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Yahoo
10 hours ago
- Automotive
- Yahoo
Explainer-How is Tesla expected to remotely control its robotaxis, and what are its limitations?
By Chris Kirkham, Norihiko Shirouzu, Rachael Levy and Abhirup Roy (Reuters) -Tesla is expected to tiptoe into its long-awaited robotaxi service in Austin, Texas, as soon as Sunday with about 10 of its Model Y SUVs that will operate within strict limits. CEO Elon Musk has said the company is being "super paranoid" about safety and that humans will remotely monitor the fleet. Remote access and control - known in the industry as "teleoperation" - is used in varying degrees by the handful of robotaxi startups operating around the globe. The technology has clear advantages and important limitations. Here are some details of how it works: WHAT IS TELEOPERATION? Teleoperation is the control of machines by humans in a different location, usually over a wireless network. It is used to train robots to operate autonomously, monitor their autonomous activity, and take over when required. HOW DO ROBOTAXI OPERATORS USE TELEOPERATION? The global robotaxi industry is still in test mode, as companies deploy the vehicles in limited geographic areas and continually adjust the artificial intelligence software that controls them. Teleoperation is often used to intervene when a vehicle is unsure of what to do. Alphabet's Waymo, for example, has a team of human "fleet response" agents who respond to questions from the Waymo Driver - its bot. "Much like phone-a-friend, when the Waymo vehicle encounters a particular situation on the road, the autonomous driver can reach out to a human fleet response agent for additional information," Waymo said in a blog post last year. Former Waymo CEO John Krafcik told Reuters, "the cars aren't being actively monitored," adding that the software is "the ultimate decision-maker." A Waymo video shows a car asking a remote operator whether a street with emergency response vehicles is open to traffic. When the human says yes, the vehicle proceeds. In contrast, other companies, such as Baidu's Apollo Go in China, have used fully remote backup drivers who can step in to virtually drive the vehicles. Baidu declined to comment. WHAT ARE THE LIMITATIONS? Driving vehicles remotely on public roads has a major potential problem: it relies on cellular data connections that can drop or operate with a lag, disconnecting the vehicle from the remote driver in dangerous situations. Philip Koopman, a Carnegie Mellon University engineering professor and autonomous-vehicle safety expert, said that approach could work for a small test deployment of 10 vehicles, such as Tesla's initial effort in Austin, but he called teleoperation "inherently unreliable technology." "Eventually you will lose connection at exactly the worst time," he said. "If they've done their homework, this won't ever happen for 10 cars. With a million cars, it's going to happen every day." Former Waymo CEO Krafcik agreed, adding that the time delay in cell signal makes remote driving "very risky." On the other hand, relying on the vehicle to reach out for help and allowing the vehicle to be the decision-maker are risky as well, Koopman said, as it does not guarantee the vehicle will make the right decision. Waymo declined to comment on the limitations of its approach. Koopman also noted there are limits to how many vehicles one person can safely monitor. A group of Democratic Texas lawmakers asked Tesla on Wednesday to delay its robotaxi launch until September, when a new autonomous-driving law is scheduled to take effect. The Austin-area lawmakers said in a letter that delaying the launch "is in the best interest of both public safety and building public trust in Tesla's operations." WHAT IS TESLA'S APPROACH? Musk for years has promised, without delivering, that its Full Self-Driving (Supervised) advanced driver assistance software would graduate to completely self-driving and control robotaxis. This year, he said Tesla would roll out a paid service in Austin underpinned by an "unsupervised" version of the software. "Teslas will be in the wild, with no one in them, in June, in Austin," Musk told analysts and investors in January. In May, he told CNBC that the robotaxi would only operate in parts of Austin that are safe for it, would avoid difficult intersections, and would use humans to monitor the vehicles. What those teleoperators will do is not clear. For years inside Tesla, company executives have expected to use teleoperators who could take over in case of trouble, said one person familiar with the matter. For instance, if a robotaxi were stuck in a crowded pedestrian area and confused about what to do next, a human teleoperator could take over and guide it, the source said. Tesla advertised for teleoperation positions, saying the company needs the ability to "access and control" autonomous vehicles and humanoid robots remotely. Such employees can "remotely perform complex and intricate tasks," it said in the advertisements. Tesla did not respond to a request for comment. "We are being super paranoid about safety, so the date could shift," Musk said in a post on X last week while providing a tentative launch date of June 22.
