COMMUNICATION WITHIN AN INTELLIGENT TRANSPORT SYSTEM FOR SIGNALLING HIDDEN OBJECTS

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

Isabelle Morvan of CHANTEPIE (FR)

Brice Le Houerou of ACIGNE (FR)

Eric Nassor of THORIGNE-FOUILLARD (FR)

Hervè Ruellan of RENNES (FR)

COMMUNICATION WITHIN AN INTELLIGENT TRANSPORT SYSTEM FOR SIGNALLING HIDDEN OBJECTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18358797 titled 'COMMUNICATION WITHIN AN INTELLIGENT TRANSPORT SYSTEM FOR SIGNALLING HIDDEN OBJECTS

Simplified Explanation

According to some embodiments of the disclosure, the patent application describes a method of communication in an intelligent transport system (ITS). The method involves perceiving an object within a monitored area of the ITS at a first given time. If the object is no longer perceived by the ITS at a second given time, an estimation of the object's state is obtained. A Collective Perception Message (CPM) is then transmitted, which includes information related to the estimated state of the object.

• The patent application describes a method for communication in an intelligent transport system (ITS).
• The method involves perceiving an object within the monitored area of the ITS at a first given time.
• If the object is no longer perceived by the ITS at a second given time, an estimation of the object's state is obtained.
• A Collective Perception Message (CPM) is transmitted, containing information about the estimated state of the object.

Potential applications of this technology:

• Enhancing safety in intelligent transport systems by providing real-time information about objects within the monitored area.
• Improving traffic management and congestion control by sharing information about the state of objects in the system.
• Enabling autonomous vehicles to make informed decisions based on the estimated state of objects in their surroundings.

Problems solved by this technology:

• Lack of real-time information about objects within the monitored area of an intelligent transport system.
• Difficulty in estimating the state of objects that are no longer perceived by the system.
• Limited communication capabilities between different components of the intelligent transport system.

Benefits of this technology:

• Improved safety for drivers, pedestrians, and other objects within the monitored area.
• Enhanced efficiency in traffic management and congestion control.
• Facilitation of autonomous vehicle operations by providing accurate and timely information about the state of objects in the surroundings.

Original Abstract Submitted

According to some embodiments of the disclosure, it is provided a method of communication in an intelligent transport system, ITS. After having perceived an object within an area monitored by the ITS-S, at a first given time, an estimation of a state of the object is obtained at a second given time, if the object is no longer perceived by the ITS-S at the second given time and a Collective Perception Message, CPM, comprising items of information related to the estimated state of the object is transmitted.