曾昭雄 Chao-Hsiung Tseng | |
---|---|
Position | |
Distinguished Professor | |
Education | |
PhD., Communication Engineering, National Taiwan University | |
chtseng(at)ieee.org | |
Room | |
EE707 |
Office Hours | Thu. pm3:30~5:00 [Please make an appointment by email.] |
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Telephone | 886-2-27376416 |
Homepage | https://scholar.google.com.tw/citations?user=mGSyN60AAAAJ&hl=zh-TW (Google Scholar Profile) |
Laboratory | Microwave Electronics Laboratory (EE-704) |
Major Field | RF Biomedical sensor and its signal processing, Noncontact vital-sign radar sensor, microwave circuits and modules |
Course | [Undergraduate] Digital Signal Processing Laboratory, Radio-Frequency Module Laboratory, Electromagnetics, Electromagnetic Wave, Basic Circuit Theory (1)(2), Introduction to Radio-Frequency Systems, Microwave Engineering [Graduate] Special Topics on |
2021.01 ~ now | Distinguished Professor, Electronic and Computer Engineering, National Taiwan University of Science and Technology |
2013.11 ~ 2014.02 | Visiting Professor, Electrical & Computer Engineering, University of Florida |
2013.02 ~ 2021.01 | Professor, Electronic and Computer Engineering, National Taiwan University of Science and Technology |
2012.08 ~ 2013.07 | Chair, Inter-Disciplinary Bachelor's Program, National Taiwan University of Science and Technology |
2011.08 ~ 2012.07 | Vice Chair, Electronic Engineering, National Taiwan University of Science and Technology |
2008.08 ~ 2013.01 | Associate Professor, Electronic Engineering, National Taiwan University of Science and Technology |
2006.08 ~ 2008.08 | Assistant Professor, Electronic Engineering, National Taiwan University of Science and Technology |
2005.08 ~ 2006.07 | Visiting Scholar, Electrical Engineering, University of California, Los Angeles |
2004.08 ~ 2005.07 | Adjunct Assistant Professor, Electronic Engineering, National Taipei University of Technology |
2004.02 ~ 2006.07 | Postdoctoral Research Fellow, Electrical Engineering, National Taiwan University |
2003.09 ~ 2004.01 | Adjunct Lecturer, Electrical Engineering, Chung-Hwa Institute of Technology |
2001.08 ~ 2002.07 | Full-Time Teaching Assistant for Electromagnetic Wave Laboratory, Electrical Engineering, National Taiwan University |
1999.11 ~ 2000.08 | Associate Microwave Researcher, Center for Measurement Standards, Industrial Technology Research Institute |
2022 | Excellent Teaching Award of National Taiwan University of Science and Technology |
2022 | World’s Top 2% Scientists 2021 |
2021 | Outstanding Academic Research Award of National Taiwan University of Science and Technology |
2020 | Excellent Academic Research Award of National Taiwan University of Science and Technology |
2018 | Outstanding Teaching Award of National Taiwan University of Science and Technology |
2016 | IEEE Senior Member |
2014 | Excellent Teaching Award of National Taiwan University of Science and Technology |
2012 | Award of Innovative Teaching Methodology, National Taiwan University of Science and Technology |
2012 | Excellent Research and Creation Award of National Taiwan University of Science and Technology |
2008 | Excellent Teaching Award of National Taiwan University of Science and Technology |
2008 | Best Paper Award, International Symposium on Antennas and Propagation (ISAP) |
2005 | National Science Council Financial Support for Visiting UCLA |
2003 | Taiwan EMC Conference Student Paper Award |
2001 | Taiwan Ericsson Ph.D. Student Scholarship |
1992 | Outstanding College Youth |
[1] | C.-H. Tseng and C.-Y. Yang, “Novel microwave frequency-locked-loop-based sensor for complex permittivity measurement of liquid solutions,” IEEE Trans. Microw. Theory Techn., accepted for publication. |
[2] | C.-H. Tseng and Y.-T. Lee, “Microwave near-field self-injection-locked wrist pulse sensor with Mohr- discriminator demodulator,” IEEE Microw. Wireless Compon. Lett., vol. 32, no. 3, pp. 202–205, Mar. 2022. |
