2017-01-13

Founder of Delco, and one-time Head of Research at General Motors, who served from 1920 to 1947 Charles Franklin Kettering once said: “All human development, no matter what form it takes, must be outside the rules; otherwise we would never have anything new.” And to British author and sports journalist, Simon Kuper, ‘If you think personal cars will survive as status symbols, remember horses were once status symbols.’

More than most sectors, things happen outside the rules in the automotive sector. If at all, very few people want a manual gearbox. Pounding a clutch back and forth in rush-hour traffic in a city like Lagos for instance, may be hellish for many motorists. Sector statistic shows that only 3.9 per cent of cars sold in U.S. were built with manual transmissions. In fact, in 20 years to come it may not be out of place to say that knowing how to manually drive a car may not be necessary at all. Radar, lidar, GPS, odometry, and computer vision may be all that car owners require to get their cars moving.

Driverless car, otherwise called autonomous or self-driving car is a vehicle that is capable of sensing its environment and navigating without human input. It uses advanced control systems to interpret sensory information. The control systems help it to identify appropriate navigation paths, obstacles and relevant signage.

Google and General Motor, same organisation that first introduced automatics transmission to the market in 1940 may have been in the news, when it comes to driverless cars than any other organisation but demonstrative systems, precursory to autonomous cars did not start with them. The development date back to the 1920s and 30s but what could be called the first truly autonomous cars appeared in the 1980s, with Carnegie Mellon University’s Navlab and ALV projects in 1984 and Mercedes-Benz and Bundeswehr University Munich’s Eureka Prometheus Project in 1987. Since then, numerous major companies and research organisations have developed working prototype autonomous vehicles.

Until recently, self driving cars seemed like a dream that can only become feasible in decades to come. But the innovation is fast becoming a reality. More than a fiction, it appears set that the development will alter the future of mobility.

Most carmakers and technology giants, including Co-founder of Google, Eric Schmidt believe that your car should drive itself. “It’s amazing to me that we let humans drive cars… It’s a bug that cars were invented before computers,” Schmidt said.

Transportation entrepreneur, who co-founded Zipcar, Robin Chase, shares Schmidt opinion. He is optimistic that driverless cars are “three-and-a-quarter years away”. This is in line with projections that years of trials on city streets, may translate to the possibility of having the innovation on roads by 2020.

The Society of Automotive Engineers (SAE) said levels of autonomous driving technology begin from zero to five. Level zero is no assistance. Level two is the level at which all semi-autonomous systems on the road are at currently. Level three extends to “some driving modes but handle elevated levels of automated driving in given parameters. At level four, almost full driverless is attained but it is limited to “some driving modes.” Level five is full autonomy.

With some vehicle already driverless partially, recent timeline of self-driving cars shows Volvo releasing 100 self-driving cars on public roads in Gothenburg, Sweden in 2017, a self-driving car startup that spun-off from Google late last year, Waymo, will be deploying its fleet of self-driving Chrysler Pacifica minivans onto public roads for the first time later this month. Ford will release an autonomous car without a steering wheel, brake or throttle pedals, designed for ride-sharing by 2021. Toyota’s Research Institute, formed in 2015, aimed at rolling out cars with semi-autonomous features in 2020. BMW and Mobileye confirmed they would test 40 self-driving vehicles on the road by the second half of 2017. Nissan-Renault already announced Seamless Autonomous Mobility. Tesla also started installing hardware that can enable full autonomy. General Motors is expected to gain an advantage in the self-driving car space by conducting tests in snowy conditions. A Chinese internet company referred to as the Google of China, Baidu will test self-driving cars on public roads soon. Tesla is also looking at driving from Los Angeles to New York 2017 with its self-driving Tesla. Semi-autonomous Hyundai recently navigated on local streets around the Las Vegas Convention Center alongside other vehicles.

