driverless service, serving a potential 1m trips per day”.

Two months later, it added that “up to 62,000” Chrysler minivans would join its driverless fleet, “starting in late 2018”.

Today, there is little sign that any of these vehicles have been ordered and Waymo’s official fleet size remains just 600.

End Quote



  Financial Times, Rolling out driverless cars is ‘extraordinary grind’, says Waymo boss, January 4, 2021.

Sunday, September 15, 2019

Uber's Days Are Numbered

I have been saying this privately and on my Facebook page for at least two years. Uber's days are numbered. We just don't know exactly when it'll collapse. It really depends on the amount of fools willing to help it burn capital. Now hear it from Princeton's Alain Kornhauser below. (The linked article dances around the truth and provides vague and false hope.)

"At the size that they are now, neither Lyft or Uber are close to break-even. If they grow, it gets worse (unit labor charges go up and average revenue goes down, fundamental supply - demand). Driverless in a sufficiently large Operational Design Domain to substantially increase their size in not going to happen soon enough to save them as they exist today. They were just too early.

Their only "survival" option is to downsize by a factor of at least 10, reduce their valuation/stock price by a factor of at least 10. Become a "nice business" for 5-10 years and wait for Driverless aTaxis to become a reality and start this all over again.

Driverless is a necessary condition to make this into a network non-labor intensive business. Alain"

Tuesday, October 9, 2018

Driverless Vehicles: Two Radically Different Visions

I concur with Bob Poole's commentary published as follows:

Surface Transportation Innovations
 
By Robert W. Poole, Jr.
Searle Freedom Trust Transportation Fellow and Director of Transportation Policy
October 2018


There is no question that personal transportation will undergo significant changes in coming decades. Three such changes will be the advent of affordable electric vehicles, fully autonomous vehicles, and mobility as a service (MaaS) in which people opt to rely on shared vehicles rather than individually owned vehicles. These are separate changes, which may well arrive on different time scales and with different degrees of market penetration.
Several times in recent months, various people have sent me a report that links all three together via a dramatic scenario. The report comes from RethinkX and is called “Rethinking Transportation 2020-2030,” released in May 2017. Its headline claims include the following:
  • Fully autonomous vehicles (presumably SAE Level 5) will achieve regulatory approval and be on the market in 2020.
  • By 2030, those AVs will provide 95% of all [surface] passenger miles of travel.
  • Those 95% will all be in shared vehicles (Mobility as a Service), rather than in personally owned AVs.
  • These AVs will all be electric, and will last 500,000 to 700,000 miles on their initial battery pack.
These assumptions are shared by virtually no one actually working on AVs, whether at technology companies or traditional auto companies. The past year has seen a growing number of articles explaining that full autonomy (on all kinds of roads, in all kinds of weather, etc.) is turning out to be a much harder problem than many researchers expected. Most expect gradual introduction of AV features in the next decade, with full Level 5 not being likely until at least 2035 or beyond.

As I wrote in a recent column for Public Works Financing, there is no necessary connection between electric propulsion and autonomy: neither one depends on the other. The current generation of EVs costs nearly twice as much as comparable non-EV vehicles, seriously limiting mass-market appeal.

Likewise, as of now, autonomy itself requires a large array of costly sensors and very complex artificial intelligence software, Hence, RethinkX’s idea that electric AVs will be cheaper than conventional cars by 2020 looks to me like a pipe dream. In addition, the idea that the original battery pack will last 500,000 to 700,000 miles (a key to Rethink’s lower ownership cost estimate) is unproven. (The Toyota Prius battery pack has a 10-year or 150,000-mile warranty, while the Tesla Model 3 warranty is for 8 years of 100,000 miles.)

A far more realistic assessment of future mobility was released in May 2018 by S&P Global Ratings, “The Road Ahead for Autonomous Vehicles.” S&P’s analysts conclude that “mass adoption of driverless autonomous vehicles (AVs) [is] still decades away.” By contrast, they expect a faster penetration rate of electric vehicles (EVs), especially if there continue to be government “incentives” (subsidies) for those purchasing them. (S&P’s EV projections are somewhat exaggerated by including plug-in hybrids.)

