PHASE COHERENCE DISCONTINUITY FOR SENSING SIGNALS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Marwen Zorgui of San Diego CA (US)

Srinivas Yerramalli of San Diego CA (US)

Rajat Prakash of San Diego CA (US)

Xiaoxia Zhang of San Diego CA (US)

PHASE COHERENCE DISCONTINUITY FOR SENSING SIGNALS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18064220 titled 'PHASE COHERENCE DISCONTINUITY FOR SENSING SIGNALS

The abstract describes a system where a first node transmits sensing signals and a phase coherence indication based on phase coherence discontinuities to a second node. The second node receives the sensing signals, which are reflected off a target object, and measures them based on the phase coherence indication. The first node is a transmitter node, and the second node is a receiver node, which could be a Transmission Reception Point (TRP), User Equipment (UE), sensing reference unit, or positioning reference unit.

• The system involves a first node transmitting sensing signals and a phase coherence indication to a second node.
• The second node receives the sensing signals, which are reflected off a target object, and measures them based on the phase coherence indication.
• The first node is a transmitter node, and the second node is a receiver node, which could be a TRP, UE, sensing reference unit, or positioning reference unit.

Potential Applications: - This technology could be used in radar systems for target detection and tracking. - It could also be applied in communication systems for signal transmission and reception optimization.

Problems Solved: - Enhances the accuracy and efficiency of measuring sensing signals. - Improves the reliability of communication between nodes.

Benefits: - Increased precision in target detection. - Enhanced signal transmission and reception quality.

Commercial Applications: Title: Advanced Radar Systems for Target Detection and Communication Optimization This technology could be utilized in military radar systems, telecommunications networks, and IoT devices for improved performance and reliability.

Prior Art: Readers interested in prior art related to this technology could explore research papers on radar signal processing, communication systems, and sensor networks.

Frequently Updated Research: Stay updated on advancements in radar technology, signal processing algorithms, and wireless communication protocols to enhance the capabilities of this system.

Questions about the technology: 1. How does this system improve the accuracy of measuring sensing signals? 2. What are the potential applications of this technology in different industries?

Original Abstract Submitted

A first node may transmit a set of sensing signals. The first node may transmit a phase coherence indication based on a set of phase coherence discontinuities associated with the set of sensing signals to a second node. The second node may receive the set of sensing signals. The set of sensing signals received by the second node may be reflected off of a target object. The second node may receive the phase coherence indication based on the set of phase coherence discontinuities associated with the set of sensing signals. The second node may measure the set of sensing signals based on the phase coherence indication. The first node may be a transmitter node. The second node may be a receiver node. The first or second node may be one of a transmission reception point (TRP), a user equipment (UE), a sensing reference unit, or a positioning reference unit.