[3] | T.-K. Nguyen and C.-H. Tseng, “A new microwave humidity sensor with near-field self-injection-locked technology,” IEEE Sensors J., vol. 21, no. 19, pp. 21520-21528, Oct. 2021. |
[4] | F.-K. Wang, C.-T. M. Wu, T.-S. Horng, C.-H. Tseng, S.-H. Yu, C.-C. Chang, “Review of self-injection-locked radar systems for noncontact detection of vital signs,” IEEE J. Electromagn., RF, Microw. Med. Biol., vol. 4, no. 4, pp. 294–307, Dec. 2020. |
[5] | C.-H. Tseng, T.-J. Tseng and C.-Z. Wu, “Cuffless blood pressure measurement using a microwave near-field self-injection-locked wrist pulse sensor,” IEEE Trans. Microw. Theory Techn., vol. 68, no. 11, pp. 4865–4874, Nov. 2020. |
[6] | C.-H. Tseng and C.-Z. Wu, “A novel microwave phased- and perturbation-injection-locked sensor with self-oscillating complementary split-ring resonator for finger and wrist pulse detection,” IEEE Trans. Microw. Theory Techn., vol. 68, no. 5, pp. 1933–1942, May 2020. |
[7] | Y. Yuan, C. Lu, A. Y.-K. Chen, C.-H. Tseng, C.-T. M. Wu, “Concurrent vital sign and location detection for multi-target using metamaterial-integrated self-injection-locked quadrature radar sensor,” IEEE Trans. Microw. Theory Techn., vol. 67, no. 12, pp. 5429–5437, Dec. 2019. |
[8] | C.-H. Tseng and Y.-H. Lin, “24-GHz self-injection-locked vital-sign radar sensor with CMOS injection-locked frequency divider based on push-push oscillator topology,” IEEE Microw. Wireless Compon. Lett., vol. 28, no. 11, pp. 1053–1055, Nov. 2018. |
[9] | C.-H. Tseng, L.-T. Yu, J.-K. Huang, and C.-L. Chang, “A wearable self-injection-locked sensor with active integrated antenna and differentiator-based envelope detector for vital-sign detection from chest wall and wrist,” IEEE Trans. Microw. Theory Techn., vol. 66, no. 5, pp. 2511–2521, May 2018. |
[10] | C.-H. Tseng, and T.-S. Huang, “Microwave voltage-controlled oscillator with harmonic-suppressed stepped-impedance resonator filter,” IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 64, no. 5, pp. 520-524, May 2017. (SCI, EI) (MOST 104-2221-E-011-031). |
[11] | M.-D. Wei, Y.-T. Chang, D. Wang, C.-H. Tseng, and R. Negra, “Balanced RF rectifier for energy recovery with minimized input impedance variation,” IEEE Trans. Microw. Theory Tech., vol. 65, no. 5, pp. 1598-1604, May 2017. (SCI, EI) |
[12] | C.-H. Tseng, and Y.-T. Chen, “Design and implementation of new 3-dB interdigitated quadrature couplers using PCB and silicon-based IPD technologies,” IEEE Trans. Compon., Packag., Manuf. Technol., vol. 6, no. 5, pp. 675-682, May 2016. (SCI, EI) (MOST 104-2221-E-011-031). |
[13] | C.-H. Tseng, C.-H. Mou, C.-C. Lin, and C.-H. Chao, “Design of microwave dual-band rat-race couplers in PCB and GIPD technologies,” IEEE Trans. Compon., Packag., Manuf. Technol., vol. 6, no. 2, pp. 262-271, Feb. 2016. (SCI, EI) (MOST 104-2221-E-011-031) |
[14] | C.-H. Chao, T.-W. Hsu, and C.-H. Tseng, “Giving Doppler more bounce: A 5.8 GHz microwave high-sensitivity Doppler radar system,” IEEE Microw. Mag., vol. 17, no. 1, pp. 52-57, Jan. 2016. (SCI, EI) (MOST 103-2221-E-011-015). |
[15] | C.-L. Chang, C.-H. Tseng, and Hong-Yeh Chang, “A new monolithic Ka-band filter-based voltage-controlled oscillator using 0.15-um GaAs pHEMT technology,” IEEE Microw. Wireless Compon. Lett., vol. 24, no. 2, pp. 111-113, Feb. 2014. (SCI, EI) (NSC 102-2221-E-011-012) |
[16] | C.-L. Chang and C.-H. Tseng, “A new compact Ka-band CPW rat-race coupler using GaAs MMIC technology,” Electronics Lett., vol. 49, no. 19, pp. 1227-1229, Sep. 2013. (SCI, EI) (NSC 101-2221-E-011-080) |
[17] | C.-L. Chang and C.-H. Tseng, “A new compact Wilkinson power divider using two-section symmetrical T-structures,” Electronics Lett., vol. 49, no. 8, Apr. 2013. (SCI, EI) (NSC 101-2221-E-011-080) |