S&P developed three scenarios (low/medium/high) for AV penetration, depending on a array of assumptions about technology, the price premium over conventional cars, extent of government “incentives,” growth in ride-sharing/ride-hailing (Mobility as a Service), etc. For the 2020 to 2030 period, the fraction of AVs in the total light-vehicle fleet by 2030 is projected at <1 2="" and="" av="" be="" fleet="" fraction="" high.="" in="" low="" medium="" of="" p="" phase="" scenario="" the="" vehicle="" would="">
I find the assumptions underlying the three scenarios to be reasonable, and a number of implications for highways and travel emerge. First, even in the high (“disruptive”) scenario, only 35% of the light vehicle fleet will be AVs by 2040. So that means our roadways and highways are going to have to deal with a mixed fleet for many decades. That is far different from popular media visions of a near-term all-AV future. Second, S&P suggests that the early impacts of Level 5 AVs will be felt most by transit agencies and parking enterprises. Between 2020 and 2030, S&P expects an increase in urban traffic congestion, due partly to the continued growth of ride-hailing. (Incidentally, a new paper by Alejandro Henao and Wesley E. Marshall, “The Impact of Ride-Hailing on Vehicle Miles Traveled,” projects that “ride-hailing leads to approximately 83.5% more VMT” than would have existed had ride-hailing not emerged.) As connected AV market penetration increases beyond 2030, S&P expects “lane capacity could increase by 5% to 7% by 2030-2035 [due to] an increase in platooning.” That would partially offset the impact on highways from increased VMT due to ride-hailing and increased personal travel by those who cannot drive today (very old, very young, and disabled).


These are still early days for EVs, AVs, and MaaS. The sober analysis from S&P is a far better guide to thinking about the implications of these developments than the blue-sky vision of RethinkX

Wednesday, August 8, 2018

The New York Times Drops the Ball on Automated Vehicles

The New York Times Drops the Ball on Automated Vehicles
By Baruch Feigenbaum

At times the popular media coverage of transportation makes me cringe.  Many news outlets lack a dedicated transportation reporter, and the person whose job it is to cover the story often has little background and even less interest in transportation policy. Automated vehicles, in particular, seem to bring out some of the oddest, most uneducated assertions of all areas in transportation.

Exhibit A is Emily Badger’s New York Times piece, “Pave Over the Subway? Cities Face Tough Bets on Driverless Cars” (July 20, 2018). The article confuses facts and makes bizarre assumptions but its biggest weakness is leading those with limited knowledge to think her piece represents mainstream AV thinking. Princeton AV expert Alain Kornhauser described the piece as “not even … half-baked.”
Several times Badger takes the viewpoint of a small minority and presents it as mainstream. Beth Osborne of Transportation for America argues that city council members, state legislation, and decision-making have been unduly influenced by people who “have imbued autonomous vehicles with the possibility to solve every problem that was ever created in transportation since the beginning of time.”

AVs by themselves don’t solve problems; good policy solves problems. And if most people thought that AVs by themselves could fix all of our transportation issues, that would be a problem. But most people don’t. In fact, polls show that more Americans fear AVs than welcome them. Sixty-four percent of millennials don’t think automated vehicles are safe. Some futurists may have an unrealistic view of AVs, but the public as a whole does not.

Badger repeats this problem with transit—twice. First, she uses the opinion of one person to argue that cities will have to pave over obsolete heavy-rail lines such as the New York Subway. That person, Brad Templeton, is a pioneer AV thinker who comes up with many creative ideas, but he is an expert in technology and software, not mass transit. Ten out of 10 transit experts will tell you the New York City subway will never be paved over. Heavy rail, where it works, transports huge numbers of people. In very dense central cities rail simply cannot be replaced with bus, and I say this as a member of a Transportation Research Board bus transit committee.

Badger then uses Templeton’s idea to suggest that opponents of light rail projects in Detroit, Indianapolis, and Nashville are falling for the “AV will fix everything” argument.  Detroit, Indianapolis, and Nashville are nothing like New York City. New York has the super-high-density to make heavy rail work, a large number of jobs and residents near the central business district, and geographic boundaries (rivers) that make car travel challenging. The other cities have very low densities, very few jobs or residents in the central business districts, and no geographic boundaries. As a result, the three struggle to make even quality bus service work. In fact, the transit experts in those three metro areas did not recommend light rail; they recommended bus. Yet, Nashville’s political leadership chose to ignore the recommendation and place a light rail measure on the ballot that polling indicated would fail—as it did.

The lack of understanding that not every U.S. city has the spatial structure of New York or Washington, DC, is pervasive throughout the article. For example, Las Vegas is lauded for planning a light rail line, because there will not be space in downtown for everybody to drive their own AV. Yet no one is suggesting most folks will drive their own AVs. Early predictions are for a large increase in ride-sharing, as automation significantly reduces its cost. But even if many people buy their own AVs, Las Vegas could build a BRT line for less than one-third the cost of a rail line. Las Vegas already has a successful BRT line starting in downtown and running along the Vegas strip. Similar to Nashville, Las Vegas does not have the density to support light rail.

Badger makes one good point about the inflexibility and lack of creativity of many transit agencies. Twenty years ago, city manager Frank Martz of the Orlando suburb Altamonte Springs suggested using computers or kiosks to let people order smaller vehicles with optimized routes. But the leadership of the local transit agency, Lynx, was focused on buses, unions and drivers. The agency simply could not conceptualize on-demand transit. Finally, 20 years later, the city completed a two-year pilot program where it offered discounts on Uber rides. If transit agencies lack creativity and have made mistakes in the past, doesn’t it make sense to consider the uncertainties of automated vehicles when deciding on a transit technology?

