Proximity vital sign sensor using dual-PLL system and real-time gas sensor based on PEDOT:PSS

김병현 2020년

활용도
공유도
영향력

논문상세정보

- 저자 김병현
- 기타서명 이중 위상고정루프 시스템을 이용한 근접 생체 신호 센서와 PEDOT:PSS를 적용한 실시간 가스 센서
- 형태사항 26 cm: 삽화: xiii, 101장 :
- 일반주기 지도교수: Jong-Gwan Yook
- 학위논문사항 학위논문(박사) -, Graduate School, Yonsei University, Department of Electrical and Electronic Engineering, 2020.2
- 발행지 [Seoul]
- 언어 eng
- 출판년 2020
- 발행사항 Graduate School, Yonsei University
- 주제어 Injection-lock and real-time measurement conducting polymer dualPLL gas sensor injection-locked PLL injection-locked oscillator motion artifact reduction PEDOT:PSS proximity sensor vital sign 가스 센서 근접센서 동잡음 제거 생체신호 실시간측정 위상고정루프 이중 위상 고정루프 인젝션 잠금 전도성 고분자 주입 동기 발진기
- 참고문헌( 91)
유사주제 논문( 309)

인용/피인용

Proximity vital sign sensor using dual-PLL syste ...

' Proximity vital sign sensor using dual-PLL system and real-time gas sensor based on PEDOT:PSS' 의 주제별 논문영향력

논문영향력 요약
동일주제 총논문수	논문피인용 총횟수	주제별 논문영향력의 평균
주제	Injection-lock and real-time measurement conducting polymer dualPLL gas sensor injection-locked PLL injection-locked oscillator motion artifact reduction pedot:pss proximity sensor vital sign 가스 센서 근접센서 동잡음 제거 생체신호 실시간측정 위상고정루프 이중 위상 고정루프 인젝션 잠금 전도성 고분자 주입 동기 발진기
328	0	0.0%

논문영향력
주제		주제별 논문수	주제별 논문영향력
주제어	Injection-lock	1	0.0%
	and real-time measurement	1	0.0%
	conducting polymer	45	0.0%
	dualPLL	1	0.0%
	gas sensor	57	0.0%
	injection-locked PLL	1	0.0%
	injection-locked oscillator	2	0.0%
	motion artifact reduction	1	0.0%
	pedot:pss	63	0.0%
	proximity sensor	3	0.0%
	vital sign	4	0.0%
	가스 센서	32	0.0%
	근접센서	5	0.0%
	동잡음 제거	1	0.0%
	생체신호	66	0.0%
	실시간측정	4	0.0%
	위상고정루프	15	0.0%
	이중 위상 고정루프	1	0.0%
	인젝션 잠금	1	0.0%
	전도성 고분자	25	0.0%
	주입 동기 발진기	1	0.0%
계		330	0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수

' Proximity vital sign sensor using dual-PLL system and real-time gas sensor based on PEDOT:PSS' 의 참고문헌