[18] | C.-H. Tseng, Y.-W. Huang, and C.-L. Chang, “Microwave low phase-noise oscillators using T-shaped stepped-impedance-resonator filters,” IET Microw. Antennas Propag., vol. 6, no. 12, pp. 1374-1380, 2012. (SCI, EI) (NSC 101-2221-E-011-080) |
[19] | C.-H. Tseng and C.-L. Chang, “Design of low phase-noise microwave oscillator and wideband VCO based on microstrip combline bandpass filters,” IEEE Trans. Microw. Theory Tech., vol. 60, no. 10, pp. 3151-3160, Oct. 2012. (SCI, EI) (NSC 101-2221-E-011-080) |
[20] | C.-H. Tseng and C.-H. Wu, “Design of compact branch-line couplers using π-equivalent artificial transmission lines,” IET Microw. Antennas Propag., vol. 6, no. 9, pp. 969-974, 2012. (SCI, EI) (NSC 100-2628-E-011-005) |
[21] | C.-H. Tseng and C.-L. Chang, “A rigorous design methodology for compact planar branch-line and rat-race couplers with asymmetrical T-structures,” IEEE Trans. Microw. Theory Tech., vol. 60, no. 7, pp. 2085-2092, Jul. 2012. (SCI, EI) (NSC 100-2628-E-011-005) |
[22] | C.-L. Chang and C.-H. Tseng, “Design of low phase-noise oscillator and voltage-controlled oscillator using microstrip trisection bandpass filter,” IEEE Microw. Wireless Compon. Lett., vol. 21, no. 11, pp. 622-624, Nov. 2011. (SCI, EI) (NSC 100-2628-E-011-005) |
[23] | C.-H. Tseng and Y.-C. Hsiao, “A new broadband Marchand balun using slot-coupled microstrip lines,” IEEE Microw. Wireless Compon. Lett., vol. 20, no. 3, pp. 157-159, Mar. 2010. (SCI, EI) (NSC 97-2221-E-011-020-MY2) |
[24] | C.-H. Tseng and H.-Y. Shao, “A new dual-band microstrip bandpass filter using net-type resonators,” IEEE Microw. Wireless Compon. Lett., vol. 20, no. 4, pp. 196-198, Apr. 2010. (SCI, EI) (NSC 97-2221-E-011-020-MY2, NSC 98-3114-P-011-001-Y) |
[25] | C.-H. Tseng and C.-H. Wu, “Compact planar Wilkinson power divider using π-equivalent shunt-stub-based artificial transmission lines,” Electronics Lett., vol. 46, no. 19, pp. 1327 - 1328, Sep. 2010. (SCI, EI) (NSC 99-2628-E-011-002) |
[26] | C.-H. Tseng, “Compact LTCC rat-race couplers using multilayered phase-delay and phase-advance T-equivalent sections,” IEEE Trans. Adv. Packag., vol. 33, no. 2, pp. 543-551, May 2010. (SCI, EI) (NSC 97-2221-E-011-020-MY2) |
[27] | C.-H. Tseng and H.-J. Chen, “Compact rat-race coupler using shunt-stub-based artificial transmission lines,” IEEE Microw. Wireless Compon. Lett., vol. 18, no. 11, pp. 734-736, Nov. 2008. (SCI, EI) (NSC 96-2221-E-011-009) |
[28] | C.-H. Tseng and C.-L. Chang, “An image reject mixer with composite right/left-handed quadrature power splitter and IF hybrid,” J. Electromagn. Waves Appl., vol. 22, pp. 1557-1564, 2008. (SCI, EI) (NSC 96-2221-E-011-009) |
[29] | C.-H. Tseng and C.-L. Chang, “Improvement of return loss bandwidth of balanced amplifier using metamaterial-based quadrature power splitters,” IEEE Microw. Wireless Compon. Lett., vol. 18, no. 4, pp. 269-271, Apr. 2008. (SCI, EI) (NSC 95-2218-E-011-022, NSC 96-2221-E-011-009) |
[30] | C.-H. Tseng and C.-L. Chang, “A broadband quadrature power splitter using metamaterial transmission line,” IEEE Microw. Wireless Compon. Lett., vol. 18, no. 1, pp. 25-27, Jan. 2008. (SCI, EI) (NSC 95-2218-E-011-022) |
[31] | C.-H. Tseng and T.-G. Ma, “Measurement of differential-mode and common-mode scattering parameters of symmetric coupled-line discontinuity structure,” IET Microw. Antennas Propag., vol. 2, no. 3, pp. 242-247, Apr. 2008. (SCI, EI) |
[32] | C.-H. Tseng, C.-J. Chen, and T.-H. Chu, “A Low-Cost 60-GHz Switched-Beam Patch Antenna Array with Butler Matrix Network,” IEEE Antennas Wireless Propag. Lett., vol. 7, pp. 432-435, 2008. (SCI, EI) (NSC 96-2752-E-002-004-PAE) |
[33] | C.-H. Tseng and C.-L. Chang, “Wide-band balun using composite right-/left-handed transmission line,” Electronics Lett., vol. 43, no. 21, pp. 1154-1155, Oct. 2007. (SCI, EI) (NSC 95-2218-E-011-022) |
