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The Tuktuk Patrol IVA system is designed to navigate through a predefined route while maintaining a safe distance from obstacles. The system consists of a tuktuk platform equipped with sensors, such as GPS, lidar, and cameras, which provide data on the environment. The system uses this data to make decisions about navigation and obstacle avoidance.
We present a case study on the verification of the Tuktuk Patrol IVA system. We model the system using IVA and then verify its behavior against the safety and liveness properties mentioned earlier. Our results show that the system satisfies the properties, ensuring safe and reliable operation. tuktuk patrol iva verified
Autonomous vehicles are increasingly being used for various applications, including patrol and surveillance. Tuktuks, being a popular mode of transportation, are an attractive platform for autonomous patrol systems. However, the development of autonomous systems requires rigorous testing and verification to ensure safety and reliability. Formal verification techniques, such as model checking, can help ensure that the system meets its specifications and is free from errors. The Tuktuk Patrol IVA system is designed to
Tuktuks, also known as auto-rickshaws, are a popular mode of transportation in many Asian countries. With the advent of autonomous technology, there is a growing interest in developing autonomous tuktuks for patrol and surveillance applications. In this paper, we propose a formal verification approach for an autonomous tuktuk patrol system using Interval-Valued Automata (IVA). We present a case study on the verification of the Tuktuk Patrol IVA system, which is designed to navigate through a predefined route while maintaining a safe distance from obstacles. Our verification approach ensures that the system satisfies safety and liveness properties, such as collision avoidance and route completion. We present a case study on the verification
The Tuktuk Patrol IVA system is designed to navigate through a predefined route while maintaining a safe distance from obstacles. The system consists of a tuktuk platform equipped with sensors, such as GPS, lidar, and cameras, which provide data on the environment. The system uses this data to make decisions about navigation and obstacle avoidance.
We present a case study on the verification of the Tuktuk Patrol IVA system. We model the system using IVA and then verify its behavior against the safety and liveness properties mentioned earlier. Our results show that the system satisfies the properties, ensuring safe and reliable operation.
Autonomous vehicles are increasingly being used for various applications, including patrol and surveillance. Tuktuks, being a popular mode of transportation, are an attractive platform for autonomous patrol systems. However, the development of autonomous systems requires rigorous testing and verification to ensure safety and reliability. Formal verification techniques, such as model checking, can help ensure that the system meets its specifications and is free from errors.
Tuktuks, also known as auto-rickshaws, are a popular mode of transportation in many Asian countries. With the advent of autonomous technology, there is a growing interest in developing autonomous tuktuks for patrol and surveillance applications. In this paper, we propose a formal verification approach for an autonomous tuktuk patrol system using Interval-Valued Automata (IVA). We present a case study on the verification of the Tuktuk Patrol IVA system, which is designed to navigate through a predefined route while maintaining a safe distance from obstacles. Our verification approach ensures that the system satisfies safety and liveness properties, such as collision avoidance and route completion.