Should self-driving car becomes a reality, the automotive sector will witness series of changes. One of such development will be witness in safety. Experts believe that humans are no good at driving as such the innovation would drastically reduce the 1.2m people killed every year on roads worldwide. Cars will park themselves, there will be free time, congestion is also expected to reduce. If congestion reduces, building new roads may be necessary. Highways Free time it’s planning to release Automobile industry think self-driving vehicles will be on the road by 2020 or before, says Richard Holman, head of foresight and trends at General Motors driverless vehicles are now nearing the live phase Yet we have barely begun to think about how they will revolutionise our lives, revamp our cities — and destroy tens of millions of jobs.

pipe dream relegated to a far-off decade in the future. But then, last week, Ford announced that in 2021 it’s planning to release an autonomous car without a steering wheel, brake or throttle pedals, designed for ride-sharing. Just a few days later, Volvo and Uber made public their partnership to develop a driverless car.

Now, it seems autonomous cars aren’t just a fanciful future prospect but rather something tangible — and a real part of mobility in the near future.The Ford and Volvo/Uber announcements, though, highlight the different approaches each company working on autonomous driving technology is taking. For example, some, like Audi, are introducing autonomous systems slowly into their products to indoctrinate their buyers to the tech. Others, like Ford, are jumping straight to driverless cars.

Accordingly, we’ve compiled an alphabetical autonomy timeline encompassing the announcements and plans of the leaders in the space. What’s more, we’ve underlined the technology that each company aims to utilize to drive its driverless cars.

SAE automated driving levels

The Society of Automotive Engineers (SAE) said levels of autonomous driving technology begin from zero to five. Level zero is no assistance. Level two is the level at which all semi-autonomous systems on the road are at currently. Level three extends to “some driving modes but handle elevated levels of automated driving in given parameters. At level four, almost full driverless is attained but it is limited to “some driving modes.” Level five is full autonomy.

to “all driving modes

. Level 1 is defined by systems like collision mitigation braking that automatically brake if a collision is imminent.

. These include acceleration, braking and steering assistance.

” By that, it means the car can— like on a freeway during the daylight. However, it’s expected that the human driver can take over driving duties, if asked.

SEE ALSO: Mercedes’ new all-electric Maybach coupe concept puts Tesla to shame

Level 5 takes full autonomy to “all driving modes.” That means the car is fully capable of driving itself anywhere in any condition, from a snowy, moonlit road to an unmapped desert. It should be noted that, at this point, Level 5 is theoretical. One Audi representative went so far as to describe it as “mythical.” It’s unlikely we’ll see Level 5 autonomous driving in our lifetimes.

Audi

2016 — Level 2: Audi’s Level 2 “Traffic Jam Assist” system is available on the 2017 Audi A4 and Q7. The system uses steering input to keep the car in its lane. What’s more, it allows the driver to take his or her hands off the wheel in slow-moving traffic for 15 seconds at a time. However, the driver can’t check out or turn attention away from the road, as he or she must intervene immediately if prompted by the car.

2018 — Level 3: Audi pledges to be the first carmaker to introduce Level 3 autonomy to the road with its next generation A8 full-size sedan. The A8 will debut Audi’s Traffic Jam Pilot system. It will handle accelerating, braking and steering up to 35 mph. However, there are many parameters and limitations to engaging Traffic Jam Pilot. It will need to have no fewer than two cars ahead of it and it will need to recognize, based upon information GPS and other outward-facing sensors, that it is on a freeway. Its cameras will also detect whether the road is clear enough for ideal operation. It won’t be activated on a snow-covered road, for example.

The car will also require specific driver conditions before Traffic Jam Pilot can be engaged, too. It will need to detect a driver in the driver’s seat. What’s more, the car will include a camera-based driver awareness system that will look to see if the driver is awake and not incapacitated in some way (suffering a pulmonary embolism, for example).

2020/2021 — Level 3 Plus: Two or three years after the first application Level 3, Audi will roll out what it’s roughly defining as “higher” Level 3. That means it will take the capability of Traffic Jam Pilot and extend it up to full freeway speeds. It will require the same freeway verification from GPS and other sensors before it is engaged.

Audi will include in each car an event data recorder

Additionally, with Level 3, Audi will include in each car an event data recorder (think an airplane’s black box). It will record the driving data directly preceding a collision, should one occur. Don’t worry, Audi won’t be recording all your driving data. The event data recorder will be constantly deleting the data it collects, if a collision doesn’t take place.