This isn’t the first time The New York Times has published a poor transportation article. Earlier this year the newspaper argued that the Nashville rail plan (that the city’s own transit experts argued was bad policy) lost at the polls not because it was bad policy but because Americans for Prosperity bankrolled a campaign of transit-haters. The newspaper mentioned Randal O’Toole’s Nashville speech that compared rail transit to a diamond-encrusted watch. But it did not mention my Nashville presentation on why a bus-based system was a better alternative or other presentations from transit experts on automated vehicles and personal mobility.


The Times should re-assess its goals in transportation policy. If its goal is to run balanced, intelligent articles that are well-respected by professionals, it should follow the lead of the Washington Post (and many other newspapers) and hire one or more dedicated transportation reporters to write balanced feature articles on transportation policy. If the newspaper’s goal is to produce flashy headlines with little substantive news, it should stay on its current track (irony intended). But the New York Times’ leadership should not be surprised when transportation professionals continue to dismiss its work as drivel.

Friday, May 25, 2018

Major Driverless Vehicle Faux Pas


In this video the April 2018 Uber/Volvo driverless vehicle accident is analyzed on Israeli TV. The Israel/US (Mobileye/Intel) technology is extolled as superior. Then the superior technology with journalists aboard goes through a red light with schoolgirls about to cross! 

Go to minute 4 and watch the last minute or so of the story. This is a stunning faux pas!

Sunday, May 6, 2018

Critical Challenges in Transportation

I received a survey distributed to transportation committees of the National Academy of Engineering on future challenges that will affect transportation. My main responses are as follows.
====================

Please indicate to what extent you are interested in being engaged in activities related to the following critical challenges (not at all interested, not so interested, somewhat interested, very interested and extremely interested).

I was very interested or extremely interested in five out of the 14 critical challenges presented, as shown below along with my rationale.

Changing Characteristics of New Technologies & Innovation Environment (autonomous, shared, data-intensive): Potentially disruptive to traffic and freeway operations because we could get rid of most of roadside/ government data collection and tolling equipment, and rely on the big data generated by Connected Autonomous Vehicles (CAV).

Rapid Entry of Silicon Valley Entrepreneurs in Transportation Technology and Services: We’ve got to watch this one. If the "ITs" succeed in taking over a big chunk of transportation, their next goal will be controlling a big chunk of the government.

Changing Demographics, Values, Preferences, & Behaviors (age distribution disparities, evolving service expectations): Demographics are the most predictable among the future unknowns. But "safety behavior" will become a major challenge as driving progressively becomes a secondary task.

Climate Change (increased disruptive events, concern for sustainability): Major concern for sustainability but due to consumption and resource depletion, less due to climate effects… at least till 2050.

Challenges to Planning and Forecasting (forecasting under rapid change, addressing uncertainties, implementing new methods): 20+ year forecasts are exercises in political appropriation of funds and social engineering. Long term forecasts for facilities and services subject to a lot of possible automation aren't useful.

Tuesday, December 5, 2017

It’s Not Too Late to Build Rail Better

Quoted in Honolulu Civil Beat's editorial board opinion about HART.

Honolulu’s prophets of doom for the rail project — Randall Roth, Cliff Slater and Panos Prevedouros — believe they were right all along that the city’s ambitious mass-transit plan is a mess.
...

Roth, Slater and Prevedouros have imagined exactly that. And that is why they’ve accepted the reality that rail is “happening,” as Prevedouros put it in a recent editorial board meeting with Civil Beat. It comes in the wake of the Hawaii Legislature approving a $2.4 billion funding package to continue building the rail line, now pegged at $8.17 billion.

What Roth and Co. are are not accepting, however, is that the city and the Honolulu Authority for Rapid Transportation should go ahead and build all of the planned 20 miles and 21 stations. Instead, they want rail to stop at Middle Street.
...

But what Roth, Slater and Prevedouros argue now is that, because Middle Street is home to Oahu Transit Services — home of TheBus, The Handi-Van and the Kalihi-Palama Bus — it can be the future of what they envision as a multimodal hub.


What’s central to this thesis is that transportation technologies and business models are developing faster than once thought possible. Ride-hailing companies like Uber and Lyft have altered the way consumers view short trips, while automated buses and cars are already being tested and deployed.
...

Roth and Co. believe the FTA would be open to a new plan. The built guideway could eventually be modified to accommodate shared or automatic transportation systems.

Thursday, November 30, 2017

Could Self-Driving Cars and Buses Replace the Last Leg of Rail?

Quoted by Marcel Honore in his article in Honolulu Civil Beat.