¡°Wrist pulse detection system based onChanges in the near-field reflectionCoefficient of a resonator
vol . 24 , no . 10 , pp . 719 ? 721 [2014]
¡°Wireless rf sensor structure for noncontact vital sign monitoring
vol . 12 , no . 1 , pp . 37 ? 44 [2012]
¡°Vital-sign detection doppler radar based on phase locked self-injection oscillator , ¡± in 2012 IEEE/MTT-S International Microwave Symposium Digest
pp . 1 ? 3 [2012]
¡°Vital sign detection for handheldCommunication device using antenna mismatching effect , ¡± in 2013 IEEE MTT-S International Microwave Symposium Digest ( MTT )
pp . 1 ? 3 [2013]
¡°Variability of photoplethysmography peripheral pulse measurements at the ears , thumbs and toes , ¡± IEE Proceedings-Science
vol . 147 , no . 6 , pp . 403 ? 407 [2000]
¡°Understanding injection locking in negative-resistance lc oscillators intuitively using nonlinear feedback analysis , ¡± in Proceedings of the IEEE 2005Custom IntegratedCircuitsConference , 2005. , pp . 729 ? 732
[2005]
¡°Singleantenna doppler radars using self and mutual injection locking for vital sign detection with random body movementCancellation , ¡± IEEE Transactions on Microwave Theory and Techniques
vol . 59 , no . 12 , pp . 3577 ? 3587 [2011]
¡°Sensitivity enhanced vital sign detection based on antenna reflectionCoefficient variation
vol . 10 , no . 2 , pp . 319 ? 327 [2015]
¡°Sensitivity enhanced noncontact vital signal sensor using oscillation frequency deviation , ¡± in Asia-Pacific MicrowaveConference 2011
pp . 1586 ? 1589 [2011]
¡°Role of bianisotropy in negative ¢¥ permeability and left-handed metamaterials
vol . 65 , no . 14 , p. 144440 [2002]
¡°Rf gas sensor using 4-port hybridCoupler withConducting polymer ,
vol . 26 , no . 1 , pp . 39 ? 46 [2015]
¡°Realtime humidity sensor based on microwave resonatorCoupled with pedot : PssConducting polymer film
vol . 8 , no . 1 , p. 439 [2018]
¡°Pulse transit time based on piezoelectric technique at the radial artery ,
vol . 20 , no . 3 , pp . 185 ? 192 [2006]
¡°ProximityCoupled vital sign sensor based on phase locked loop under injection , ¡± in 2013 Asia-Pacific MicrowaveConference Proceedings ( APMC )
pp . 536 ? 538 [2013]
¡°Photoplethysmography and its application inClinical physiological measurement
vol . 28 , no . 3 , p. R1 [2007]
¡°Photoplethysmography : a valuable noninvasive tool in the assessment of venous dysfunction ?
vol . 16 , no . 2 , pp . 154 ? 162 [1992]
¡°Photoplethysmogram measurement without direct skin-to-sensorContact using an adaptive light source intensityControl
vol . 13 , no . 6 , pp . 1085 ? 1088 [2009]
¡°Noncontact proximity vital sign sensor based on pll for sensitivity enhancement
vol . 8 , no . 4 , pp . 584 ? 593 [2013]
¡°Mutual injection-locked sil sensor array for vital sign detection with random body movementCancellation
pp . 1 ? 4 [2011]
¡°Motion tolerance in wearable sensors-theChallenge of motion artifact , ¡± in 2007 29th Annual InternationalConference of the IEEE Engineering in Medicine and Biology Society
pp . 1542 ? 1545 [2007]
¡°MicrowaveCharacterization ofConducting polymer pedot : Pss film using a microstrip line for humidity sensor application , ¡± Measurement
vol . 137 , pp . 272 ? 277 [2019]
¡°Microwave-based gas sensor with phthalocyanine film at room temperature
vol . 189 , pp . 213 ? 216 [2013]
¡°Microwave gas sensing with a microstrip interdigitalCapacitor : Detection of nh3 with tio2 nanoparticles
vol . 236 , pp . 554 ? 564 [2016]
