We propose a hybrid modeling technique for human signal detection through the walls using distributed radar. The high resolution and excellent penetration performance of the impulse radio ultrawideband (IR-UWB) radar systems can be used in important applications such as survivor detection in disaster scenarios. The radar channel transfer function between the transmitting and receiving radars obtained from the electromagnetic (EM) simulator is used for signal processing on MATLAB, followed by coherent synthesis. We perform a hybrid simulation of human detection through the walls using a single radar and verify it through experiments. In addition, we model vital signs behind the walls in various scenarios using the distributed radar and present the coherent synthesis results. The proposed hybrid modeling technique allows us to analyze various distributed radar scenarios in advance. This can reduce the time-consuming and resource-intensive real experiments. It is expected to contribute to radar system design optimization, signal processing algorithm development, and the identification of potential errors before practical implementation. The proposed method is expected to play an important role in various applications of IR-UWB radar technology, including disaster relief operations, noncontact biosignal monitoring, security, and surveillance systems.
This work was supported by the Institute of Information and Communications Technology Planning and Evaluation (IITP) grant funded by Korea Government (MSIT, Development of Distributed Radar Core Technology for Life Detection in a Wide Area Disaster Site) under Grant RS-2023-00215735. The associate editor coordinating the review of this article and approving it for publication was Dr. Satyendra K. MishraThis work was supported by Institute of Information & CommunicationsTechnologyPlanning&Evaluation(IITP)grantfunded by the Korea government (MSIT)(No.RS-2023-00215735, DevelopmentofDistributedRadarCoreTechnologyforLifeDetectionin a Wide Area Disaster Site). (Corresponding author: Yong Bae Park). SoyeongLeeandDaeyeong Yoonareequallycontributedfirstauthors.