It’s been nearly three months since state leaders approved their latest, $2.4 billion funding package to bail out the largest public works project in Hawaii’s history.

But don’t tell Randall Roth, Cliff Slater or Panos Prevedouros that Honolulu rail transit is finally in the clear to reach Ala Moana Center. For the three longtime outspoken rail critics, who’ve previously predicted budget overruns, it’s not a question of “if” the $8.17 billion project will again run out of cash — it’s “when.”

...

Despite the latest influx of cash to move rail forward, Roth, Slater and Prevedouros haven’t given up their efforts. They have adjusted their message, however.

Now, the trio advocates stopping rail at Middle Street and exploring whether the growing popularity of ride-hailing services such as Uber and future self-driving technologies could then get Honolulu commuters from that transit hub further into town.

Prevedouros, a UH civil-engineering professor who previously ran for mayor as an ant–rail candidate, suggested the city could run automated buses along Dillingham Boulevard and Nimitz Highway from the Middle Street transit hub.

The city’s existing road grid could potentially handle more vehicles if they’re self-driving because they would travel more closely together, he added.

However, there’s been no local studies to examine whether this might work, and the idea is only preliminary, he acknowledged.

“This is part of the discussion that hasn’t happened here at all and, it is time that we make that discussion and make that connection to the rail,” Prevedouros said Wednesday.

“What’s the choice of investment? Nineteenth century versus 21st century and this discussion is not even happening in this town. No one is talking autonomous,” or self-driving vehicles, he said.

Slater, meanwhile, pointed to Uber’s recently announced plan to buy 24,000 sports-utility vehicles from Volvo to launch its own self-driving car fleet.

==================

And I add this to the discussion presented in the Civil Beat article:

In November 2017 Google's Waymo unit specializing on driverless technology posted a video of autonomous vans providing a prototype "suburban service." Now fast forward to 2020 and it's not hard to imagine:

1. A dozen Waymo vans roaming on routes in Kapolei and taking people to/from the rail station. They'll be smart too. Midday they'll park at key spots until they are called; unlike buses that clock many miles mostly empty. This has a number of positives in terms or resource consumption, pollution, and wear and tear.
2. Six to ten automated buses connecting Middle Street with downtown, each one departing a few minutes after a train arrives.

Driverless transportation is a low cost, high tech way out of perpetuating the rail black hole. What a way to get Honolulu ahead of most cities in transportation innovation!


Friday, November 3, 2017

Duke Professor Henry Petroski on Future of Transportation



Thank you to Hawaii News Now for covering our guest, Duke University civil engineering professor and infrastructure historian Dr. Henry Petroski.

Friday, October 13, 2017

Bob Poole: Facing Reality on a Shared-Vehicle Future

The cover story of the current issue of Thinking Highways takes on the question of whether an autonomous vehicle future will be largely one of shared AVs or individually owned AVs. Authors Bern Grush and Blair Schlecter rightly begin by asserting that "the ownership question is more important than automation." They also start by telegraphing their conclusion: "That private ownership will cease or become rare is wishful thinking—at least for the next half-century and for any country whose government will not ban ownership."
This conclusion surprised me, because I've read a lot that Bern Grush has written on AVs, and he's made it clear that he would prefer a future in which shared AVs largely win out over individually owned AVs. But that makes his honest look at the obstacles to that future all the more compelling.
Blair and Schlecter begin by contrasting the two predominant views of the future, as follows:
  • According to the environmental and livability perspective, the ideal future would be based on vehicles that are automated, connected, electric, and shared (ACES).
  • But the ideal AV future for most drivers would be vehicles that are comfortable, affordable, fast, and instantly available (CAFI).
And they point out that "The ACES-CAFI difference is the divide between what planners wish and consumers want. This gap is now very wide. It has to be closed in order to achieve the holy grail of having most people use 'mobility as a service' (MaaS) rather than owning their own vehicle."
The key to understanding the authors' conclusion is their clear-eyed assessment of serving "travelers with non-routine needs." They identify eight such categories, as follows.
  1. Travelers with children, who may need car safety seats for young ones and will also be concerned about the sanitary condition of the vehicles;
  2. Travelers who trip-chain, e.g., making multiple stops on the way to or from work;
  3. Travelers who are disabled or elderly, and have difficulty getting in and out of standardized vehicles;
  4. Baby boomer travelers, a huge cohort over the next several decades, who hope to age in place and will relish the ability to preserve their current mobility via owning an AV;
  5. Travelers with pets or helper animals—another category not likely to be acceptable to the other passengers in a shared AV;
  6. Travelers who smoke—ditto;
  7. Travelers concerned about communicable diseases; and,
  8. Travelers who need carrying and storage capacity, which includes not only shoppers but also service providers such as pool cleaners, plumbers, electricians, etc.
This should be a sobering message for those who glibly predict the imminent displacement of individually owner vehicles by Mobility as a Service. I close with a concluding thought from Grush and Schlecter:

"Currently, the ideal [shared] vehicle fleet would satisfy only a fraction of user trips. For every pet taken in a pet-free vehicle or smoker using a smoke-free car, a robo-ride user might be disappointed and encouraged to buy a car or join an exclusive-car club, diminishing the pool of riders for massive robo-fleets and the efficiency of massive, relatively uniform, coordinated fleets."