¡°Interdigital sensors and transducers
vol . 92 , no . 5 , pp . 808 ? 845 [2004]
¡°Hybrid film ofChemically modified graphene and vapor-phase-polymerized pedot for electronic nose applications
vol . 14 , no . 11 , pp . 2789 ? 2794 [2013]
¡°High-frequency measurements ofConducting polymers : development of a new technique for sensing volatileChemicals ,
vol . 6 , no . 10 , p. 1500 [1995]
¡°Heart rate detection during sleep using a flexible rf resonator and injection-locked pll sensor ,
vol . 62 , no . 11 , pp . 2568 ? 2575 [2015]
¡°Gas sensors based onConducting polymers
vol . 7 , no . 3 , pp . 267 ? 307 [2007]
¡°Flexible non-constrained rf wrist pulse detection sensor based on array resonators
vol . 10 , no . 2 , pp . 300 ? 308 [2015]
¡°Enhanced sensitivity of saw gas sensorCoated molecularly imprinted polymer incorporating high frequency stability oscillator
vol . 125 , no . 2 , pp . 422 ? 427 [2007]
¡°Ecg recording on a bed during sleep without direct skin-contact ,
vol . 54 , no . 4 , pp . 718 ? 725 [2007]
¡°Ecg measurement on aChair withoutConductiveContact
vol . 53 , no . 5 , pp . 956 ? 959 [2006]
¡°Doppler radar sensing of multiple subjects in single and multiple antenna systems
vol . 1 , pp . 7 ? 11 [2005]
¡°Design of interdigitatedCapacitors and their application to gallium arsenide monolithic filters
vol . 31 , no . 1 , pp . 57 ? 64 [1983]
¡°Critical review of non-invasive ¡§ respiratory monitoring in medicalCare
vol . 41 , no . 4 , pp . 377 ? 383 [2003]
¡°Conducting polymers inChemical sensors and arrays
vol . 614 , no . 1 , pp . 1 ? 26 [2008]
¡°Conducting polymerComposites with graphene for use inChemical sensors and biosensors
vol . 181 , no . 7-8 , pp . 707 ? 722 [2014]
¡°Concurrent vital sign and position sensing of multiple individuals using self-injectionlocked tags and injection-locked i/q receivers with arctangent demodulation ,
vol . 61 , no . 12 , pp . 4689 ? 4699 [2013]
¡°Comparative evaluation of susceptibility to motion artifact in different wearable systems for monitoring respiratory rate ,
vol . 14 , no . 2 , pp . 378 ? 386 [2009]
¡°Compact vital signal sensor using oscillation frequency deviation
vol . 60 , no . 2 , pp . 393 ? 400 [2011]
¡°Combining sil tag and il receiver forConcurrent vital sign and position sensing , ¡± in 2013 IEEE MTT-S International Microwave Symposium Digest ( MTT )
pp . 1 ? 4 [2013]
¡°Cmos interfacing for integrated gas sensors : A review
vol . 10 , no . 12 , pp . 1833 ? 1848 [2010]
¡°Carbon-nanotube loaded antenna-based ammonia gas sensor , ¡± IEEE Transactions on Microwave Theory and Techniques
vol . 59 , no . 10 , pp . 2665 ? 2673 [2011]
¡°Blind separation of human heartbeats and breathing by the use of a doppler radar remote sensing , ¡± in 2007 IEEE InternationalConference on Acoustics , Speech and Signal Processing-ICASSP¡¯07
vol . 1 , pp . I ? 333 [2007]
¡°Asymmetric split-ring resonator-based biosensor for detection of label-free stress biomarkers
vol . 103 , no . 5 , p. 053702 [2013]
¡°Application ofConducting polymers to biosensors
vol . 17 , no . 5 , pp . 345 ? 359 [2002]
¡°Advanced non-contact near-field proximity vital sign sensor using phase locked loop , ¡± in 2013 European MicrowaveConference
pp . 605 ? 608 [2013]
¡°Adaptive noiseCancellation for two frequency radar using frequency doubling passive rf tags ,
vol . 61 , no . 8 , pp . 2975 ? 2981 [2013]
¡°Adaptive harmonicsComb notch digital filter for measuring heart rate of laboratory rat using a 60-ghz radar ,
