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Safety, Cybersecurity and Cost Delaying Mass Deployment of Autonomous Cars

A Forrester survey of 54 automotive industry experts shows the biggest hurdle in turning prototype autonomous vehicles into mass market models is how to cut production costs, but the area energizing engineers most is how to tackle functional safety and cybersecurity.
By Robert Day, Director of Automotive Partnerships, Arm

By Robert Day, director of automotive solutions & platforms, Arm

Technology challenges mean the race to the mass deployment of artificial intelligence (AI)-powered, self-driving cars will not see any companies breaking the speed limit. According to 54 experts from the global automotive industry surveyed by analyst firm Forrester, the current crop of prototype autonomous vehiclesย (AV) are at least ten years away from mass deployment. While this may not be too surprising, it is the scale of the technology challenge that is startling. It signals a vital near-term shift from concept self-driving car technologies to functionally safe, secure, and affordable designs as autonomous vehicles evolve from prototype to production.

Forrester Consulting, sponsored by Arm, interviewed 54 global automotive industry experts for their 2019 โ€˜Autonomous Vehicles: Prototype to Productionโ€™ report. The report highlights the most difficult-to-overcome hurdle for self-driving car developers is dealing with a combination of hardware compute power and capability needs including efficiency, size, and processing speed. Nearly 30% of respondents said this combined challenge was a primary concern. Specific individual concerns included component costs and software malfunctions.

As one US-based director of autonomous vehicle programs for an Asia Pacific carmaker put it: โ€œItโ€™s going to be a slow continuum of further capabilities.โ€ That is a true understatement of where the most advanced self-driving car systems are today in my opinion.

The biggest challenge is around the foundational computing. All of my autonomous vehicle maker contacts tell me that the current banks of power-hungry computers fed by arrays of expensive sensors wonโ€™t scale. And despite the huge processing power deployed, these systems still require backup human drivers. The truth is the technology in test cars today must be replaced by trusted AV technology that is vastly more efficient, affordable and capable. It is actually a key opportunity for Arm as mindsets shift from concept to commercial and thereโ€™s a new focus on extending vehicle ranges through far more efficient artificial intelligence (AI)-capable compute technology that is safe, secure and cost optimized.

Getting lots of rubber on lots of roads: from prototype to production

The Forrester study, sponsored by Arm, uncovers evidence from across the global automotive industry on the maturity of autonomous vehicle technology. It has insights on the limitations of current technologies in testing and expectations for how that technology must evolve. Forrester was assessing work on Society of Automotive Engineers (SAE) full Level 5 vehicles (full autonomy) and others coming close to that due to appear on the worldโ€™s roads over the next five years.

In the race to self-driving vehicle commercialization, the top five areas of concern according to Forresterโ€™s panel were: โ€˜creating a reliable systemโ€™, โ€˜manufacturing efficiencyโ€™, โ€˜functional safetyโ€™, โ€˜cyberthreatsโ€™ and โ€˜keeping costs lowโ€™. An autonomous vehicle perception engineer from a U.S. car company said: โ€œThe components have to be almost military-grade robust. Itโ€™s the part of the vehicle thatโ€™s not really where it needs to be, especially when it comes to reliability and fault tolerance.โ€

Survey Highlights

The Forrester โ€˜Autonomous Vehicles: From Prototype to Productionโ€™ report highlights three broad areas automotive manufacturers and equipment suppliers are dealing with:

  • How to turn AV test technologies into secure, safe and affordable production-level designs.
  • The need for higher functioning sensors and compute technologies that are fully-reliable and capable of compliance with expected, but as-yet unspecified, regulations.
  • How to work with external software and hardware partners to overcome challenges in developing truly production-ready AV systems.

Self-driving cars that deal with falling meteors?

While the survey panel highlighted many of the challenges that needed to be tackled, there were some that could not be so easily defined. One engineer told Forrester he could see a path to 96-97% of the way to full autonomy but the final 3-4% would be exponentially harder to achieve. Indeed, given the technologies currently available, he couldnโ€™t see how the ultimate goals of self-driving vehicles would be achievable.

The biggest issue that particular engineer spoke about was the publicโ€™s apparent expectation that autonomous vehicles would be completely safe โ€“ perhaps 10x as good as the average human driver. This theoretically could be as far-fetched as dealing with a meteor falling from the sky. Or, more realistically, the issues that prototype autonomous cars are failing on today according to the latest State of California Department of Motor Vehicles test data which points at self-drive systems disengaging due to the โ€˜curvature of roadโ€™ and exhibiting โ€˜inappropriate trajectory and accelerationโ€™.

Working for Arm, I know that most (falling meteors aside) challenges are solvable and functional safety, security and compute advances that I see coming will lead to safe and secure Level 4 and 5 vehicles. During this technology evolution weโ€™ll also save many lives, as weโ€™re already seeing with leaps in mainstream Advanced Driver Assistance Systems (ADAS) โ€“ much of which is based on Arm-designed technologies.

So, my conclusion from reading the Forrester report, and what I know, is that fully-autonomous vehicle fleets will happen. The deployment of the first truly self-driving cars are likely to be restricted, such as cars only operating in pre-defined (and well-mapped) areas, in certain environmental conditions (e.g. daytime, dry conditions) and at limited speeds. This is, by the letter of the SAE law, Level 4. Then, weโ€™ll see a gradual roll-out as trust builds through compute advances and artificial intelligence becomes more โ€˜intelligentโ€™.

So, the question is not โ€˜ifโ€™ but โ€˜whenโ€™ on autonomous vehicle fleets, and that cuts to the core of the need now to shift from prototyping to trusted secure and safe market market-capable technologies.

Read the full Forrester report here.

Armโ€™s role in dealing with the production to prototype challenges in AV evolution

Functional Safety: Arm is focused heavily on safety in all its processor designs. In 2018, we introduced a new range of automotive grade components in our Safety Ready Program.

Cybersecurity: Dealing with cyberthreats is another constant design focus for Arm in all markets and our banking-class TrustZone security technology is deployed-widely across sectors including automotive.

If you want to know more about Armโ€™s automotive storyย then read all about it on arm.com.

Also, for more details on issues surrounding autonomous deployments please visit my blog here.

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Alex Harrod
Senior Director Public Relations, Arm
+44 7795 363057
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