Late 2020s — Level 4: Full highway and urban autonomy. These functions will only be allowed in pre-mapped and geofenced areas. That means these cars will not be able to drive autonomously everywhere. You couldn’t ask the car to autonomously drive from Los Angeles to New York, for example, unless the route were mapped and programmed.

Tech: GPS, LIDAR (Light Imaging, Detection And Ranging), short- and long-range radar, and no fewer than two digital cameras will be needed for Audi’s autonomous cars. In total, Audi’s autonomous cars will have around 24 sensors with almost 360-degree redundancy. In addition, the cars will include redundant steering and braking systems.

BMW

2016 — Level 2: With the all-new 7 Series, BMW introduced several new Level 2 technologies: Traffic jam Assistant and driverless automated parking. Traffic jam Assistant can follow the car ahead on the highway and can read lane markings and add corrective steering to keep the car in its lane. This system works from 0 to 43 mph.

European versions of the new BMW 7 Series feature a self-parking function that doesn’t require a driver inside the car. With the car’s key fob, a driver can exit the vehicle and direct the car into a parking spot. However, that function is not available here in the U.S.

Tech: Radar, digital cameras.

2021 — Level 4: Marking its 100th birthday earlier this year, BMW announced that it has also pegged 2021 as the year during which it will unveil a fully autonomous car. It’s called iNext and not only will it be autonomous, it will also be intelligent, lightweight and the “next generation of electro-mobility,” according to BMW chairman of the board Harald Krüger.

The flagship iNext autonomous car will be created in collaboration with Intel and MobilEye. Although BMW has not yet specified any other dates for unveiling autonomous driving systems for its cars, the trio (BMW, Intel and MobilEye) have said they will create platform-based “future-proof” test cars by 2017 in order to hit the stated 2021 goal. This platform will tackle, as BMW puts it, “‘eyes off’ (Level 3), ‘mind off’ level (Level 4)” ‘driver off’ (Level 5).”

Tech: BMW hasn’t indicated specifically which tech will drive drive its autonomous cars, except Intel Atom and Xeo processors.

Ford

2019 — Level 2: In 2019 (or within three years of 2016), Ford plans to introduce two Level 2 autonomous systems: Traffic Jam Assist and Fully Automated Parking. Confusingly, Ford’s Level 2 system will carry the same name as Audi’s Level 3. Traffic Jam Assist, like other Level 2 systems on the road today, will follow a car ahead in traffic and control braking and acceleration as well as steering to keep the car in its lane.

Tech: Radar, digital cameras and ultrasonic sensors.

2021 — Level 4: Ford announced in August that in 2021, it will have driverless ride-sharing cars without a steering wheel, or brake or accelerator pedals. Unlike Audi and Nissan, which are slowly ramping up autonomy step by step from Level 2 to 3 to 4, Ford is jumping several steps and going right to 4. While there could be many reasons for this, presumably price is the leading factor.

At first, the cars will be prohibitively expensive to sell in Ford showrooms

Since it’s five years out, Ford doesn’t yet know what platform these cars will ride on, what they’ll look like or what will power them (gasoline or electrified powertrains). Ford did divulge that these cars will not be initially available for purchase by customers. That could change, however, as the cost of the onboard tech goes down. Likely, at first, the cars will be prohibitively expensive to offer up in Ford showrooms. And because Ford is keen to make autonomy available to the masses as quickly as possible, it doesn’t want to keep the tech relegated to extremely expensive luxury vehicles like Audi’s flagship A8.

It’s important we understand why these Ford steering wheel-less cars are Level 4 and not Level 5. As we discussed earlier, Level 5 is defined by the SAE as a car’s ability to drive autonomous in ‘all driving modes.’ The Ford cars simply won’t be able to do that. They’ll only be allowed to operate in 3D-mapped, geofenced locations. Imagine, then, that these will operate in a few heavily mapped urban environments. So, unless you live in one of the first markets for the Ford autonomous cars, it’s unlikely they’ll be a regular part of your life in the near future.

