SHENZHEN AUTOMOTIVE RESEARCH INSTITUTE, BEIJING INSTITUTE OF TECHNOLOGY (SHENZHEN RESEARCH (20240319680). DIAGONAL EQUAL-HOP HETEROGENEOUS COMPOSITE REDUNDANCY DOMAIN ARCHITECTURE OF AN INTELLIGENT VEHICLE simplified abstract
DIAGONAL EQUAL-HOP HETEROGENEOUS COMPOSITE REDUNDANCY DOMAIN ARCHITECTURE OF AN INTELLIGENT VEHICLE
Organization Name
SHENZHEN AUTOMOTIVE RESEARCH INSTITUTE, BEIJING INSTITUTE OF TECHNOLOGY (SHENZHEN RESEARCH
Inventor(s)
Wanke Cao of Shenzhen, Guangdong (CN)
Wenwei Wang of Shenzhen, Guangdong (CN)
Jinrui Nan of Shenzhen, Guangdong (CN)
DIAGONAL EQUAL-HOP HETEROGENEOUS COMPOSITE REDUNDANCY DOMAIN ARCHITECTURE OF AN INTELLIGENT VEHICLE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240319680 titled 'DIAGONAL EQUAL-HOP HETEROGENEOUS COMPOSITE REDUNDANCY DOMAIN ARCHITECTURE OF AN INTELLIGENT VEHICLE
The abstract describes a diagonal equal-hop heterogeneous composite redundancy domain architecture for an intelligent vehicle. This architecture includes a central gateway, an ADAS domain controller, a vehicle-mounted audio and video domain controller, a vehicle chassis domain controller, and an energy domain controller.
- The central gateway is connected to the ADAS domain controller, the vehicle-mounted audio and video domain controller, the vehicle chassis domain controller, and the energy domain controller in a star connection topological structure.
- The ADAS domain controller, the vehicle-mounted audio and video domain controller, the vehicle chassis domain controller, and the energy domain controller form an annular connection topological structure.
Potential Applications: - This architecture can be used in autonomous vehicles to enhance safety and efficiency. - It can also be applied in electric vehicles to optimize energy management and performance.
Problems Solved: - Provides a robust and redundant system for critical functions in intelligent vehicles. - Ensures seamless communication and coordination between different domain controllers.
Benefits: - Improved reliability and fault tolerance in intelligent vehicle systems. - Enhanced performance and functionality through a distributed architecture.
Commercial Applications: - This technology can be utilized by automotive manufacturers to develop advanced intelligent vehicles. - It can also be integrated into fleet management systems for improved control and monitoring.
Prior Art: - Researchers can explore existing patents related to vehicle domain architectures and redundancy systems for further insights.
Frequently Updated Research: - Stay updated on advancements in intelligent vehicle technologies and domain architectures for potential improvements in this field.
Questions about the technology: 1. How does the diagonal equal-hop architecture improve the performance of intelligent vehicles? 2. What are the key advantages of using a star connection topological structure in this domain architecture?
Original Abstract Submitted
a diagonal equal-hop heterogeneous composite redundancy domain architecture of an intelligent vehicle, comprising: a central gateway, and adas domain controller, a vehicle-mounted audio and video domain controller, a vehicle chassis domain controller, and an energy domain controller. the central gateway is respectively communicatively connected to the adas domain controller, the vehicle-mounted audio and video domain controller, the vehicle chassis domain controller, and the energy domain controller, such that the central gateway, the adas domain controller, the vehicle-mounted audio and video domain controller, the vehicle chassis domain controller, and the energy domain controller form a star connection topological structure; and the adas domain controller, the vehicle-mounted audio and video domain controller, the vehicle chassis domain controller, and the energy domain controller form an annular connection topological structure.
