公开(公告)号：US11796664B2

公开(公告)日：2023-10-24

申请号：US17137478

申请日：2020-12-30

Applicant: US Gov't as represented by Secretary of Air Force

Inventor： Robert Ewing ,  Yuan Zheng ,  Siyang Cao ,  David Brendel

IPC: G01S13/42 ,  G01S7/28 ,  H01Q3/36 ,  G01S13/02

CPC classification number: G01S13/426 ,  G01S7/2813 ,  H01Q3/36 ,  G01S2013/0245

Abstract: The present disclosure addresses a novel feedback design methodology to meet the emerging frontiers of beamforming radio frequency (RF) technology in the areas of machine learning and surveillance. The feasibility of developing adaptive waveform modulation schemes for spectrum management in radars via orthogonal wavelet concepts. With the increasing prevalence of RF spectrum bandwidth limitations, this approach of adaptive feedback waveforms addresses advanced signal processing beamforming technique for phase array RF improving overall sensing performance. The adaptive illumination waveform algorithms for enhancing detection, discrimination, and tracking is motivated from the analogy drawn between the cellular wireless communication systems and the general multi-static radar automotive systems. The present innovation has developed signal processing schemes of adaptive illumination waveforms for enhancing RF detection performance and have developed a unified system architecture of the adaptive radar waveform design for various scenarios including multi-static radars and multiple targets.

公开(公告)号：US20210208268A1

公开(公告)日：2021-07-08

申请号：US17137478

申请日：2020-12-30

Applicant: US Gov't as represented by Secretary of Air Force

Inventor： Robert Ewing ,  Yuan Zheng ,  Siyang Cao ,  David Brendel

IPC: G01S13/42 ,  H01Q3/36 ,  G01S7/28

Abstract: The present disclosure addresses a novel feedback design methodology to meet the emerging frontiers of beamforming radio frequency (RF) technology in the areas of machine learning and surveillance. The feasibility of developing adaptive waveform modulation schemes for spectrum management in radars via orthogonal wavelet concepts. With the increasing prevalence of RF spectrum bandwidth limitations, this approach of adaptive feedback waveforms addresses advanced signal processing beamforming technique for phase array RF improving overall sensing performance. The adaptive illumination waveform algorithms for enhancing detection, discrimination, and tracking is motivated from the analogy drawn between the cellular wireless communication systems and the general multi-static radar automotive systems. The present innovation has developed signal processing schemes of adaptive illumination waveforms for enhancing RF detection performance and have developed a unified system architecture of the adaptive radar waveform design for various scenarios including multi-static radars and multiple targets.