TimesLIVE
14 hours ago
- Automotive
- TimesLIVE
How Tesla plans to remotely operate its robotaxis — and where the limits lie
Tesla is expected to tiptoe into its long-awaited robotaxi service in Austin, Texas, as soon as Sunday with about 10 of its Model Y SUVs that will operate within strict limits. CEO Elon Musk has said the company is being 'super paranoid' about safety and that humans will remotely monitor the fleet. Remote access and control — known in the industry as 'teleoperation' — is used in varying degrees by the handful of robotaxi start-ups operating around the globe. The technology has clear advantages and important limitations. Here are some details of how it works: What is teleoperation? Teleoperation is the control of machines by humans in a different location, usually over a wireless network. It is used to train robots to operate autonomously, monitor their autonomous activity and take over when required. How do robotaxi operators use teleoperation? The global robotaxi industry is still in test mode, as companies deploy the vehicles in limited geographic areas and continually adjust the artificial intelligence software that controls them. Teleoperation is often used to intervene when a vehicle is unsure of what to do. Alphabet's Waymo, for example, has a team of human 'fleet response' agents who respond to questions from the Waymo Driver — its bot. 'Much like phone-a-friend, when the Waymo vehicle encounters a particular situation on the road, the autonomous driver can reach out to a human fleet response agent for additional information,' Waymo said in a blog post last year. Former Waymo CEO John Krafcik told Reuters, 'the cars aren't being actively monitored,' adding that the software is 'the ultimate decisionmaker'. A Waymo video shows a car asking a remote operator whether a street with emergency response vehicles is open to traffic. When the human says yes, the vehicle proceeds. In contrast, other companies, such as Baidu's Apollo Go in China, have used fully remote backup drivers who can step in to virtually drive the vehicles. Baidu declined to comment. What are the limitations? Driving vehicles remotely on public roads has a major potential problem: it relies on cellular data connections that can drop or operate with a lag, disconnecting the vehicle from the remote driver in dangerous situations. Philip Koopman, a Carnegie Mellon University engineering professor and autonomous-vehicle safety expert, said that approach could work for a small test deployment of 10 vehicles, such as Tesla's initial effort in Austin, but he called teleoperation 'inherently unreliable technology'. 'Eventually you will lose connection at exactly the worst time,' he said. 'If they've done their homework, this won't ever happen for 10 cars. With a million cars, it's going to happen every day.' Former Waymo CEO Krafcik agreed, adding that the time delay in cell signal makes remote driving 'very risky'. On the other hand, relying on the vehicle to reach out for help and allowing the vehicle to be the decisionmaker are risky as well, Koopman said, as it does not guarantee the vehicle will make the right decision. Waymo declined to comment on the limitations of its approach. Koopman also noted there are limits to how many vehicles one person can safely monitor. A group of Democratic Texas legislators asked Tesla on Wednesday to delay its robotaxi launch until September, when a new autonomous-driving law is scheduled to take effect. The Austin-area legislators said in a letter that delaying the launch 'is in the best interest of both public safety and building public trust in Tesla's operations'. What is Tesla's approach? Musk for years has promised, without delivering, that its Full Self-Driving (Supervised) advanced driver assistance software would graduate to completely self-driving and control robotaxis. This year, he said Tesla would roll out a paid service in Austin underpinned by an 'unsupervised' version of the software. 'Teslas will be in the wild, with no one in them, in June, in Austin,' Musk told analysts and investors in January. In May, he told CNBC the robotaxi would only operate in parts of Austin that are safe for it, would avoid difficult intersections, and would use humans to monitor the vehicles. What those teleoperators will do is not clear. For years inside Tesla, company executives have expected to use teleoperators who could take over in case of trouble, said one person familiar with the matter. For instance, if a robotaxi were stuck in a crowded pedestrian area and confused about what to do next, a human teleoperator could take over and guide it, the source said. Tesla advertised for teleoperation positions, saying the company needs the ability to 'access and control' autonomous vehicles and humanoid robots remotely. Such employees can 'remotely perform complex and intricate tasks', it said in the advertisements. Tesla did not respond to a request for comment.
