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Deployment Optimization Method of Multistatic Radar for Constructing Circular Barrier Coverage.

Hai-Peng Li1,2, Da-Zheng Feng1, Shao-Feng Chen3

  • 1National Key Laboratory of Radar Signal Processing, Xidian University, Xi'an 710071, China.

Sensors (Basel, Switzerland)
|October 13, 2021
PubMed
Summary
This summary is machine-generated.

This study introduces an equipartition strategy for optimizing multistatic radar deployment to achieve circular barrier coverage (CBC). The method reduces deployment costs and transmitter numbers compared to existing techniques.

Keywords:
circular barrier coveragedeployment optimizationdeployment patternminimum deployment costmultistatic radar

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Area of Science:

  • Radar Systems Engineering
  • Optimization Theory
  • Wireless Communication

Background:

  • Circular barrier coverage (CBC) is crucial for surveillance and monitoring.
  • Multistatic radar systems offer advantages in flexibility and coverage.
  • Existing deployment methods for CBC can be costly and inefficient.

Purpose of the Study:

  • To propose a novel deployment optimization method for circular barrier coverage using multistatic radars.
  • To minimize deployment cost and the number of transmitters required.
  • To enhance the efficiency of multistatic radar network design.

Main Methods:

  • An equipartition strategy dividing the circular area into sub-circles.
  • A two-sub-model optimization approach: inner model (fixed sub-circle width) and outer model (variable sub-circle width).
  • Joint application of integer linear programming (ILP) and exhaustive method (EM), with a modified formula for receiver calculation.

Main Results:

  • The proposed method achieves circular barrier coverage with reduced deployment costs.
  • Fewer transmitters are required compared to state-of-the-art methods.
  • Simulations confirm the effectiveness and efficiency of the equipartition strategy.

Conclusions:

  • The equipartition strategy provides an effective approach for optimizing multistatic radar deployment for CBC.
  • The method offers significant cost and component reduction benefits.
  • This research contributes to more efficient and economical radar network design.