1、Research on Key Technologies of Bistatic Sensing and PrototypeVerification1 Overview.11.1 Background on Bistatic Sensing.11.2 Comparative Analysis of Bistatic Sensing and Monostatic Sensing Performance.52 Bistatic Sensing System Architecture.102.1 Introduction to ISAC Architecture.102.2 Sensing Serv

2、ice Procedures.122.3 Measurement Quantities Definition and Sensing Information Transmission.182.3.1 Definition of Sensing Measurement Quantities.182.3.2 Protocol Stack of Sensing Information Transmission.212.3.3 Reporting of Measurement Results.223 Bistatic Sensing Key Technologies.253.1 Signal Desi

3、gn.253.1.1 Sequence Design.253.1.2 Resource Mapping Schemes.283.1.3 Sensing and Communication Signal Resource Multiplexing.343.2 Estimation of Bistatic Sensing Parameters.393.2.1 Basic Methods of Spectrum Estimation.393.2.2 Position Information Calculation for Bistatic Sensing.423.2.3 NLOS-Based Sen

4、sing Method.443.3 Non-Ideal Factors Cancellation.473.3.1 Hardware Non-Ideal Factors and Impacts.473.3.2 Hardware Non-Ideal Factor Cancellation Schemes.483.3.3 Bistatic Clutter Cancellation Schemes.523.4 Beam Management and Precoding.543.4.1 Beam Management for Bistatic Sensing.543.4.2 Digital Precod

5、ing Schemes of Bistatic Sensing.604 Simulation Evaluation and Prototype Verification.634.1 Simulation Evaluation Methods.634.1.1 Bistatic Sensing Channel Modeling.634.1.2 Bistatic Sensing Simulation Evaluation Methods.654.2 Prototype Verification.694.2.1 Collaborative Positioning Among Base Stations

6、.694.2.2 Respiratory Monitoring Through Bistatic Sensing.704.2.3 Coordinated Multi-Point Trajectory Tracking Through Bistatic Sensing.744.2.4 Passive Target Positioning Through Bistatic Sensing.764.2.5 Bistatic Test Based on LOS and NLOS Synchronization Calibration.784.2.6 Action Detection Through B