Wednesday, June 28, 2017

Honolulu Driverless Car Poll 2017


Given how little is actually known about driverless cars, more so in Hawaii where there are no autonomous vehicle pilots or any major funded research, it is surprising that so many newspaper subscribers who answered the poll have a specific opinion.... 41% opposed; problematic, 32% very positive; great potential, and 27% mixed.

I'd speculate that this is almost purely based on information about Teslas. East Honolulu probably has more Teslas than any other comparable high income community in the US.

At the present time, the correct answer is: Problematic 100% and Great potential 100%.




Monday, June 26, 2017

Progress on Autonomous Vehicles

By Baruch Feigenbaum, as reported in the June 2017 issue no 164 of Robert Poole's SURFACE TRANSPORTATION INNOVATIONS

Last month I attended an automated vehicle conference at Princeton and read the Eno Center for Transportation's new AV policy paper. Both make excellent contributions.

The 2017 Smart Driving Car Summit in Princeton was created and organized by AV researcher and professor Alain Kornhauser. Kornhauser has been researching the intersection between technology and transportation for 50 years; he also writes a useful and amusing weekly AV newsletter. The summit was divided into two days. The first day featured presentations on AV technology, safety, and insurance while the second consisted of workshops on AV planning, insurance and artificial intelligence.

On the first day, AV researcher Bern Grush gave a very good presentation on how AVs could affect communities, highlighting that while most experts expect AVs to increase VMT, uncertainty about a transformative technology makes planning challenging. Adriano Allesandrini from the University of Rome gave a forceful presentation on how automated vehicles are available and on the road today; they are called buses. CityMobil 2 has demonstrated automated slow-speed buses in many European cities. The challenge is that buses traveling at 8 mph have limited ridership potential, so the technology needs to be improved before these buses are viable. He also challenged conference attendees to think about what is best for urban areas rather than what is best for car companies.

Danny Shapiro from NVIDIA presented a fascinating discussion of machine learning. He discussed how, using CAD simulation software and a graphics processing unit, researchers have been able to build a car's brain. It is the same technology used for facial recognition software, and the improvement in machine learning over the past five years has been revolutionary.

In the afternoon we had several presentations on the availability/effectiveness of AV features. Auto dealer Sheldon Sandler revealed that the two most valued AV features are a rearview camera and blind-spot warning. They are the only features that more than 60% of buyers request. Manufacturers offer advanced AV features on a limited number of models only, and they often require customers to buy a package of features that they don't want. For example, the Hyundai Sonata offers a safety package. But it costs more than $5,000 because in order to get the safety features, customers have to order the Limited Tech package with a premium audio system and heated rear seats. Manufacturers offer these packages because most consumers don't put a high value on safety features. So despite what buyers claim in stated preference surveys, car buyers are not willing to pay much for advanced technology. More depressing was a presentation from the Insurance Institute for Highway Safety that showed many of today's Level 2 AV features, such as automatic braking, don't work in many real-world situations. In almost 50% of cases, automated braking did not engage fast enough to avoid hitting a car or a pedestrian.

The Eno policy paper, "Adopting and Adapting: States and Automated Vehicle Policy," is a 30-page report worth reading. It provides an overview of AVs and offers recommendations to states. My focus here is on the recommendations section that is broken into three parts: Regulations, Infrastructure Investment and Funding, and Research and Workforce Training.

The paper suggests relatively relaxed regulations, including not overdoing reporting requirements, and creating non-binding statements or principles. It recommends states work with NHTSA on liability and safety issues. I believe this means that NHTSA should stick primarily to federal issues such as safety standards, and states should control licensing. Federalism suggests a certain balance between federal and state-level rules. I generally agree with these recommendations, as nothing that I have seen so far in AVs suggests that balance should be upset.

For state AV infrastructure investment, the report recommends focusing on keeping highways in a state of good repair. The report also recommends that automated vehicles pay mileage based user fees (MBUFs) instead of a gas tax. So far, MBUF acceptance has been slow due to the development of the technology and the political resistance to paying by the mile. Eno believes that MBUFs can be implemented more easily using vehicles with new features such as AVs.

The document also recommends funding research to explore how AVs may affect the broader economy. One recommendation suggests revising procurement processes so research keeps up with innovation. Governments seldom keep up with new technology because internal processes are designed to be slow and conservative. For research to be useful it cannot be developed at the typical government pace. Finally, Eno recommends investing in programs to train people for AV repair. Today's colleges and technical schools need to think about the skills tomorrow's workers need. And those are not the skills needed to fix a 2005 Dodge.