Time of India
17 hours ago
- Automotive
- Time of India
How is Tesla expected to remotely control its robotaxis, and what are its limitations?
Tesla is expected to tiptoe into its long-awaited robotaxi service in Austin, Texas, as soon as Sunday with about 10 of its Model Y SUVs that will operate within strict limits. CEO Elon Musk has said the company is being "super paranoid" about safety and that humans will remotely monitor the fleet. Remote access and control - known in the industry as " teleoperation " - is used in varying degrees by the handful of robotaxi startups operating around the globe. The technology has clear advantages and important limitations. Here are some details of how it works: WHAT IS TELEOPERATION? Teleoperation is the control of machines by humans in a different location, usually over a wireless network. It is used to train robots to operate autonomously, monitor their autonomous activity, and take over when required. HOW DO ROBOTAXI OPERATORS USE TELEOPERATION? The global robotaxi industry is still in test mode, as companies deploy the vehicles in limited geographic areas and continually adjust the artificial intelligence software that controls them. Teleoperation is often used to intervene when a vehicle is unsure of what to do. Alphabet's Waymo, for example, has a team of human "fleet response" agents who respond to questions from the Waymo Driver - its bot. "Much like phone-a-friend, when the Waymo vehicle encounters a particular situation on the road, the autonomous driver can reach out to a human fleet response agent for additional information," Waymo said in a blog post last year. Former Waymo CEO John Krafcik told Reuters, "the cars aren't being actively monitored," adding that the software is "the ultimate decision-maker." A Waymo video shows a car asking a remote operator whether a street with emergency response vehicles is open to traffic. When the human says yes, the vehicle proceeds. In contrast, other companies, such as Baidu's Apollo Go in China, have used fully remote backup drivers who can step in to virtually drive the vehicles. Baidu declined to comment. WHAT ARE THE LIMITATIONS? Driving vehicles remotely on public roads has a major potential problem: it relies on cellular data connections that can drop or operate with a lag, disconnecting the vehicle from the remote driver in dangerous situations. Philip Koopman, a Carnegie Mellon University engineering professor and autonomous-vehicle safety expert, said that approach could work for a small test deployment of 10 vehicles, such as Tesla's initial effort in Austin, but he called teleoperation "inherently unreliable technology." "Eventually you will lose connection at exactly the worst time," he said. "If they've done their homework, this won't ever happen for 10 cars. With a million cars, it's going to happen every day." Former Waymo CEO Krafcik agreed, adding that the time delay in cell signal makes remote driving "very risky." On the other hand, relying on the vehicle to reach out for help and allowing the vehicle to be the decision-maker are risky as well, Koopman said, as it does not guarantee the vehicle will make the right decision. Waymo declined to comment on the limitations of its approach. Koopman also noted there are limits to how many vehicles one person can safely monitor. A group of Democratic Texas lawmakers asked Tesla on Wednesday to delay its robotaxi launch until September, when a new autonomous-driving law is scheduled to take effect. The Austin-area lawmakers said in a letter that delaying the launch "is in the best interest of both public safety and building public trust in Tesla's operations." WHAT IS TESLA'S APPROACH? Musk for years has promised, without delivering, that its Full Self-Driving (Supervised) advanced driver assistance software would graduate to completely self-driving and control robotaxis . This year, he said Tesla would roll out a paid service in Austin underpinned by an "unsupervised" version of the software. "Teslas will be in the wild, with no one in them, in June, in Austin," Musk told analysts and investors in January. In May, he told CNBC that the robotaxi would only operate in parts of Austin that are safe for it, would avoid difficult intersections, and would use humans to monitor the vehicles. What those teleoperators will do is not clear. For years inside Tesla, company executives have expected to use teleoperators who could take over in case of trouble, said one person familiar with the matter. For instance, if a robotaxi were stuck in a crowded pedestrian area and confused about what to do next, a human teleoperator could take over and guide it, the source said. Tesla advertised for teleoperation positions, saying the company needs the ability to "access and control" autonomous vehicles and humanoid robots remotely. Such employees can "remotely perform complex and intricate tasks," it said in the advertisements. Tesla did not respond to a request for comment. "We are being super paranoid about safety, so the date could shift," Musk said in a post on X last week while providing a tentative launch date of June 22.
