UPDATE RATE ADAPTATION FOR COLLABORATIVE RADAR AND MAPPING

Organization Name

QUALCOMM Incorporated

Inventor(s)

Saadallah Kassir of Austin TX (US)

Kapil Gulati of Belle Mead NJ (US)

Preeti Kumari of San Diego CA (US)

UPDATE RATE ADAPTATION FOR COLLABORATIVE RADAR AND MAPPING - A simplified explanation of the abstract

This abstract first appeared for US patent application 17454618 titled 'UPDATE RATE ADAPTATION FOR COLLABORATIVE RADAR AND MAPPING

Simplified Explanation

The patent application describes a first apparatus that can receive an indication from a wireless device to enable radar measurement sharing. It can also receive a set of configuration parameters for radar measurement sharing and perform radar measurements based on these parameters and network state information. The apparatus can then transmit the radar measurement data at a selected transmission rate.

• The first apparatus receives an indication from a wireless device to enable radar measurement sharing.
• It receives a set of configuration parameters for radar measurement sharing.
• The apparatus performs radar measurements based on the received parameters and network state information.
• It transmits the radar measurement data at a selected transmission rate.

Potential applications of this technology:

• Radar measurement sharing can be used in various wireless communication systems, such as cellular networks, to improve network performance and efficiency.
• It can be used for interference management and resource allocation in wireless networks.
• The technology can be applied in autonomous vehicles for radar-based sensing and detection.

Problems solved by this technology:

• The technology enables efficient sharing of radar measurement data between wireless devices and network infrastructure.
• It improves the accuracy and reliability of radar measurements by considering network state information.
• It helps in optimizing resource allocation and interference management in wireless networks.

Benefits of this technology:

• Improved network performance and efficiency.
• Enhanced accuracy and reliability of radar measurements.
• Optimal resource allocation and interference management in wireless networks.
• Potential applications in autonomous vehicles for radar-based sensing and detection.

Original Abstract Submitted

A first apparatus is provided that is configured to receive, from a wireless device, an indication enabling radar measurement sharing; receive a first set of configuration parameters for the radar measurement sharing; perform a radar measurement based on the first set of configuration parameters and network state information; and transmit a first set of radar measurement transmissions at a first radar measurement transmission rate selected based on the first set of configuration parameters and the network state information. In some aspects, a second apparatus is provided that is configured to select a first set of UEs from a plurality of UEs for radar measurement sharing; transmit, to each UE in the first set of UEs, an indication enabling the radar measurement sharing; and receive, from each UE in the first set of UEs, a radar measurement transmission based on a radar measurement performed at a corresponding UE.