[2016]
¡°A study of locking phenomena in oscillators
vol . 61 , no . 10 , pp . 1380 ? 1385 [1973]
¡°A rigorous analysis of a phase-locked oscillator under injection
vol . 58 , no . 5 , pp . 1391 ? 1400 [2010]
¡°A review on recent advances in doppler radar sensors for noncontact healthcare monitoring ,
vol . 61 , no . 5 , pp . 2046 ? 2060 [2013]
¡°A review of non-contact , low-cost physiological information measurement based on photoplethysmographic imaging , ¡± in 2012 Annual InternationalConference of the IEEE Engineering in Medicine and Biology Society
pp . 2088 ? 2091 [2012]
¡°A reflection type gas sensor usingConducting polymer as a variable impedance at microwave frquencies
[2014]
¡°A realtime humidity sensor based on a microwave oscillator withConducting polymer pedot : Pss film
vol . 282 , pp . 145 ? 151 [2019]
¡°A planar split-ring resonator-based microwave biosensor for label-free detection of biomolecules
vol . 169 , pp . 26 ? 31 [2012]
¡°A planar mics band antennaCombined with a bodyChannelCommunication electrode for body sensor network
vol . 57 , no . 10 , pp . 2515 ? 2522 [2009]
¡°A novel vital-sign sensor based on a self-injection-locked os85cillator ,
vol . 58 , no . 12 , pp . 4112 ? 4120 [2010]
¡°A labelfree biosensing platform using a pllCircuit and biotin-streptavidin binding system ,
vol . 9 , no . 3 , pp . 345 ? 352 [2014]
¡°A high-q resonator using biocompatible materials at microwave frequencies
vol . 104 , no . 2 , p. 023509 [2014]
¡°A gas sensor using double split-ring resonatorCoated withConducting polymer at microwave frequncies
[2014]
¡°A biomolecular sensing platform using rf active system
vol . 12 , no . 4 , pp . 227 ? 233 [2012]
resonant sensor for gaseous ethanol and interferents detection ,
vol . 230 , pp . 63 ? 73 [2015]
acia , ` C. Cane , and E. Figueras , Fine-tuning of the resonant frequency using a hybrid ¢¥
detection , ¡± Sensors and Actuators B : Chemical , vol . 103
[90] S. Leonhardt and A. Aleksandrowicz, ¡°Non-contact ecg monitoring for automotive application,¡± in 2008 5th International Summer School and Symposium on Medical Devices and Biosensors, pp. 183?185, IEEE, 2008.
[85] A. Schafer and J. Vagedes, ¡°How accurate is pulse rate variability as an esti- ¡§ mate of heart rate variability?: A review on studies comparing photoplethysmographic technology with an electrocardiogram,¡± International journal of cardiology, vol. 166, no. 1, pp. 15?29, 2013.
[82] Y. Mendelson and B. D. Ochs, ¡°Noninvasive pulse oximetry utilizing skin reflectance photoplethysmography,¡± IEEE Transactions on Biomedical Engineering, vol. 35, no. 10, pp. 798?805, 1988.
[78] F. W. Grover, Inductance calculations: working formulas and tables. Courier Corporation, 2004.
[69] F. Musio, M. E. Amrani, and K. C. Persaud, ¡°High-frequency ac investigation of conducting polymer gas sensors,¡± Sensors and Actuators B: Chemical, vol. 23, no. 2-3, pp. 223?226, 1995.
[68] M. E. Amrani, M. S. Ibrahim, and K. C. Persaud, ¡°Synthesis, chemical characterisation and multifrequency measurements of poly n-(2-pyridyl) pyrrole for sensing volatile chemicals,¡± Materials Science and Engineering: C, vol. 1, no. 1, pp. 17? 22, 1993.
[67] S. Navale, G. Khuspe, M. Chougule, and V. Patil, ¡°Polypyrrole, ¥á-fe2o3 and their hybrid nanocomposite sensor: an impedance spectroscopy study,¡± Organic Electronics, vol. 15, no. 10, pp. 2159?2167, 2014.