Tech: LIDAR, radar, digital cameras, 3D maps, 4G connectivity and, according to a Ford representative, possible vehicle-to-infrastructure (V2X) communication technology.

Honda

2016 — Level 2: Unlike the luxury brands on this list, Honda has pushed its Honda Sensing suite of autonomous driving technologies down into its most affordable models, including the $20,440 Civic Sedan. Honda Sensing includes Adaptive Cruise Control (ACC) that follows the vehicle ahead, and Lane Keep Assist (LKAS), which uses a forward-facing camera that watches lane markings to keep the vehicle in its lane. Honda Sensing also includes Forward Collision Warning, Collision Mitigation Braking, Lane Departure Warning and Road Departure Mitigation

Further bucking the trend of other systems on this list, Honda Sensing can be activated at any speed. Although it’s not locked to highways and freeways by GPS- or camera-based data, it’s recommended for use on freeways and not backroads or urban environments.

2020 — Level 3: By 2020, Honda aims to have basic automated highway driving from “on ramp to off ramp.” Honda is being very conservative with its promised automated timelines beyond that, however. As such, it is hesitant to give specific dates for fear of missing them due to unforeseen technical or legislative hurdles. That said, Honda contends it is at the forefront of automated vehicle research.

Honda has divulged, though, that by 2020 it also wants to integrate Wi-Fi-based vehicle-to-infrastructure (V2X) and vehicle-to-vehicle (V2V) communication technology into its vehicles. Allowing cars and infrastructure to communicate with one another will add an extra level of automation.

2040: Ultimately, no matter where its automated tech is, be it Level 3 or 4, Honda aims to have no crashes in Honda or Acura vehicles by 2040.

Tech: Radar, digital cameras, Wi-Fi-based V2V and V2X.

Kia

2020 — Level 3: Kia announced at CES 2016 that it is launching an autonomous driving sub-brand called “DRIVE WISE.” Additionally, the Korean carmaker benchmarked 2020 as the date by which it would introduce its first semi-autonomous tech. Although Kia is in the fledgling stages of developing its semi- and full-autonomy tech, it’s already named some of the systems. They include Highway Autonomous Driving (HAD), Preceding Vehicle Following (PVF), Emergency Stop System (ESS) and Traffic Jam Assist (TJA).

2030 — Level 4: Kia also announced that by 2030 it would be ready to introduce full autonomy. These include systems it’s calling Urban Autonomous Driving (UAD) and Autonomous Valet Parking.

Tech: HAD relies on radar and cameras. UAD utilizes GPS and exterior sensors to identify the car’s position on the road. It also will rely on live traffic updates. Like Audi, Kia’s Driver Status Monitoring (DSM) system in its autonomous cars will monitor the driver’s face and if it detects he or she isn’t paying attention, the car will move to the side of the road and come to a stop.



Benz interior

Mercedes-Benz

2016 — Level 2: In 2013, Mercedes released its first Level 2 automated driving system, called DISTRONC PLUS with Steering Assist, which we tested on the Mercedes-AMG C63 S last year. Since then, the German automaker has released its newest and more robust Level 2 system, DRIVE PILOT, which debuted on the 2017 E-Class.

DRIVE PILOT is fairly robust for a Level 2 autonomous system. Like Honda Sensing, it can control braking and acceleration at or above regular highway speeds. It also allows the driver to go hands-free for as long as 60 seconds at a time up to speeds of 81 mph. Distinctively, DRIVE PILOT can autonomously change lanes, if a driver indicates a lane change with the turn signals. Of course, if it detects a car in the other lane, it won’t carry out the maneuver.

The 2017 E-Class is the only production car that has been granted an autonomous driving license in Nevada. That means, DRIVE PILOT is far more capable than Mercedes allows it to be in its current form. However, Mercedes engineers have retarded the capabilities of DRIVE PILOT for the E-Class to ensure drivers understand that they are ultimately responsible for the safe operation of the car.

Additionally, the all-new E-Class is also the first production car to include V2V technology. At first, this means all new E-Classes will be able to communicate important road and driving information to one another. In the future, as other cars receive the tech, this means E-Classes will be able to communicate with other cars as well — not just its brand mates.