The Eno report has two weaknesses. The first is that it examines states only; it does not look at metropolitan planning organizations (MPOs) or cities. MPOs are the federally designated planning entity for regions; they are interested in AV guidance as well.

The second is the suggestion of digital short-range communications (DSRC) pilot projects. DSRC has a host of problems: it's outdated and inferior to 5G, it takes up valuable wireless spectrum, and it is really expensive to build the needed infrastructure. For the past 18 years, part of the 5.9 Ghz band has been reserved for DSRC, but the technology is still not ready. With the advent of 5G and the need for connected vehicles still some years off, there is simply no point to pursuing DSRC.


Monday, May 15, 2017

Chris Urmson Reflects On Challenges of Driverless Cars

Chris Urmson reflects on challenges, no-win scenarios and timing of driverless cars is a summary of six important points (written by Chuka Mui in Forbes) that summarize the current state of the art and the future likely path of driverless technology.
  1. There is a lot more chaos on the road than most recognize.
  2. Human intent is the fundamental challenge for driverless cars.
  3. Incremental driver assistance systems will not evolve into driverless cars.
  4. Don’t let the “Trolley Car Problem” [ethics] make the perfect into the enemy of the great.
  5. The “mad rush” is justified.
  6. Deployment will happen “relatively quickly.”
Most articles that cover Transportation as a Service or TaaS including this neglect to address the environmental trade-off... much less need for parking, but much higher VMT and energy use.

Death spiral for cars. By 2030, you probably won’t own one shows possible trends in costs and adoptions, but I think that it is way off the mark.

Thursday, September 22, 2016

Traffic Expert: Honolulu Ideal for Driverless Vehicles

I, the traffic engineer, should be more careful with these driverless cars... if they become all knowing, autonomous and self-managing, they will need no drivers. And cities will need no traffic engineers ;)
Panos Prevedouros, chairman of the University of Hawaii's Department of Civil and Environmental Engineering, agrees that Honolulu is ideal for driver-less cars.
"Not only because of congestion but because we're really not an interstate state. Our speeds everywhere are modest to low. That makes the risk quite lower than Montana," he said.
...
The federal government believes automated vehicles will make roads safer and reduce gridlock.
But Prevedouros said self-driving cars could initially slow down traffic.
"In the future they can be aggressive. In other words, they can be tailgating each other to save a lot of space. But in the early stages this is not going to happen," he said.

Sunday, July 17, 2016

"Mandating V2V Connectivity Is a Waste of Time"

Ronald Bailey, Science Correspondent, Reason magazine (adapted from "Will Politicians Block Our Driverless Future," Reason.com, June 18, 2016)

There are two "equally important components that will determine the future of autonomous vehicles," Lyft's vice president for government relations, Joseph Okpaku said at a March Senate Commerce Committee hearing. "The first is the interaction of everyday people with these new vehicles, and the second is the much more unpredictable interface of government with this entirely new transportation resource."

University of Texas engineer Kara Kockelman notes that traditional automakers tend to "see the transition to self-driving as a very natural, very normal process adding over time features like GPS, adaptive cruise control, cameras, lane-keeping-assist systems, dedicated short-range communication, and so forth." Such semi-autonomous vehicles can safely operate only in predictable traffic environments, so some manufacturers are suggesting that dedicated additional infrastructure, such as separate highway lanes, be built for them.

But "special lanes are a bad idea," says Kockelman. "They would be incredibly expensive and constraining." Planners, politicians, and regulators may think that establishing dedicated infrastructure for self-driving cars is helpful, but autonomous vehicle pioneer Brad Templeton notes that "such rules could easily lead to them not being allowed in ordinary lanes."

Kockelman argues that semi-autonomous vehicles, or what NHTSA calls "limited self-driving automation," present a big safety problem. With these so-called Level 3 vehicles, drivers cede full control to the car for the most part, but must be ready at all times to take over if something untoward occurs. The problem is that such semi-autonomous cars travel along safely 99 percent of the time, allowing the attention of their bored drivers to falter. In an August 2015 study, NHTSA reported that depending on the on-board alert, it took drivers as long as 17 seconds to regain manual control of the semi-autonomous car. "The radical change to full automation is important," argues Kockelman. "Level 3 is too dangerous. We have to jump over that to Level 4 full automation, and most manufacturers don't want to do that. They want protection; they want baby steps; they want special corridors. They won't get that."

Consequently, the first law of the robocar revolution, according to Templeton, is that "you don't change the infrastructure." Whatever functionality is needed to drive safely should be on board each individual vehicle. "Just tell the software people that this is the road you have to drive on, and let them figure it out," Templeton says. "Everything you must do is in the software, or you lose." Some self-driving shuttles confined to specific areas—airports, pedestrian malls, colleges campuses—will be deployed, but they are not the future of this technology.