[66] Y. Seekaew, S. Lokavee, D. Phokharatkul, A. Wisitsoraat, T. Kerdcharoen, and C. Wongchoosuk, ¡°Low-cost and flexible printed graphene?pedot: Pss gas sensor for ammonia detection,¡± Organic Electronics, vol. 15, no. 11, pp. 2971?2981, 2014.
[62] J. Janata and M. Josowicz, ¡°Conducting polymers in electronic chemical sensors,¡± Nature materials, vol. 2, no. 1, p. 19, 2003.
[60] B.-H. Kim, Y. Hong, Y.-J. An, S.-G. Kim, H.-J. Lee, S.-W. Kim, S.-B. Hong, G.- H. Yun, and J.-G. Yook, ¡°A proximity coupling rf sensor for wrist pulse detection based on injection-locked pll,¡± IEEE Transactions on Microwave Theory and Techniques, vol. 64, no. 5, pp. 1667?1676, 2016.
[52] G. J. Foschini, ¡°Layered space-time architecture for wireless communication in a fading environment when using multi-element antennas,¡± Bell labs technical journal, vol. 1, no. 2, pp. 41?59, 1996.
[4] R. Stojanovic and D. Karadaglic, ¡°A led?led-based photoplethysmography sensor,¡± Physiological measurement, vol. 28, no. 6, p. N19, 2007.
[43] L. Paciorek, ¡°Injection locking of oscillators,¡± Proceedings of the IEEE, vol. 53, no. 11, pp. 1723?1727, 1965.
[42] K. Kurokawa, ¡°Injection locking of microwave solid-state oscillators,¡± Proceedings of the IEEE, vol. 61, no. 10, pp. 1386?1410, 1973.
[37] U. L. Rohde, ¡°Designing saw resonators and dro oscillators using nonlinear cad tools,¡± in Proceedings of the 1995 IEEE International Frequency Control Symposium (49th Annual Symposium), pp. 379?396, IEEE, 1995.
[35] R. Rhea, Oscillator design andComputer simulation. The Institution of Engineering and Technology, 1995.
[1995]
[2] L. Lindberg, T. Tamura, and P. Oberg, ¡°Photoplethysmography,¡± ¡§ Medical and Biological Engineering and Computing, vol. 29, no. 1, pp. 40?47, 1991.
[27] J. McLaughlin, M. McNeill, B. Braun, and P. McCormack, ¡°Piezoelectric sensor determination of arterial pulse wave velocity,¡± Physiological measurement, vol. 24, no. 3, p. 693, 2003.
vol . 24 , no . 3 , p. 693 [2003]
[23] J. Spigulis, ¡°Optical noninvasive monitoring of skin blood pulsations,¡± Appl. Opt., vol. 44, pp. 1850?1857, Apr 2005.
[1] A. Kamal, J. Harness, G. Irving, and A. Mearns, ¡°Skin photoplethysmography?a review,¡± Computer methods and programs in biomedicine, vol. 28, no. 4, pp. 257? 269, 1989.
[18] R. A. Potyrailo and W. G. Morris, ¡°Multianalyte chemical identification and quantitation using a single radio frequency identification sensor,¡± Analytical chemistry, vol. 79, no. 1, pp. 45?51, 2007.
N. Kannathal , C. M. Lim , and J. S. Suri , ¡°Heart rate variability : a review
vol . 44 , no . 12 , pp . 1031 ? 1051 [2006]
Lumped Elements for RF and Microwave Circuits ,
[2003]
Foundations of oscillator circuit design
[2007]
Dry-contact and noncontact biopotential electrodes : methodological review
vol . 3 , pp . 106 ? 119 [2010]
A. M. Rule , P. N. Breysse , I. J. Kymissis , and H. E. Katz , Printable ammonia sensor based on organic field effect transistor
vol . 15 , no . 11 , pp . 3221 ? 3230 [2014]
A study of injection locking and pulling in oscillators
vol . 39 , no . 9 , pp . 1415 ? 1424 [2004]

Proximity vital sign sensor using dual-PLL system and real-time gas sensor based on PEDOT:PSS

유사주제 논문( 309)

' Proximity vital sign sensor using dual-PLL system and real-time gas sensor based on PEDOT:PSS' 의 주제별 논문영향력

주제별 논문영향력

' Proximity vital sign sensor using dual-PLL system and real-time gas sensor based on PEDOT:PSS' 의 참고문헌

' Proximity vital sign sensor using dual-PLL system and real-time gas sensor based on PEDOT:PSS' 의 유사주제( ) 논문