In addition to cars, Mercedes is testing autonomous semi trucks here in the U.S. and in Europe. In fact, it has been sending “platooning” fleets of self-driving semis across Europe this year with the intention of integrating driverless tech into commercial trucking in the near future.

Tech: Radar, digital cameras, and V2V.

Nissan

2016 — Level 2: Nissan announced earlier this year that by 2020, it will have not just one but 10 fully autonomous models on sale. It also laid out its roadmap for how it will get there, adding a new level of autonomy every two years. This year, the Japanese automaker will introduce its first Level 2 system called ProPILOT. This system will be first introduced to the Japanese market in the new Serena minivan. Nissan will then introduce it to the European marked in 2017 in the Qashqai crossover. Nissan hasn’t yet said when the tech will be debuted for the U.S. market. At this level of ProPILOT, the car will have what Nissan is calling “single-lane control” in heavy, stop-and-go traffic on highways.

2018 — Level 3: Two years later, in 2018, Nissan will introduce ProPILOT 2.0 with “multiple-lane control.” ProPILOT 2.0 will add autonomous lane changes to the ProPILOT capabilities.

2020 — Level 4: By 2020, Nissan plans to reveal ProPILOT 3.0 with “intersection autonomy.” This will take Level 4 autonomy into the urban centers. Although Nissan hasn’t specifically divulged it, it’s likely that — as with Audi and Ford — these cars won’t be able to go anywhere. Instead, ProPILOT 3.0 activation will be limited to heavily mapped areas.

Tech: Similar to other carmakers, ProPILOT and its variants will rely on radar, digital cameras and hi-def mapping technology. A Nissan representative admitted detailed maps will be required for ProPILOT 3.0, which indicates it, too, will be limited in its operational availability.

Tesla

2015 — Level 2: Late last year, Tesla unveiled the now infamous Level 2 Autopilot system, which is part of a suite of driver assistance systems. These include Autosteer, Auto Lane Change, Traffic-Aware Cruise Control, Side Collision Warning and Autopark.

Setup Timeout Error: Setup took longer than 30 seconds to complete.

Autopilot has been implicated in several crashes around the globe since its debut. Most notably, a Tesla driver died in a crash in Florida in early May with Autopilot engaged. He was reportedly watching a Harry Potter DVD while his Model S was operating in Autopilot mode.

Until Mercedes released its DRIVE PILOT, Tesla’s Autopilot was the only semi-autonomous system on the market that allowed for autonomous lane changes. This is not its only distinction, however. Autopilot is, from the driver’s standpoint, the most robust system currently on the market. It’s that robustness that’s gotten Tesla in trouble, though. Specifically, Consumer Reports recently called on Tesla to disable and rename Autopilot until it was made safer.

Notably, Autopilot is in public beta-testing. In fact, Tesla is the only carmaker beta-testing autonomous tech on the public. All other carmakers relegate testing to its engineers and employees.

Tech: Radar and a digital camera

2018 — Level 4: Tesla won’t confirm the exact timing of Level 4 autonomous driving or the tech sensors that will drive higher levels of autonomy. However, Elon Musk said in late 2015 that Tesla was two years away from full autonomy.

Tech: It’s unclear what tech Tesla plans to add to its cars to enable higher levels of autonomy. That said, during the launch of Autopilot, Elon Musk revealed the company was gathering hi-def digital maps with its cars. Likely, this information will be utilized to implement Level 4 autonomy in future products.

Volvo

2016 — Level 2: For the 2017 model year of its vehicles, like the S90 sedan, Volvo introduced Pilot Assist, a semi-autonomous driving system. Like other Level 2 systems, it follows traffic ahead and keeps the car within its lane.

Though, that’s not the only news Volvo has made in the autonomous driving realm for 2016. This summer, Volvo Cars and ride-sharing service Uber announced they were joining forces to develop autonomous driving cars.