Another infrastructure mistake would be mandating the deployment of "smart roadside infrastructure," such as traffic lights and sensors to monitor conditions like icing on bridges and communicate the information via radio to autonomous cars. In 2015, Sens. Debbie Stabenow (D, MI), Gary Peters (D, MI), and Lamar Alexander (R-TN) embraced this idea when they introduced the Vehicle Innovation Act, which included spending more than $300 million on various favored tech, including vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communications systems.


Before embracing such external information systems, keep in mind that the U.S. DOT estimated in 2007 that 75% of the nation's 330,000 traffic lights are mistimed or use obsolete control systems. "If city and county street and road agencies can't keep traffic signals up-to-date, how long would it take them to install and upgrade smart road systems?" Randal O'Toole asked in a 2014 Cato Institute study, "Policy Implications of Autonomous Vehicles." It's all most states and cities can do to fix potholes, much less deploy and maintain sophisticated networks of roadway sensors.

Other regulators and politicians want to require automobiles to be equipped with V2V communications tech using dedicated short-range communications (DSRC) protocols. The idea is that cars could talk to one another to provide warnings of traffic jams, accidents ahead, or vehicles in front that are braking. They might even cooperate with one another to get through intersections. A good bit of the Obama Administration's promised $4 billion for autonomous vehicles would be earmarked forV2V research and development.

"DSRC is already obsolete," argues Kockelman. "Regulators simply can't write down a communications standard that will be useful for a long time." Templeton agrees. "People outside the industry think it's essential, and the car companies are just going along with it to keep them happy," he says. "It's something designed in 2000 [that] wouldn't be fully deployed until 2030 or later." The bottom line: "Mandating V2V connectivity is stupid and a waste of time."

Templeton cites the internet as a model for how to roll out the technologies that enable self-driving cars. "The internet is a dumb network that connects smart devices," he explains. "You want smart cars running on stupid roads." Dumb networks push innovation to the edge, giving end-users control over the speed and direction of change.

Monday, April 18, 2016

Liang Shi: Will Driverless Cars Improve Traffic Congestion?

Many colleges and universities have a quick but tough competition among their graduate students called the 3MT or the Three Minute Thesis. Students stand up and deliver, in three minutes or less, a coherent and interesting summary of their research leading to their Masters or Doctorate degree.

I am very pleased that my PhD student Liang Shi competed among ~60 University of Hawaii at Manoa graduate students and got 2nd place.  Congratulations!


"You may have seen the news that Google is testing their Driverless cars in California. The car was designed to drive itself without any human intervention. It uses a rotating roof top light radar system (aka LIDAR) that maps critical components of the road environment, including curves, signals, traffic lanes, vehicles, pedestrians and bicycles. It also maps cones and construction zones for avoidance. It has no driver controls, such as steering wheel or pedals. It is believed that driverless cars can reduce traffic accidents and congestion. But last November, a Google car was pulled over by the police for driving too slowly, which generated my research question ”will driverless cars improve traffic congestion?” My research is to estimate how driverless cars affect the traffic flow of freeways and city streets.

For example, take an intersection controlled by a traffic light , when the traffic light turns from red to green, it takes 1 second to 3 seconds for human drivers to perceive the change of the signal and react accordingly by switching pedals. For a driverless car, it only takes 0.3 seconds to do so. Driverless cars use sensors and cameras to detect the traffic lights.  They can communicate with the local controller that operates the traffic light. For advanced driverless cars, called connected vehicles, they can talk to each other exchanging information of location, speed and other parameters. Imagine if all the cars at the signalized intersection were driverless cars: They would all start at the same time without the human response delays. So the road can serve a larger amount of traffic in the same amount of time. In addition, driverless cars are equipped with collision avoidance technology, so if a regular motorist violated the red light, the driverless car would not enter the intersection and it would avoid the collision.

Based on my analyses, if all vehicles are driverless cars, capacity of the road will be doubled. This means that every city intersection would have twice as many lanes at no cost to the city.  But if in the future we only have 1% of driverless cars in traffic, traffic flow will not improve. If we have 5% driverless cars, congestion will improve by about 5% if they are regular driverless cars, or by 12% if they are connected driverless cars. So with 5% driverless cars, traffic flow will begin to improve in a noticeable way. However, if the cars are designed to drive conservatively, they will cause more delays than humans do.

