MAPS: Energy-Reliability Tradeoff Management in Autonomous Vehicles Through LLMs Penetrated Science

September 10, 2024 Β· Declared Dead Β· πŸ› 2024 5th CPSSI International Symposium on Cyber-Physical Systems (Applications and Theory) (CPSAT)

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Authors Mahdieh Aliazam, Ali Javadi, Amir Mahdi Hosseini Monazzah, Ahmad Akbari Azirani arXiv ID 2409.06558 Category cs.AR: Hardware Architecture Cross-listed cs.RO Citations 0 Venue 2024 5th CPSSI International Symposium on Cyber-Physical Systems (Applications and Theory) (CPSAT) Last Checked 3 months ago
Abstract
As autonomous vehicles become more prevalent, highly accurate and efficient systems are increasingly critical to improve safety, performance, and energy consumption. Efficient management of energy-reliability tradeoffs in these systems demands the ability to predict various conditions during vehicle operations. With the promising improvement of Large Language Models (LLMs) and the emergence of well-known models like ChatGPT, unique opportunities for autonomous vehicle-related predictions have been provided in recent years. This paper proposed MAPS using LLMs as map reader co-drivers to predict the vital parameters to set during the autonomous vehicle operation to balance the energy-reliability tradeoff. The MAPS method demonstrates a 20% improvement in navigation accuracy compared to the best baseline method. MAPS also shows 11% energy savings in computational units and up to 54% in both mechanical and computational units.
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