Jump to content

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

This site uses cookies to ensure the functionality of the website and to collect statistical data. You can object to the statistical collection via the data protection settings (opt-out).

Settings(Opens in a new tab)