References
- Statistical year book 2019. Section 3. Korean National Fire Agency. http://www.nfa.go.kr/nfa/.
- N. Scmcykin, A. Dudnik, and V. Monahov, Low frequency throughwall radar-detector, in Proc. Int. Conf. Ground Penetrating Radar(Brussels, Belgium), 2014, pp. 819-822.
- G. Inanan et al., Handheld Ultra-Wideband Through-Wall Radar, in Proc. Seminar Detection Syst. Architectures Technol. (Algiers, Algeria), 2017, pp. 1-6.
- Camero-tech, XAVER systems. https://www.camero-tech.com/xaver-products/xaver-100/.
- Camero-tech, XAVER systems, Cambridge Consultants. https://www.cambridgeconsultants.com/.
- H. Burchett, Advances in through wall radar for search, rescue and security applications, in Proc. IET Conf. Crime Security (London, UK), pp. 511-525.
- P. Park, et al., A centimeter resolution, 10 m range CMOS impulse radio radar for human motion monitoring, IEEE J. Solid-State Circuits 49 (2014), 1125-1134. https://doi.org/10.1109/JSSC.2014.2310746
- T. Chu et al., A short-range UWB impulse-radio CMOS sensor for human feature detection, in Proc. IEEE Int. Solid-State Circuits Conf. (San Francisco, CA, USA), Feb. 2011, pp. 294-296.
- N. Andersen et al., A 118-mW pulse-based radar SoC in 55-nm CMOS for non-contact human vital signs detection, IEEE J. Solid-State Circuits 52 (2017), 3421-3433. https://doi.org/10.1109/JSSC.2017.2764051
- P. Park, and S. Kim, A continuous sweep-clock-based time-expansion impulse-radio radar, IEEE Trans Circuits Syst. I Regul. Pap. 65 (2018), 3049-3059. https://doi.org/10.1109/TCSI.2018.2799986
- S. Kim et al., A Subthreshold CMOS RF front-end design for low-power band-III T-DMB/DAB receivers, ETRI J. 33 (2011), 969-972. https://doi.org/10.4218/etrij.11.0211.0055
- M. Khurram et al., A 35 GHz current-reuse gm-boosted CG LNA for Ultrawideband in 130 nm CMOS, IEEE Trans.Very Large Scale Integr. (VLSI) Syst.,, 20 (2012), no. (3), 400-409. https://doi.org/10.1109/TVLSI.2011.2106229
- F. D. David Jr, and C Nicholas, Currie Microwave and millimeter-wave systems for wall penetration, Proc. SPIE 3375, Targets and Backgrounds: Characterization and Representation IV, July 1998, pp. 269-279.
- L. Yishan et al., Analysis and measurment of wall penetration loss as a function of incident angle, in Proc. Int. Workshop Electromagnetics (London, UK), 2017, pp. 124-125.
- D. Bertsekas and J. Tsitsiklis, Introduction to Probability. 2nd ed, Athena Scientific, 2008, p. 269.
- KROS standard 1136:2018, Performance evaluation method for human-life detection for disaster response robots, Korean Industrial Standards, Smart robot standard forum, SC-5 section, http://www.koros.or.kr/.
- KIRO standard 2019, Performance evaluation methods for a human-life detection sensor in disaster environments, http://drc.re.kr/resea rch/test_certi fy.php.
- Disater response robot field test facility, Pohang, Young-il bay, http://drc.re.kr/research/facility.php.
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