To answer my research question, which is “will driverless cars improve traffic congestion?” the answer is that if driverless cars become dominant in the market and if they are designed to drive very closely to each other, then they will reduce traffic congestion, possibly by a lot. "


Sunday, March 20, 2016

Distracted Drivers? A $20,000 Honda to the Resque

Interesting excerpts from [a] $20,000 Self-Driving Vehicle Hits the Road:

  • There is a growing availability of advanced-driver assistance systems, or ADAS, such as lane-keeping assist, automatic braking or adaptive cruise control in the market. As auto makers offer the components needed to power these functions in option packages as low as $1,800, they are being snapped up at a far higher rate than electrified vehicles.
  • Reckless behavior is standard on America’s highways as people spend more time with their thumbs and eyes on a smartphone rather than on the road. Data indicates drivers are aware of their need for help.
  • NHTSA estimates 10% of all drivers 15 to 19 years old involved in fatal crashes were reported as distracted—the largest proportion of drivers who were distracted at the time of the accidents.
  • Auto makers are scrambling to accelerate autonomous technology. Tesla Motors Inc. has led the way with self-piloted features; Daimler AG ’s Mercedes-Benz is proliferating ADAS across its lineup; and General Motors, planning to introduce a “Super Cruise” semiautonomous system on pricey Cadillacs next year, is sinking $1.5 billion into two Silicon Valley startups that could help its cause.
  • Honda’s new Civic, much of the drive can be completed with hands off the wheel and foot off the accelerator as long as lane markings remain visible and another vehicle is in front of the car. A camera mounted at the rearview mirror watches the road, and the car’s central nervous system tells components when to slow down, swerve or slam the brakes.
  • People will pay more than the $20,440 that Honda is asking. Executives at Nissan Motor Co. ’s Infiniti brand estimate 15% of buyers for the Q50’s $3,200 “technology package”—a suite of features that lets the $55,000 car drive on its own. That’s three times as many people who pay extra to buy a hybrid-electric version.

Tuesday, February 23, 2016

Why Could Driverless Cars Fizzle Out?

I have been collecting materials to compose a "contrarian article" to the hype about driverless vehicles.  I should be clear that I support driverless technologies but I am skeptical of fully autonomous, driverless vehicles.

I believe that many more components to automate driving will be added to the existing adaptive cruise control available to several mid-range and most luxury vehicles. These technologies improve both comfort and safety and they are quite readily accepted by the vehicle owners and users. For example the loaded version of the new Toyota Prius will have automated lane keeping and car following. (See Toyota's extensive list of automated driver support systems.)


Fully automated pods, cars, trucks and buses is another story, as explained in Why Driverless Cars Will Screech to a Halt.

The article may be off putting with remarks like .... "It’s clear that Uber and some of the other companies are professional carnival barkers engaged in an amazingly brash self-driving con."

However, it is spot on for huge issues like this... "But here is where we have to stop for a moment and think a bit more deeply about the unfolding plot of this science-fiction movie. Approximately 1.6 million Americans are truck drivers, and their jobs are on the hockey-mask-wearing villain’s chopping block. Is it really all that “efficient” to unleash a technology that will wipe out all these jobs? Isn’t it also efficient for people to have gainful employment?"

Remember, when it comes to politics... "it's the economy, stupid"... is the bottom line.  Killing off millions of bus, truck and taxi driver jobs is a vastly unattractive proposition.

Thursday, October 8, 2015

Driverless Cars Update

Progress is rapid in this area.  Several Chinese companies have gotten into this arena currently dominated by US, Germany and Japan.  The following report from 60 MINUTES is a realistic assessment of what is available now: CBS "60 Minutes," Hands off the Wheel.


The Guardian: Driverless robot taxis to be tested in Japanese town. Apparently professional drivers are the main target of current efforts: Taxi drivers, city bus drivers and intercity truckers.

Driverless cars (also called autonomous or self-driving cars) can be fully integrated and remarkably successful in China's ghost cities when they become populated.

At the UH we are conducting research to assess how different traffic operations may be with the presence of driverless vehicles in traffic ranging from them being a tiny portion such as 0.1% to 100 driverless vehicles.  Our scientific article below was accepted for the 2016 conference of the Transportation Research Board, a unit of the National Research Council in Washington, D.C.

Shi, Liang and Panos D. Prevedouros, Effects of Driverless Vehicles on the LOS of Basic Freeway and Weaving Segments, Paper 16-3034, 95th Annual Meeting of TRB, Washington, D.C., 2016.


Monday, July 13, 2015

Driving Automation ... Sooner?

Automatic Cars Or Distracted Drivers: We Need Automation Sooner, Not Later argues professor Don Norman.  Technology is moving that way. It's not a matter of if, it's a matter of when.

In 2005 Stanford's "Stanley" a driverless VW SUV won the DARPA award for negotiating a grueling 132 mile off-road race in the California/Devada desert.

By 2010 Google had several driverless Prius cars plowing streets in California practically accident free.

In 2015 the Google car is unveiled with no steering wheel and a top speed of 25 mph.

When will the ability of driverless vehicles meet and exceed the ability of drivers? Driver distraction and age effects are helping technology by raising risk which is better controlled in driverless cars.