2017 — Level 4: Intriguingly, Volvo is skipping Level 3 and going straight to Level 4. However, it won’t be a broad-scale rollout — at first. The Swedish carmaker has said it will have 100 autonomous cars testing on the roads Beijing in 2017, as a part of its Drive-Me program. Volvo plans to lease autonomous cars to customers in Sweden that year as well. These cars will be Level 4. Like so many other brands, the first autonomous Volvo cars will only be able to drive themselves on highways known to the GPS system. This is more than an estimation, though. Volvo has already detailed what its self-driving car interface will look like.

What’s more, Volvo has even announced that it is working with Ericsson to stream your favorite shows in the dashboard of your autonomous car in the future. Think its Concept 26 autonomous car interior, but in real life.

2020 — Though Volvo will be achieving Level 4 before 2020, it has made two projections for that year. First it aims to offer autonomous cars to the public — likely on a broader scale than in 2017. Secondly, and perhaps more importantly, it has long promised that no one will be killed or seriously injured in a Volvo by 2020. Of course, autonomy is the ultimate safety system. So, it makes sense that large-scale implementation of Level 4 autonomy would intersect with that safety benchmark that year.

Tech: Volvo has openly listed the tech that will allow its future cars to drive autonomously. They include (but are not limited to) trifocal cameras, ultrasonic sensors, surround view cameras, surround radar, long-range radar and combined radar and camera units.

Forecasts

Autonomous car forecasts

This page lists the most recent predictions about when driverless cars will be available on the market:

NuTonomy to provide self-driving taxi services in Singapore by 2018, expand to 10 cities around the world by 2020

The company has just started trials of its self-driving taxis in Singapore’s 1 North District. It plans to deploy self-driving taxis commercially in Singapore by 2018 and aims to be operational with fleets of self-driving taxis in 10 cities of the world by 2020.

(Source: Yahoo News, 2016-08-29, Digital Trends, 2016-05-24)

Delphi and MobilEye to provide off-the-shelf self-driving system by 2019

Both companies have announced that they will bring a fully self-driving (SAE level 4) system on the market for use in a variety of cars in 2019.

Source: TheVerge, 2016-08-23

Ford CEO announces fully autonomous vehicles for mobility services by 2021

Mark Fields, Ford’s CEO announced that the company plans to offer fully self-driving vehicles by 2021. The vehicles, which will come without steering wheel and pedals, will be targeted to fleets which provide autonomous mobility services. Fields expects that it will take several years longer until Ford will sell autonomous vehicles to the public.

Source: Reuters, 2016-08-16

Volkswagen expects first self driving cars on the market by 2019

Johann Jungwirth, Volkswagen’s appointed head of Digitalization Strategy, expects the first self-driving cars to appear on the market by 2019. He did not claim that these would be Volkswagen models.

Source: Focus, 2016-04-23

GM: Autononomous cars could be deployed by 2020 or sooner

General Motor’s head of foresight and trends Richard Holman said at a confererence in Detroit that most industry participants now think that self-driving cars will be on the road by 2020 or sooner.

Source: Wall Street Journal, 2016-05-10

BMW to launch autonomous iNext in 2021

At their annual shareholder meeting, BMW CEO Harald Krueger said that BMW will launch a self-driving electric vehicle, the BMW iNext, in 2021.

Source: Elektrek, 2016-05-12

Ford’s head of product development: autonomous vehicle on the market by 2020

Raj Nair, Ford’s head of product development, expects that autonomous vehicles of SAE level 4 (which means that the car needs no driver but may not be capable of driving everywhere) will hit the market by 2020.(Source: autonews, 2016-02-27)

Baidu’s Chief Scientist expects large number of self-driving cars on the road by 2019

In an interview session, Andrew Ng, the chief scientist of the Chinese search engine Baidu expects that a large number self-driving self-driving cars will be on the road within three years, and that mass-production will be in full swing by 2021.

(Source: Quora, 2016-01-29)

First autonomous Toyota to be available in 2020

Toyota is starting to overcome its long-standing reluctance with respect to autonomous driving: It plans to bring the first models capable of autonomous highway driving to the market by 2020.

