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An Improved Stepped-Frequency PMCW Waveform for Automotive Radar Applications

Fast facts

  • Internal authorship

  • Further publishers

    Moritz Kahlert, Claas Tebruegge, Markus Gardill

  • Publishment

    • 2024
    • Volume 2024 15th German Microwave Conference (GeMiC)
  • Subjects

    • Communication and information technology
  • Research fields

    • Institute for Communication Technology (IKT)
  • Publication format

    Conference paper

Quote

T. Fei, M. Kahlert, C. Tebruegge, and M. Gardill, “An Improved Stepped-Frequency PMCW Waveform for Automotive Radar Applications,” in 2024 15th German Microwave Conference (GeMiC), 2024, pp. 193–196.

Content

In phase-modulated continuous wave (PMCW) radar systems, fine range resolution typically requires high instantaneous bandwidths, necessitating fast-sampling analog-to-digital converters (ADCs). However, these ADCs are expensive and power-consuming. Consequently, due to their affordable hardware implementation, today's automotive radar systems still mainly employ analog frequency-modulated continuous wave (FMCW) waveforms. A larger bandwidth without requiring fast-sampling ADCs can also be synthesized by transmitting consecutive pulses in a coherent processing interval (CPI) at incremented carrier frequencies. To enable PMCW with low-data-rate ADCs, this paper proposes an improved stepped-frequency PMCW (SF-PMCW) waveform and evaluates its performance against a stepped-frequency FMCW (SF-FMCW) radar system in a simulated environment. The results indicate that the proposed SF- PMCW waveform can yield superior target detection capabilities with comparable system parameters.

Notes and references

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