Time of India
19 hours ago
- Automotive
- Time of India
How is Tesla expected to remotely control its robotaxis, and what are its limitations?
Tesla is expected to tiptoe into its long-awaited robotaxi service in Austin, Texas, as soon as Sunday with about 10 of its Model Y SUVs that will operate within strict limits. CEO Elon Musk has said the company is being "super paranoid" about safety and that humans will remotely monitor the fleet. Remote access and control - known in the industry as " teleoperation " - is used in varying degrees by the handful of robotaxi startups operating around the globe. The technology has clear advantages and important limitations. Here are some details of how it works: Play Video Pause Skip Backward Skip Forward Unmute Current Time 0:00 / Duration 0:00 Loaded : 0% 0:00 Stream Type LIVE Seek to live, currently behind live LIVE Remaining Time - 0:00 1x Playback Rate Chapters Chapters Descriptions descriptions off , selected Captions captions settings , opens captions settings dialog captions off , selected Audio Track default , selected Picture-in-Picture Fullscreen This is a modal window. Beginning of dialog window. Escape will cancel and close the window. Text Color White Black Red Green Blue Yellow Magenta Cyan Opacity Opaque Semi-Transparent Text Background Color Black White Red Green Blue Yellow Magenta Cyan Opacity Opaque Semi-Transparent Transparent Caption Area Background Color Black White Red Green Blue Yellow Magenta Cyan Opacity Transparent Semi-Transparent Opaque Font Size 50% 75% 100% 125% 150% 175% 200% 300% 400% Text Edge Style None Raised Depressed Uniform Drop shadow Font Family Proportional Sans-Serif Monospace Sans-Serif Proportional Serif Monospace Serif Casual Script Small Caps Reset restore all settings to the default values Done Close Modal Dialog End of dialog window. by Taboola by Taboola Sponsored Links Sponsored Links Promoted Links Promoted Links You May Like If You Eat Ginger Everyday for 1 Month This is What Happens Tips and Tricks Undo WHAT IS TELEOPERATION? Teleoperation is the control of machines by humans in a different location, usually over a wireless network. Live Events It is used to train robots to operate autonomously, monitor their autonomous activity, and take over when required. HOW DO ROBOTAXI OPERATORS USE TELEOPERATION? The global robotaxi industry is still in test mode, as companies deploy the vehicles in limited geographic areas and continually adjust the artificial intelligence software that controls them. Teleoperation is often used to intervene when a vehicle is unsure of what to do. Alphabet's Waymo, for example, has a team of human "fleet response" agents who respond to questions from the Waymo Driver - its bot. "Much like phone-a-friend, when the Waymo vehicle encounters a particular situation on the road, the autonomous driver can reach out to a human fleet response agent for additional information," Waymo said in a blog post last year. Former Waymo CEO John Krafcik told Reuters, "the cars aren't being actively monitored," adding that the software is "the ultimate decision-maker." A Waymo video shows a car asking a remote operator whether a street with emergency response vehicles is open to traffic. When the human says yes, the vehicle proceeds. In contrast, other companies, such as Baidu's Apollo Go in China, have used fully remote backup drivers who can step in to virtually drive the vehicles. Baidu declined to comment. WHAT ARE THE LIMITATIONS? Driving vehicles remotely on public roads has a major potential problem: it relies on cellular data connections that can drop or operate with a lag, disconnecting the vehicle from the remote driver in dangerous situations. Philip Koopman, a Carnegie Mellon University engineering professor and autonomous-vehicle safety expert, said that approach could work for a small test deployment of 10 vehicles, such as Tesla's initial effort in Austin, but he called teleoperation "inherently unreliable technology." "Eventually you will lose connection at exactly the worst time," he said. "If they've done their homework, this won't ever happen for 10 cars. With a million cars, it's going to happen every day." Former Waymo CEO Krafcik agreed, adding that the time delay in cell signal makes remote driving "very risky." On the other hand, relying on the vehicle to reach out for help and allowing the vehicle to be the decision-maker are risky as well, Koopman said, as it does not guarantee the vehicle will make the right decision. Waymo declined to comment on the limitations of its approach. Koopman also noted there are