(Source: Wired.com, 2015-10-08)

Elon Musk now expects first fully autonomous Tesla by 2018, approved by 2021

In an interview by Danish newspaper Borsen, Tesla’s founder Elon Musk accelerates his timeline for the introduction of fully autonomous Teslas by 2 years (!) compared to his estimate less than a year ago (October 2014). He now expects fully autonomous Teslas to be ready by 2018 but notes that regulatory approval may take 1 to 3 more years thereafter.

(Source: Borsen Interview on youtube, timeline: 8:06-8:29, recorded on 2015-9-23)

Driverless cars will be in use all over the world by 2025

US Secretary of Transportation stated at the 2015 Frankfurt Auto show that he expects driverless cars to be in use all over the world within the next 10 years.

(Source: Frankfurter Allgemeine Zeitung, 2015-09-19)

Uber fleet to be driverless by 2030

Uber CEO, Travis Kalanick, has indicated in a tweet that he expects Uber’s fleet to be driverless by 2030. The service will then be so inexpensive and ubiquitous that car ownership will be obsolete.

(Source: Mobility Lab, 2015-08-18)

Ford CEO expects fully autonomous cars by 2020

In an interview with Forbes, Mark Fields, CEO of Ford estimated that fully autonomous vehicles would be available on the market within 5 years. But he was reluctant to claim that Ford would have an autonomous vehicle on the market by then.

(Source: Forbes, 2015-02-09).

Next generation Audi A8 capable of fully autonomous driving in 2017

Stefan Moser, Head of Product and Technology Communications at Audi has announced that the next generation of their A8 limousine will be able to drive itself with full autonomy.

(Source: motoring.com.au, 2014-10-22)

Tesla CEO expects true autonomous driving by 2023

Elon Musk, CEO of Tesla estimates that “five or six years from now we will be able to achieve true autonomous driving where you could literally get in the car, go to sleep and wake up at your destination”. He then added another 2 to 3 years for regulatory approval.

(Source: Huffington Post, 2014-10-15)

Jaguar and Land-Rover to provide fully autonomous cars by 2024 says Director of Research and Technlogy

At the 2014 Paris Motor Show Dr. Wolfgang Epple, Jaguar and Land Rover’s Director of Research and Technology said that about fully autonomous driving: “For Jaguar and Land Rover it will happen within the next 10 years”.

(Source: Drive.com.au, 2014-10-03)

Fully autonomous vehicles could be ready by 2025, predicts Daimler chairman

Dieter Zetsche, chairman of Daimler, predicts that fully autonomous vehicles which can drive without human intervention and might not even have a steering wheel could be available on the market by 2025.

(Source: The Detroit News, 2014-01-13)

Nissan to provide fully autonomous vehicles by 2020

Andy Palmer, the Executive Vice President of California-based Nissan Motors Ltd., has announced that Nissan will make fully autonomous vehicles available to the consumer by 2020. These cars will be able to drive in urban traffic. In contrast to Google’s cars, Palmer claimed that they will not need detailed 3D maps for local navigation.

(Source: Nissan Motors, 2013-08-27)

Truly autonomous cars to populate roads by 2028-2032 estimates insurance think tank executive

At a meeting of the Society of Automotive Engineers, Robert Hartwig, President of the Insurance Information Institute estimated that it will take between 15 and 20 years until truly autonomous vehicles populate US roads.

(Source: The Detroit News, 2013-02-14)

Driverless cars coming to showrooms by 2020 says Nissan’s CEO

During this years’ CES, Carlos Ghosn, CEO of Nissan said that driverless cars will be ready for showtime by the end of this decade.

(Source: Forbes.com, 2013-1-14)

Continental to make fully autonomous driving a reality by 2025

Automotive supplier Continental has just announced that automated driving is at the core of its long-term strategy. It has formed a new business unit for “Advanced driver assistance systems” and plans to make fully autonomous driving available by 2025.

Source: Continental, 2012-12-18

Intel CTO predicts that autonomous car will arrive by 2022

Justin Rattner, CTO of Intel predicts that driverless cars will be available within 10 years. Intel is hoping to equip autonomous smart cars with its Atom and Core processors.

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