[34] | C.-H. Tseng and T.-H. Chu, “Measurement of frequency-dependent equivalent width of substrate integrated waveguide,” IEEE Trans. Microw. Theory Tech., vol. 54, no. 4, pp. 1431-1437, Apr. 2006. (SCI, EI) (NSC 94-2752-E-002-004-PAE, NSC93-2213-E-002-005) |
[35] | T.-G. Ma and C.-H. Tseng, “An ultrawideband coplanar waveguide-fed tapered ring slot antenna,” IEEE Trans. Antennas Propag., vol. 54, no. 4, pp.1105-1110, Apr. 2006. (SCI, EI) |
[36] | C.-H. Tseng and T.-H. Chu, “Three frequency-swept microwave imaging arrangements of conducting objects using multi-source illumination,” Bulletin of the College of Engineering of National Taiwan University, no. 95, pp.35-42, Oct. 2005. (NSC 94-2213-E-002-010, NSC 94-2752-E-002-004-PAE) |
[37] | C.-H. Tseng and T.-H. Chu, “An effective usage of vector network analyzer for microwave imaging,” IEEE Trans. Microw. Theory Tech., vol. 53, no. 9, pp. 2884-2891, Sep. 2005. (SCI, EI) (NSC 93-2213-E-002-035, NSC 93-2752-E-002-004-PAE) |
[38] | C.-F. Chen, T.-Y. Huang, C.-H. Tseng, R.-B. Wu, and T.-W. Chen, “A miniaturized multi-layer quasi-elliptic bandpass filter with aperture-coupled microstrip resonators,” IEEE Trans. Microw. Theory Tech., vol. 53, no. 9, pp. 2688-2692, Sep. 2005. (SCI, EI) (NSC 93-2752-E-002-003-PAE) |
[39] | C.-H. Tseng and T.-H. Chu, “Improvement of quasi-monostatic frequency-swept microwave imaging of conducting objects using illumination diversity technique,” IEEE Trans. Antennas Propag., vol. 53, no. 1, pp.305-312, Jan. 2005. (SCI, EI) (NSC 92-2213-E-002-071, NSC 93-2752-E-002-003-PAE) |
[40] | C.-H. Tseng and T.-H. Chu, “Principle and results of microwave diversity imaging of conducting objects using multi-source illumination,” IEE Proc.-Microw., Antennas Propag., vol.151, no.2, pp. 149-155, Apr. 2004. (SCI, EI) (NSC 91-2219-E-002-030) |
[41] | T.-H. Chu, C.-H. Tseng, S. D. Yang and C.I. Chi, “A Ka-band receiving terminal for measuring ROCSAT-1 ECP beacon signal”, Journal of the Chinese Institute of Engineers, vol. 24, no. 1, pp.29-36, Jan., 2001. (SCI, EI) (NSC 84-NSPO-A-RDD-002-01, NSC 85-NSPO-A-RDD-002-01) |
[1] | T.-J. Tseng and C.-H. Tseng, “Noncontact wrist pulse waveform detection using 24-GHz continuous-wave radar sensor for blood pressure estimation” accepted to present in 2020 IEEE MTT-S Int. Microwave Symp. |
[2] | C.-Z. Wu and C.-H. Tseng, “A microwave perturbation-injection-locked sensor for wrist pulse detection,” in Proc. 31th Asia-Pacific Microwave Conf., Singapore, Dec. 2019. (EI) (MOST 107-2221-E-011-049) |
[3] | C.-Z. Wu and C.-H. Tseng, “A perturbation-injection-locked sensor with self-oscillating active CSRR for vital-sign detection from fingertip” in IEEE MTT-S Int. Microwave Symp. Dig., Boston, MA, USA, Jun. 2019. (EI) (MOST 107-2221-E-011-049) |
[4] | R. E. Arif, M.-C. Tang, W.-C. Su, T.-S. Horng, F.-K. Wang and C.-H. Tseng, “Designing a metasurface-based tag antenna for wearable vital-sign sensors” in IEEE MTT-S Int. Microwave Symp. Dig., Boston, MA, USA, Jun. 2019. |
[5] | Y. Yuan, C. Lu, A. Y.-K. Chen, C.-H. Tseng. C.-T. M. Wu, “Noncontact multi-target vital sign detection using self-injection-locked radar sensor based on metamaterial leaky wave antenna” in IEEE MTT-S Int. Microwave Symp. Dig., Boston, MA, USA, Jun. 2019. |
[6] | C. Lu, Y. Yuan, C.-H. Tseng and C.-T. M. Wu, “Multi-target continuous-wave vital sign radar using 24 GHz metamaterial leaky wave antennas,” in Proc. Int. Microwave Biomedical Conf. (IMBioC), Nanjing, China, May 2019. |
[7] | C. Lu, Y. Yuan, C.-H. Tseng and C.-T. M. Wu, “Multi-target motion detection radar sensor using 24 GHz metamaterial leaky wave antennas,” in Proc. Int. Conf. Microwaves for Intelligent Mobility (ICMIM), Detroit, USA, Apr. 2019. |
[8] | C.-H. Tseng J.-Y. Huang, and C.-H. Tseng, “Design of planar 8-by-16 Butler matrix for 16-element switch-beam antenna array,” in Proc. 30th Asia-Pacific Microwave Conf., Kyoto, Japan, Nov. 2018. |
