Toyota Jidosha Kabushiki Kaisha (20240329651). CONTROL DEVICE AND REMOTE OPERATION DEVICE simplified abstract
Contents
CONTROL DEVICE AND REMOTE OPERATION DEVICE
Organization Name
Toyota Jidosha Kabushiki Kaisha
Inventor(s)
Keigo Ikeda of Nisshin-shi (JP)
Yoshinori Watanabe of Isehara-shi (JP)
Daiki Yokoyama of Miyoshi-shi (JP)
CONTROL DEVICE AND REMOTE OPERATION DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240329651 titled 'CONTROL DEVICE AND REMOTE OPERATION DEVICE
Simplified Explanation: The patent application describes a technique to prevent delays in the conveyance of a moving object during autonomous driving by remotely switching the driving mode when certain conditions are met.
Key Features and Innovation:
- Switching driving mode from remote autonomous to remote manual when specific conditions like abnormal state, intrusion, or failure occur.
- Ensures smooth operation and prevents delays in conveyance of the moving object.
- Enhances safety and efficiency in autonomous driving scenarios.
Potential Applications: This technology can be applied in autonomous vehicles, drones, robotic systems, and other remote-controlled moving objects where uninterrupted conveyance is crucial.
Problems Solved:
- Prevents delays in conveyance when a moving object stops during autonomous driving.
- Enhances safety by switching to manual mode in case of abnormal states, intrusions, or failures.
- Improves overall efficiency and reliability of autonomous systems.
Benefits:
- Ensures continuous operation and prevents interruptions in conveyance.
- Enhances safety by proactively addressing potential issues during autonomous driving.
- Improves user experience and overall performance of remote-controlled moving objects.
Commercial Applications: This technology has significant commercial potential in the autonomous vehicle industry, drone delivery services, warehouse automation, and other sectors requiring efficient and safe conveyance of moving objects.
Questions about the Technology: 1. How does the switching execution unit determine when to switch the driving mode from remote autonomous to remote manual? 2. What are the specific conditions that trigger the switch in driving mode?
2. How does this technology contribute to the advancement of autonomous systems? 4. What are the potential challenges in implementing this technique in real-world applications? 5. How does this innovation compare to existing solutions for preventing delays in conveyance during autonomous driving?
Original Abstract Submitted
a technique that can prevent conveyance of a moving object from delaying when the moving object stops during autonomous driving by a remote operation. a control device includes a switching execution unit that, when a predetermined first switching condition is satisfied, switches a driving mode of the moving object from a remote autonomous driving mode to a remote manual driving mode, and the first switching condition includes as a condition a case where, during running in the remote autonomous driving mode, the moving object falls in at least one state of (1) a first state where a state of the moving object has become an abnormal state, (1) a second state where a moving object has intruded a surrounding area set in advance to surroundings of the moving object, and (1) a third state where a failure has occurred during the running in the remote autonomous driving mode.