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High-Resolution DOA Estimation Using Single-Snapshot Music for Automotive Radar with Mixed-ADC Allocations

Fast facts

  • Internal authorship

  • Further publishers

    Moritz Kahlert, Lifan Xu, Markus Gardill, Shunqiao Sun

  • Publishment

    • 2024
    • Volume Proceedings of 2024 IEEE 13rd Sensor Array and Multichannel Signal Processing Workshop (SAM)
  • Subjects

    • Communication and information technology
  • Research fields

    • Institute for Communication Technology (IKT)
  • Publication format

    Conference paper

Quote

T. Fei, M. Kahlert, L. Xu, M. Gardill, and S. Sun, “High-Resolution DOA Estimation Using Single-Snapshot Music for Automotive Radar with Mixed-ADC Allocations,” in Proceedings of 2024 IEEE 13rd Sensor Array and Multichannel Signal Processing Workshop (SAM), 2024, pp. 1–5.

Content

Fine direction of arrival (DOA) estimations are required for accurate target detections in automotive radar systems. To address this issue, most spectral estimation methods assume many snapshots of measurements. However, due to the dynamic nature of automotive scenarios, methods using multiple snapshots are impractical for DOA estimation in automotive radars. Furthermore, to relax the hardware requirements on modern automotive radar systems, mixed-analog-to-digital converter (ADC) allocations, i.e., the coexistence of 1-bit and high-resolution ADCs, have gained more attention recently. In this work, we introduce a high-resolution DOA estimation approach based on single-snapshot multiple signal classification (MUSIC) estimation and evaluate the performance with various ADC allocations. The results show that mixed-ADC allocations can perform comparably to high-resolution ADC allocations.

Notes and references

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