[9] | C.-H. Tseng J.-Y. Huang, and C.-H. Tseng, “An X-band 16-element switched-beam antenna array with Butler matrix network,” present in 2018 Progress in Electromagnetic Research Progress Symposium (PIERS 2016), Toyama, Japan, Aug., 2018. |
[10] | C.-H. Tseng and L.-T. Yu, “Self-injection-locked AIA radar sensor using PLL demodulator for noncontact vital sign detection,” in IEEE MTT-S Int. Microwave Symp. Dig., Philadelphia, PA, USA, Jun. 2018. |
[11] | C.-H. Tseng and L.-T. Yu, “Self-injection-locked radar sensor with active-integrated-antenna and differentiator-based demodulator for noncontact vital sign detection,” in Proc. IEEE Topical Conf. Sensors and Sensor Networks (WiSNet), Anaheim, CA, USA, Jan. 2018. (EI)(MOST 106-3114-E-011-002.) |
[12] | C.-H. Tseng, J.-K. Huang, L.-T. Yu, and C.-L. Chang, “A cost-effective wearable vital-sign sensor with self-oscillating active antenna based on envelope detection technique,” in IEEE MTT-S Int. Microwave Symp. Dig., Honolulu, HI, USA, Jun. 2017. (EI)(MOST 105-2221-E-011- 028) |
[13] | C.-H. Tseng and S.-T. Huang, “Hand-gesture sensing Doppler radar with metamaterial-based leaky-wave antennas,” in Proc. Int. Conf. Microwaves for Intelligent Mobility (ICMIM), Nagoya, Japan, Mar. 2017. (EI)(MOST 105-2221-E-011- 028) |
[14] | T.-W. Hsu and C.-H. Tseng, “Compact 24-GHz Doppler radar Module for non-contact human vital-sign detection,” in Proc. International Symp. on Antennas Propag., Okinawa, Japan, Oct. 2016. (MOST 104-2221-E-011-031) |
[15] | J.-K. Huang, and C.-H. Tseng, “A 5.8-GHz radar sensor chip in 0.18-um CMOS for non-contact vital sign detection,” in Proc. IEEE Int. Symp. Radio-Frequency Integration Tech., Taipei, Taiwan, Aug. 2016. (invited paper) (MOST 104-2221-E-011-031) |
[16] | C.-L. Chang, and C.-H. Tseng, “Design of 38-GHz branch-line coupler in glass-substrate passive device technology,” in Proc. IEEE Int. Symp. Radio-Frequency Integration Tech., Taipei, Taiwan, Aug. 2016. (MOST 104-2221-E-011-031) |
[17] | C.-H. Tseng and C.-H. Chao, “Noncontact vital-sign radar sensor using metamaterial-based scanning leaky-wave antenna,” in IEEE MTT-S Int. Microwave Symp. Dig., San Francisco, CA, USA, May 2016. (EI)(MOST 104-2221-E-011-031) |
[18] | S.-H. Chang, J.-K. Huang, and C.-H. Tseng, “A 5.8-GHz CMOS low-power active mixer featuring high conversion gain and low LO driving power,” in Proc. 27th Asia-Pacific Microwave Conf., Nanjing, China, Dec. 2015. (EI) (MOST 103-2221-E-011-015) |
[19] | J.-K. Huang and C.-H. Tseng, “Design of a 5.8-GHz CMOS low-power active mixer,” in Proc. National Symp. on Telecommunications, Taoyuan, Taiwan, Nov. 2015. (MOST 103-2221-E-011-015) |
[20] | M.-D. Wei, Y.-J. Lin, C.-H. Tseng and R. Negra, “V-band current-reuse VCO,” accepted to present in IEEE Mediterranean Microwave Symp., Lecce, Italy, Nov. 2015. |
[21] | M.-D. Wei, Y.-T. Chen, S. Qayyum, C.-H. Tseng and R. Negra, “Wideband six-port receiver using elliptical microstrip-slot directional couplers,” in IEEE MTT-S Radio Wireless Symp., Dan Diego, CA, USA, Jan. 2015. |
[22] | Y.-T. Chen, C.-L. Chang and C.-H. Tseng, “A compact X-band CPW branch-line coupler using glass integrated passive device (GIPD) technology” in Proc. 25th Asia-Pacific Microwave Conf., Seoul, Korea, Nov. 2013, pp.276-278. (EI) (NSC 101-2221-E-011-080) |
[23] | Y.-T. Chen, C.-L. Chang and C.-H. Tseng, “Microwave 3-dB four-conductor quadrature coupler based on asymmetrical CPW coupled lines” in Proc. 43th European Microwave Conf., Nuremberg, Germany, Oct. 2013, pp.291-293. (EI) (NSC 101-2221-E-011-080) |
[24] | C.-L. Chang , C.-H. Lu , and C.-H. Tseng, “Design of low phase-noise voltage-controlled oscillator based on microstrip combline filter” in Proc. 2013 Asia-Pacific Radio Science Conf. (AP-RASC), Taipei, Taiwan, Sep. 2013. |
