Zhurnal Radioelektroniki - Journal of Radio Electronics. eISSN 1684-1719. 2020. No. 7
ContentsFull text in Russian (pdf)
DOI https://doi.org/10.30898/1684-1719.2020.7.8
UDC 621.396.969
Spatial ultra-wideband visualization of probed near-field surveillance objects
S. S. Shadinov
MIREA - Russian Technological University, Vernadsky prosp., 78, Moscow 119454, Russia
The paper was received on June 21, 2020
Abstract. The paper presents real experiments performed on modern equipment provided by the Altair Children's Technopark on the basis of MIREA - Russian Technological University. The article describes the technical characteristics of the device, the software interface, describes the scope. Interactive laboratory work based on the Pikor-Bio device is described. The results of studies and experiments with examples of real radarograms are presented. The obtained radarograms with the description of the experiments are presented. The process of identifying targets on radarograms is described. The results of detecting objects in different areas of the premises are highlighted.
Keywords: UWB system “Pikor-Bio”, UWB radio-vision, SRI pulses, detection of people through radiolucent materials, investigation of UWB radar, interactive laboratory work “Research of SRI of radar “Pikor-Bio”.
References
1. Kostin M.S., Boykov K.A. Cyclo-generative systems of attack digitization of subnanosecond radio pulses in radio vision. Inzhenernaya fizika - Engineering Physics. 2018. No. 1. P. 41-47. (In Russian)
2. Kostin M.S., Boykov K.A. Cyclogenetic systems for high-speed digitization of non-stationary subnanosecond processes. Zhurnal Radioelektroniki - Journal of Radio Electronics. 2017. No.6. Available at: http://jre.cplire.ru/jre/jun17/8/text.pdf. (In Russian)
3. Kostin M.S., Boykov K.A., Kotov A.F. High-accuracy methods for cyclic-like acklock digitization of subnanosecond signals. Journal of Communications Technology and Electronics. 2019.Vol.64. No. 2. P 168-171. https://doi.org/10.1134/S0033849419020104. (In Russian)
4. Kostin M.S. Subnanosekundnyye signaly i tekhnologii: uchebnoye posobiye [Subnanosecond signals and technologies: a training manual]. Moscow, MIREA-Russian Technological University. 2018. 110 p. (In Russian)
5. Bakulev P.A. Radiolokatsionnyye sistemy: ucheb. dlya vuzov [Radar systems: textbook for universities]. Moscow, Radiotekhnika Publ. 2007. 376 p. (In Russian)
6. Kostin M.S. et al. Radiovolnovyye protsessy i tekhnika SVCH [Radio wave processes and microwave technology]. Online resource. Moscow, MIREA-Russian Technological University. 2018. Electronic optical disk (ISO). (In Russian)
7. Shirman P.D., Gomozov V.I., Leshchenko S.P., Orlenko V.M. Prospects for broadband active radar. Proceedings of the 1-st International Radio-electronic Forum “Prikladnaya radioelektronika. Sostoyaniye i perspektivy razvitiya” [Applied Radio Electronics. Status and development prospects]. Vol. 1. Kharkov. 2002. P. 35. (In Russian)
For citation:Shadinov S.S. Spatial ultra-wideband visualization of probed near-field surveillance objects. Zhurnal Radioelektroniki - Journal of Radio Electronics. 2020. No. 7. https://doi.org/10.30898/1684-1719.2020.7.8 (In Russian)