Buried objects detection using noise radar

被引：0

作者：

Susek, Waldemar ^{[1
]}

Kniola, Michal ^{[1
]}

Stec, Bronislaw ^{[1
]}

机构：

[1] Mil Univ Technol, Fac Elect Inst Radioeletron, Warsaw, Poland

来源：

2018 22ND INTERNATIONAL MICROWAVE AND RADAR CONFERENCE (MIKON 2018) | 2018年

关键词：

telecommunication; noise radar; correlator; FPGA; GROUND-PENETRATING RADAR;

D O I：

暂无

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

The paper presents the concept of use of a broadband noise radar in role of a ground penetrating radar (GPR). The present concept assumes the use of analog noise signal generated in a band of 1 divided by 3 GHz and power of several microwatts. The paper presents selected radar systems, such as antenna system, front-end receiver, data acquisition and processing system. The concept of use of random signal allows the operation of several transmitters and receivers in the same space, due to the fact that the noise signals are mutually orthogonal signals. The present concept of a GPR noise radar can be applied to construct terrain penetration systems that are use, e.g. to search for mines hidden on route of military convoy.

引用

页码：461 / 463

页数：3

共 50 条

[1] Detection of shallowly buried objects using impulse radar
Brunzell, H
IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, 1999, 37 (02): : 875 - 886
[2] Detection of shallow buried objects using an autoregressive model on the ground penetrating radar signal
Nabelek, Daniel P.
Ho, K. C.
DETECTION AND SENSING OF MINES, EXPLOSIVE OBJECTS, AND OBSCURED TARGETS XVIII, 2013, 8709
[3] Detection of buried objects using ultra-wideband radar: Newly launched mine detection project in South Korea
Kam, Kyungryul
Kim, Kangwook
DETECTION AND SENSING OF MINES, EXPLOSIVE OBJECTS, AND OBSCURED TARGETS XIII, 2008, 6953
[4] Detection of Underground Buried Objects Using Chirplet Transform
Yaghoobian, Omid
Amindavar, Hamidreza
2020 28TH IRANIAN CONFERENCE ON ELECTRICAL ENGINEERING (ICEE), 2020, : 11 - 15
[5] Automatic Detection and Classification of Buried Objects Using Ground-Penetrating Radar for Counter-Improvised Explosive Devices
Chantasen, Nattawat
Boonpoonga, Akkarat
Burintramart, Santana
Athikulwongse, Krit
Akkaraekthalin, Prayoot
RADIO SCIENCE, 2018, 53 (02) : 210 - 227
[6] Prediction of Size of Buried Objects using Ground Penetrating Radar and Machine Learning Techniques
Barkataki, Nairit
Mazumdar, Sharmistha
Talukdar, Rajdeep
Chakraborty, Priyanka
Tiru, Banty
Sarma, Utpal
2020 INTERNATIONAL CONFERENCE ON COMPUTATIONAL PERFORMANCE EVALUATION (COMPE-2020), 2020, : 781 - 785
[7] Detection of Deeply Buried Non-Metal Objects by Ground Penetrating Radar Using Non-Negative Matrix Factorization
Nabelek, Daniel
Ho, K. C.
DETECTION AND SENSING OF MINES, EXPLOSIVE OBJECTS, AND OBSCURED TARGETS XX, 2015, 9454
[8] Influence of Soil Moisture on the Detection of Buried Objects Using an Airborne GPSAR
Grathwohl, Alexander
Arendt, Bernd
Walter, Thomas
Waldschmidt, Christian
2022 IEEE/MTT-S INTERNATIONAL MICROWAVE SYMPOSIUM (IMS 2022), 2022, : 433 - 435
[9] Buried Threat Detection Using a Handheld Ground Penetrating Radar System
Knox, Mary
Torrione, Peter
Collins, Leslie
Morton, Kenneth
DETECTION AND SENSING OF MINES, EXPLOSIVE OBJECTS, AND OBSCURED TARGETS XX, 2015, 9454
[10] A Method for Emphasizing Reflection Waves from Buried Objects by Using Ground-Penetrating Radar
Kobayashi, Makoto
Nakano, Kazushi
ELECTRONICS AND COMMUNICATIONS IN JAPAN, 2013, 96 (10) : 22 - 36

← 1 2 3 4 5 →