[25] | M. Daud and C.-H. Tseng, “Phase-noise improvement of microwave feedback oscillator using shunt-stub-based ring resonator,” in IEEE MTT-S Int. Microwave Symp. Dig., Seattle, WA, USA, Jun. 2013. (EI) (NSC 100-2628-E-011-005) |
[26] | C.-H. Lu, P.-H. Tu, and C.-H. Tseng, “A miniaturized rat-race coupler with arbitrary power division using dual transmission lines,” in Proc. 24th Asia-Pacific Microwave Conf., Kaohsiung, Taiwan, Dec. 2012, pp.1007-1009. (EI) (NSC 100-2628-E-011-005) |
[27] | C.-H. Mou and C.-H. Tseng, “A new passive isolation component using slot-coupled microstrip lines for simultaneously transmitting and receiving applications,” in Proc. 24th Asia-Pacific Microwave Conf., Kaohsiung, Taiwan, Dec. 2012, pp.1193-1195. (EI) (NSC 100-2628-E-011-005) |
[28] | C.-L. Chang and C.-H. Tseng, “Design of low phase-noise microwave oscillators using two-pole coupled-resonator filters with electric, magnetic, and mixed couplings,” in Proc. 24th Asia-Pacific Microwave Conf., Kaohsiung, Taiwan, Dec. 2012, pp.1106-1108. (EI) (NSC 100-2628-E-011-005) |
[29] | C.-C. Lin and C.-H. Tseng, “Metamaterial-based Wilkinson balun using asymmetrical T-structure power divider for improving phase response flatness,” in Proc. 24th Asia-Pacific Microwave Conf., Kaohsiung, Taiwan, Dec. 2012, pp.19-21. (EI) (NSC 100-2628-E-011-005) |
[30] | C.-L. Chang, C.-H. Wu and C.-H. Tseng, “A miniaturized electronic beam-scanning phased-array antenna for radio-frequency identification (RFID) applications,” in Proc. International Conf. on Anti-counterfeiting, Security, and Identification, Taipei, Taiwan, Aug. 2012. (NSC 100-2628-E-011-005) |
[31] | C.-L. Chang and C.-H. Tseng, “A compact second harmonic-suppressed bandpass filter using π-equivalent transmission lines,” in Proc. 22nd Asia-Pacific Microwave Conf., Yokohama, Japan, Dec. 2010, pp. 837-840. (EI) (NSC 97-2221-E-011-020-MY2) |
[32] | C.-H. Wu and C.-H. Tseng, “A compact branch-line coupler using π-equivalent shunt-stub-band artificial transmission lines,” in Proc. 22nd Asia-Pacific Microwave Conf., Yokohama, Japan, Dec. 2010, pp. 802-805. (EI) (NSC 97-2221-E-011-020-MY2) |
[33] | P.-H. Tu and C.-H. Tseng, “Design of a compact rat-race coupler using dual transmission lines,” in Proc. 22nd Asia-Pacific Microwave Conf., Yokohama, Japan, Dec. 2010, pp. 1224-1227. (EI) (NSC 97-2221-E-011-020-MY2). |
[34] | C.-H. Mou and C.-H. Tseng, “A bandwidth-enhanced 3-dB lumped-element branch-Line coupler based on asymmetrical E-equivalent sections,” accepted to present in Proc. 23nd Asia-Pacific Microwave Conf.. (EI) (NSC 100-2628-E-011-005) |
[35] | C.-L. Chang and C.-H. Tseng, “Design of microwave oscillator and voltage-controlled oscillator with second and third harmonic suppressions,” accepted to present in Proc. 23nd Asia-Pacific Microwave Conf.. (EI) (NSC 100-2628-E-011-005) |
[36] | C.-H. Wu and C.-H. Tseng, “Design of compact 6-dB branch-line coupler using π-equivalent shunt-stub-based artificial transmission lines,” in Proc. National Symp. on Telecommunications, Taoyuan, Taiwan, Dec. 2010. (NSC 99-2628-E-011-002) [Best Student Paper Award] |
[37] | Y.-W. Huang, C.-L. Chang, and C.-H. Tseng, “Filter-based low phase-noise microwave oscillator,” in Proc. 22nd Asia-Pacific Microwave Conf., Yokohama, Japan, Dec. 2010, pp. 481-484. (EI) (NSC 97-2221-E-011-020-MY2) |
[38] | C.-H. Tseng and H.-Y. Shao, “Design of dual-band net-type bandpass filter,” in IEEE MTT-S Int. Microwave Symp. Dig., Anahiem, CA, USA, May 2010, pp.572-575. (EI) (NSC 97-2221-E-011-020-MY2) |
[39] | Y.-C. Hsiao and C.-H. Tseng, “Design of 60 GHz CMOS bandpass filters using complementary-conducting strip transmission lines,” in IEEE MTT-S Int. Microwave Symp. Dig., Anahiem, CA, USA, May 2010, pp.1712-1715. (EI) (NSC 97-2221-E-011-020-MY2) |
[40] | C.-H. Tseng and H.-J. Chen, “A low-cost switched-beam antenna for in-door wireless communications,” in Proc. Intelligent Buildings and Smart Homes Conf., Taipei, Taiwan, Nov. 2009, pp. 114-117. |
