Designing automated vehicle and traffic systems towards meaningful human control
Simeon Calvert (TU Delft - Traffic Systems Engineering, TU Delft - Transport and Planning)
Stig Johnsen (Nord University)
Ashwin George (TU Delft - Human-Robot Interaction)
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Abstract
Ensuring operational control over automated vehicles is not trivial and failing to do so endangers the lives of road users. An integrated approach is necessary to ensure that all agents play their part, including drivers, occupants, vehicle designers and governments. A comprehensive approach to this problem is possible by considering Meaningful Human Control (MHC). In this chapter, an Integrated System Proximity framework and Operational Process Design approach are introduced to assist the development of Connected Automated Vehicles (CAVs) under the consideration of MHC. The framework includes an extension to a system approach, which also considers ways that MHC can be improved through either Implicit Proximal Updating or Explicit Distal Updating. The implementation is demonstrated using recent cases from practice. Finally, stakeholders are called upon to ensure that MHC processes are explicitly included in policy, regulations, and design processes so that CAVs advance in a responsible, safe and humanly agreeable fashion.