SAE International Driver Override for Safety-Critical Vehicles and Networks 2009-01-0751

Description
Operator error is a primary cause of vehicle accidents, yet human ingenuity is critical to effectively react in situations automation is not prepared to handle. Human operators have always been the ultimate authority, but their decisions may or may not be safe. This paper explores the constraints and requirements of vehicle systems that support automation override of a human operator. We adopt the view that a human operator remains the ultimate authority until grave risk is encountered, at which time the automation overrides strictly to re-establish a safe operating state. An override system must continually monitor vehicle state, predict near-term risk levels, compute a strategy to mitigate substantial risk, and warn the operator of the impending risk given sufficient time. Override action must occur just-in-time to re-establish a safe state before risk increases beyond the "grave" threshold. Controlled flight into terrain and aircraft damage/failure override case studies are presented, along with a discussion of how such aircraft override technologies could translate to ground vehicle systems.
Description
Operator error is a primary cause of vehicle accidents, yet human ingenuity is critical to effectively react in situations automation is not prepared to handle. Human operators have always been the ultimate authority, but their decisions may or may not be safe. This paper explores the constraints and requirements of vehicle systems that support automation override of a human operator. We adopt the view that a human operator remains the ultimate authority until grave risk is encountered, at which time the automation overrides strictly to re-establish a safe operating state. An override system must continually monitor vehicle state, predict near-term risk levels, compute a strategy to mitigate substantial risk, and warn the operator of the impending risk given sufficient time. Override action must occur just-in-time to re-establish a safe state before risk increases beyond the "grave" threshold. Controlled flight into terrain and aircraft damage/failure override case studies are presented, along with a discussion of how such aircraft override technologies could translate to ground vehicle systems.

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Driver Override for Safety-Critical Vehicles and Networks - 2009-01-0751 - SAE International
Warrendale, PA, United States
Driver Override for Safety-Critical Vehicles and Networks
2009-01-0751
Driver Override for Safety-Critical Vehicles and Networks 2009-01-0751
Operator error is a primary cause of vehicle accidents, yet human ingenuity is critical to effectively react in situations automation is not prepared to handle. Human operators have always been the ultimate authority, but their decisions may or may not be safe. This paper explores the constraints and requirements of vehicle systems that support automation override of a human operator. We adopt the view that a human operator remains the ultimate authority until grave risk is encountered, at which time the automation overrides strictly to re-establish a safe operating state. An override system must continually monitor vehicle state, predict near-term risk levels, compute a strategy to mitigate substantial risk, and warn the operator of the impending risk given sufficient time. Override action must occur just-in-time to re-establish a safe state before risk increases beyond the "grave" threshold. Controlled flight into terrain and aircraft damage/failure override case studies are presented, along with a discussion of how such aircraft override technologies could translate to ground vehicle systems.

Operator error is a primary cause of vehicle accidents, yet human ingenuity is critical to effectively react in situations automation is not prepared to handle. Human operators have always been the ultimate authority, but their decisions may or may not be safe. This paper explores the constraints and requirements of vehicle systems that support automation override of a human operator. We adopt the view that a human operator remains the ultimate authority until grave risk is encountered, at which time the automation overrides strictly to re-establish a safe operating state. An override system must continually monitor vehicle state, predict near-term risk levels, compute a strategy to mitigate substantial risk, and warn the operator of the impending risk given sufficient time. Override action must occur just-in-time to re-establish a safe state before risk increases beyond the "grave" threshold. Controlled flight into terrain and aircraft damage/failure override case studies are presented, along with a discussion of how such aircraft override technologies could translate to ground vehicle systems.

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Technical Specifications

  SAE International
Product Category Standards and Technical Documents
Product Number 2009-01-0751
Product Name Driver Override for Safety-Critical Vehicles and Networks
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