[41] | 陳明宏, 曾昭雄,“使用微波六埠網路研製測距雷達模組,” in Proc. National Symp. on Telecommunications, Yunlin, Taiwan, Dec. 2008. (NSC 95-2218-E-011-022) |
[42] | 林丁丙, 曾昭雄, 吳曉婷,“應用於數位電視接收之縮小化折疊偶極天線,” in Proc. National Symp. on Telecommunications, Yunlin, Taiwan, Dec. 2008, pp. 797-800. |
[43] | C.-H. Tseng and C.-L. Chang, “Microwave push-pull power amplifier using metamaterial-based baluns,” in Proc. 20th Asia-Pacific Microwave Conf., Hong Kong, China, Dec. 2008. (NSC 96-2221-E-011-009) |
[44] | C.-H. Tseng and C.-L. Chang, “A circularly-polarized microstrip antenna fed by composite right/left-handed quadrature power splitter,” in Proc. International Symp. on Antennas Propag., Taipei, Taiwan, Oct. 2008, pp.1168-1171. (NSC 96-2221-E-011-009) [Best Paper Award] |
[45] | S.-T. Wu, D.-B. Lin, and C-H Tseng, “Compact folded dipole antenna for DTV signal reception,” present in 2008 Progress in Electromagnetic Research Progress Symposium (PIERS 2008). |
[46] | C.-L. Chang and C.-H. Tseng, “Bandwidth-Enhanced Quadrature Power Splitter and Balun Using Metamaterial Transmission Lines,” in Proc. 19th Asia-Pacific Microwave Conf., Bangkok, Thailand, Dec. 2007, pp. 2777-2780. (EI) (NSC 95-2218-E-011-022) |
[47] | 張智林, 曾昭雄,“使用左手傳輸線研製具90度及180度相位差之寬頻微波功率分配器,” in Proc. National Symp. on Telecommunications, Taipei, Taiwan, Nov. 2007, pp. 762-765. (NSC 95-2218-E-011-022) |
[48] | C.-H. Tseng and T.-H. Chu, “Measurement of broadband dielectric constant using substrate integrated waveguide,” in Proc. 36th European Microwave Conf., Manchester, U.K., Sep. 2006, pp.392-394. (EI) (NSC 94-2752-E-002-004-PAE, NSC 94-2213-E-002-010) |
[49] | C.-H. Tseng and T. Itoh, “Dual-band bandpass and bandstop filters using composite right/left-handed metamaterial transmission line,” in IEEE MTT-S Int. Microwave Symp. Dig., San Francisco, CA, USA, Jun. 2006, pp.931-934. (EI) (NSC 94-2752-E-002-004-PAE, NSC 94-2917-I-002-029) |
[50] | S.-N. Hsieh, C.-H. Tseng and T.-H. Chu, “A three-element retro-directive antenna array,” in Proc. 17th Asia-Pacific Microwave Conf., Suzhou, China, Dec. 2005. (EI) |
[51] | S. N. Hsieh, C.-H. Tseng and T.-H. Chu, “A Retro-directive Antenna Array using 90? Hybrids,” USNC/ URSI National Radio Science Meeting, Washington DC, USA, Jul. 2005. (EI) |
[52] | C.-H. Tseng and T.-H. Chu, “Three frequency-swept microwave imaging arrangements of conducting objects using multi-source illumination,” Proc. National Symp. on Telecommunications, Keelung, Taiwan, Dec. 2004, pp. 1355-1360. (NSC 93-2213-E-002-035, NSC 93-2752-E-002-001-PAE) |
[53] | C.-H. Tseng and T.-H. Chu, “Measurement of flip-chip interconnects,” in Proc. 16th Asia-Pacific Microwave Conf., New Delhi, India, Dec. 2004. (EI) (NSC 93-2213-E-002-035, NSC 93-2752-E-002-003-PAE) |
[54] | P.-S. Wu, C.-H. Tseng, M.-F. Lei, T.-W. Huang, and H. Wang, “Three-dimensional X-band new transformer balun configuration using the multilayer ceramic technologies,” in Proc. 34th European Microwave Conf., Amsterdam, The Netherlands, Oct. 2004, pp.385-388. (EI) (NSC 93-2752-E-002-002-PAE, NSC 93-2219-E-002-024, NSC 92-2220-E-002-005) |
[55] | C.-H. Tseng and T.-H. Chu, “Multistatic microwave imaging of perfectly conducting objects,” USNC/ URSI National Radio Science Meeting, Monterey, CA, USA, Jun. 2004. (EI) |
[56] | P.-S. Wu, C.-H. Tseng, T.-W. Huang and H. Wang, "A singly balanced millimeter-wave mixer using a compact transformer," in Proc. 15th Asia-Pacific Microwave Conf., Seoul, Korea, Nov. 2003, pp. 649-652. (EI) (NSC 90-2219-E-002-007, NSC 89-2213-E-002-178) |
[57] | C.-H. Tseng and T.-H. Chu, “Characterizing single flip-chip transition using LRL de-embedding procedure,” in Proc. 15th Asia-Pacific Microwave Conf., Seoul, Korea, Nov. 2003, pp. 1507-1510. (EI) (NSC 91-2219-E-002-30) |