limits to how many vehicles one person can safely monitor. A group of Democratic Texas lawmakers asked Tesla on Wednesday to delay its robotaxi launch until September, when a new autonomous-driving law is scheduled to take effect. The Austin-area lawmakers said in a letter that delaying the launch "is in the best interest of both public safety and building public trust in Tesla's operations." WHAT IS TESLA'S APPROACH? Musk for years has promised, without delivering, that its Full Self-Driving (Supervised) advanced driver assistance software would graduate to completely self-driving and control robotaxis . This year, he said Tesla would roll out a paid service in Austin underpinned by an "unsupervised" version of the software. "Teslas will be in the wild, with no one in them, in June, in Austin," Musk told analysts and investors in January. In May, he told CNBC that the robotaxi would only operate in parts of Austin that are safe for it, would avoid difficult intersections, and would use humans to monitor the vehicles. What those teleoperators will do is not clear. For years inside Tesla, company executives have expected to use teleoperators who could take over in case of trouble, said one person familiar with the matter. For instance, if a robotaxi were stuck in a crowded pedestrian area and confused about what to do next, a human teleoperator could take over and guide it, the source said. Tesla advertised for teleoperation positions, saying the company needs the ability to "access and control" autonomous vehicles and humanoid robots remotely. Such employees can "remotely perform complex and intricate tasks," it said in the advertisements. Tesla did not respond to a request for comment. "We are being super paranoid about safety, so the date could shift," Musk said in a post on X last week while providing a tentative launch date of June 22.
Yahoo
2 days ago
- Automotive
- Yahoo
Waymo has set its robotaxi sights on NYC
Waymo said Wednesday it has applied for a permit to test its autonomous vehicles in New York City, the Alphabet company's first step in a sticky regulatory process to bring its robotaxis to U.S.'s largest city. Waymo applied for a permit with the New York City Department of Transportation to operate its self-driving Jaguar I-Pace vehicles with a human safety operator behind the wheel in Manhattan. New York's autonomous vehicle demonstration or testing permit requires a human driver to be able to take over; a $5 million insurance policy; and every test vehicle operator must be adequately trained in the safe operation of the test vehicle. New York law is especially prohibitive of autonomous vehicles. While securing a permit would be notable, Waymo is far from being able to launch commercial operations in the city — or even test without a human safety operator behind the wheel. Still, Waymo is pressing forward and said it's advocating for a change in state law that would allow for operating a vehicle with no human behind the wheel. The company is also trying to build goodwill in NYC and the state by working with several organizations such as MADD NY, YAI, National Federation of the Blind, and the Bronx Community College. Waymo told TechCrunch it has had positive conversations with lawmakers this year and hopes to keep making progress on regulatory changes. New York law states that any person operating a motor vehicle must have at least one hand (or prosthetic) on the steering mechanism at all times. Changing that wording will be key to Waymo eventually being able to deploy driverless vehicles. Other companies have tried to test in NYC before, including Mobileye. But these efforts never materialized beyond a few demonstrations or pilots. Waymo has eyed the massive market of NYC for years. In 2021, the company deployed its now retired Chrysler Pacifica minivans — the first self-driving vehicles in its testing fleet — to manually drive and map Manhattan. The company said at the time that each vehicle would have two people, one to drive and another in the passenger seat to help direct the activity of the driver, monitor the software on the vehicle in real time, evaluate the performance, and log comments. Those vehicles were never operated in autonomous mode even though they were all equipped with fifth-generation Waymo Driver, which was its most current and advanced self-driving system at the time. Over the past four years, Waymo has scaled in numerous other places. The company provides more than 250,000 fully autonomous paid trips each week in several U.S. markets, including Austin, Los Angeles, Phoenix, and San Francisco.
