Development of FMCW Radar Signal Processing for High-Speed Railway Collision Avoidance

Farra Anindya Putri; Dayat Kurniawan; Rahmawati Hasanah; Taufiqurrahman Taufiqurrahman; Eko Joni Pristianto; Hana Arisesa; Yusuf Nur Wijayanto; Deni Permana; Winy Desvasari; Ken Paramayudha; Arief Budi Santiko; Dadin Mahmudin; Pamungkas Daud; Fajri Darwis; Erry Dwi Kurniawan; Arie Setiawan; Tajul Miftahushudur; Prasetyo Putranto; Syamsu Ismail

doi:10.55981/jet.482

Jurnal Elektronika dan Telekomunikasi (Aug 2022)

Development of FMCW Radar Signal Processing for High-Speed Railway Collision Avoidance

Farra Anindya Putri,
Dayat Kurniawan,
Rahmawati Hasanah,
Taufiqurrahman Taufiqurrahman,
Eko Joni Pristianto,
Hana Arisesa,
Yusuf Nur Wijayanto,
Deni Permana,
Winy Desvasari,
Ken Paramayudha,
Arief Budi Santiko,
Dadin Mahmudin,
Pamungkas Daud,
Fajri Darwis,
Erry Dwi Kurniawan,
Arie Setiawan,
Tajul Miftahushudur,
Prasetyo Putranto,
Syamsu Ismail

Affiliations

Farra Anindya Putri: Departement of Electronic Engineering, Bandung State Polytechnic
Dayat Kurniawan: Research Center for Telecommunication, National Research and Innovation Agency
Rahmawati Hasanah: Departement of Electronic Engineering, Bandung State Polytechnic
Taufiqurrahman Taufiqurrahman: Faculty of Electrical Engineering, Universiti Teknologi Malaysia
Eko Joni Pristianto: Research Center for Telecommunication, National Research and Innovation Agency
Hana Arisesa: Faculty of Electrical Engineering, Universiti Teknologi Malaysia
Yusuf Nur Wijayanto: Research Center for Electronic, National Research and Innovation Agency
Deni Permana: Research Center for Telecommunication, National Research and Innovation Agency
Winy Desvasari: Research Center for Telecommunication, National Research and Innovation Agency
Ken Paramayudha: Research Center for Telecommunication, National Research and Innovation Agency
Arief Budi Santiko: Research Center for Telecommunication, National Research and Innovation Agency
Dadin Mahmudin: Faculty of Electrical Engineering, Universiti Teknologi Malaysia
Pamungkas Daud: Research Center for Telecommunication, National Research and Innovation Agency
Fajri Darwis: Research Center for Telecommunication, National Research and Innovation Agency
Erry Dwi Kurniawan: Research Center for Telecommunication, National Research and Innovation Agency
Arie Setiawan: Graduate School of Engineering, Mie University
Tajul Miftahushudur: Department of Electrical and Electronic Engineering, The University of Manchester
Prasetyo Putranto: School of Electrical Engineering and Computer Science, KTH Royal Institute of Technology
Syamsu Ismail

DOI: https://doi.org/10.55981/jet.482
Journal volume & issue: Vol. 22, no. 1
pp. 40 – 47

Abstract

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Collision is the main issue in safe transportation, including in the railway system. Sensor systems have been developed to detect obstacles to prevent a collision, such as using cameras. One disadvantage of the camera systems is that performance detection decreases in a not clean environment, like the target position behind the fogs. This paper discusses the development of frequency modulated continuous wave (FMCW) radar signal processing for high-speed railway collision avoidance. The development of radar signal processing combines a two-dimensional constant false alarm rate (2D-CFAR) and robust principal component analysis (RPCA) to detect moving targets under clutter. Cell average (CA) and Greatest of CA (GOCA) CFAR are evaluated under a cluttered wall environment along the railway track. From the experiment, the development of FMCW radar can detect stationary or moving obstacles around 675 meters in front of the locomotive. Combining 2D-CFAR and RPCA algorithm outperforms average background subtraction in extracting moving targets from strong clutter signals along the railway track.

Published in Jurnal Elektronika dan Telekomunikasi

ISSN: 1411-8289 (Print); 2527-9955 (Online)
Publisher: Indonesian Institute of Sciences
Country of publisher: Indonesia
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Telecommunication; Technology: Electrical engineering. Electronics. Nuclear engineering: Electronics
Website: http://www.jurnalet.com

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