[58] | C.-H. Tseng and T.-H. Chu, “A new test set with 2-port stimulus for on-wafer S-parameter measurements,” in Proc. 15th Asia-Pacific Microwave Conf., Seoul, Korea, Nov. 2003, pp. 1090-1093. (EI) (NSC 91-2219-E-002-005) |
[59] | C.-H. Tseng and T.-H. Chu, “Improved measurement of differential type discontinuities using differential TRL calibration procedure,” in Proc. 5th Taiwan EMC Conf., Taipei, Taiwan, Oct. 2003, pp. 179-182. (NSC 91-2219-E-002-018) (Student Paper Award) |
[60] | C.-H. Tseng and T.-H. Chu, “A novel calibration method for 3-port vector network analyzer using 3-port calibrators,” in Proc. 5th Taiwan EMC Conf., Taipei, Taiwan, Oct. 2003, pp.183-186. NSC 91-2219-E-002-005) |
[61] | C.-H. Tseng and T.-H. Chu, “Quasi-monostatic microwave imaging using multi-source illumination,” in IEEE AP-S Int. Symp. Dig., Columbus, OH, USA, June 2003, pp.179-182. (EI) (NSC 91-2219-E002- 030) |
[62] | C.-H. Tseng and T.-H. Chu, “On TAN self-calibration for on-wafer S-parameter measurements,” in Proc. 14th Asia-Pacific Microwave Conf., Kyoto, Japan, Nov. 2002. (EI) |
[63] | C.-H. Tseng and T.-H. Chu, “Frequency-swept microwave imaging using multi-source illumination,” in IEEE AP-S Int. Symp. Dig., San Antonio, TX, USA, Jun. 2002, pp.330-333. (EI) |
[64] | 曾昭雄, 饒瑞榮, 薛文崇等,“自由空間天線量測與模擬,”in Proc. 2nd Taiwan EMC Conf., Taipei, Taiwan, Oct. 2000, pp. 102-107。 |
[65] | 薛文崇, 饒瑞榮, 曾昭雄, “電波暗室的特性評估技術,”in Proc. 2nd Taiwan EMC Conf., Taipei, Taiwan, Oct. 2000, pp. 284-287。 |
[66] | T.-H. Chu, C.-H. Tseng, S.-D. Yang and C.-I. Chi, "Development of ROCSAT-1 Ka-band beacon signal receiving terminal," Workshop of ROCSAT-1 Scientific Results, Taipei, Sept. 1999. |
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[8] | 曾昭雄、游立得,「非接觸式相位鎖定暨自我注入鎖定生理信號感測器」,台灣發明專利 (發明第I705795號,2020/10/1~2039/3/31) |
[9] | 李三良、曾昭雄、洪綾秀、許永和、陳正憲,「具人體生理訊號偵測功能的遠紅外線照射器及其操作方法」,台灣發明專利 (發明第I684470號,2020/2/11~2038/12/5) |
[10] | 曾昭雄、林沂樺,「非接觸式自我注入鎖定生理信號感測器」,台灣發明專利 (發明第I685205號,2020/2/11~2039/05/12) |
[11] | 曾昭雄、游立得、黃俊凱、張智林,「非接觸式自我注入鎖定感測器」,台灣發明專利 (發明第I642406號,2018/12/1~2037/12/11) |
[12] | 曾昭雄、張智林,「振盪器參數設計方法與應用其之微波振盪器及壓控振盪器」,台灣發明專利 (發明第I521858號,2016/2/11~2033/3/26) |
Title | Total Amount | Conduct From | Conduct Until | Client |
---|---|---|---|---|
[PI] Research and Development of Cuffless Blood Pressure Sensor Using Phase-Locked Self-Oscillating Metamaterial Resonator (MOST 109-2221-E-011-159) | 2,568,000 | 202008 | 202107 | MOST |
[PI] Research and Development of Cuffless Blood Pressure Sensor Using Self-Oscillating Metamaterial Resonator (MOST 108-2221-E-011-034) | 2,258,000 | 201908 | 202007 | MOST |
[PI] Research and Development of Noncontact Skin Conductance Sensing Radar with Self-Injection-Locked Technology for Emotion Physiological Response (MOST 107-2221-E-011-049) | 910000 | 20188 | 20197 | MOST |
[PI] Research and Development of Noncontact Human Skin Conductance Sensing Radar for Emotion Physiological Response (MOST 106-2221-E-011-009) | 623,000 | 201708 | 201807 | MOST |
[PI] Development of Noncontact Vital-Sign Radar Sensor Using Self- Oscillating-Mixer Active Integrated Antenna (MOST 105-2221-E-011- 028) | 726,000 | 201608 | 201707 | MOST |
[PI] Development of Non-Contact Vital-Sign Sensor Modules and Chips for Infant Monitoring (MOST 104-2221-E-011-031) | 715,000 | 201508 | 201607 | MOST |
[PI] Development of Non-Contact Vital Sign Detection Radar Module Using Spatial-Diversity Technique (MOST 103-2221-E-011-015) | 661,000 | 201408 | 201507 | MOST |
[PI] Research of Microwave Oscillator Design Using Harmonic-Suppressed Frequency-Selective Elements (NSC 102-2221-E-011-012) | 774,000 | 201308 | 201407 | NSC |
[PI] Development of Low Phase-Noise Filter-Based Microwave and Millimeter-wave Oscillators (NSC 101-2221-E-011-080) | 838,000 | 201208 | 201307 | NSC |
[PI] Design and Implementation of Novel Microwave Couplers and Their Applications(2/2) (NSC 100-2628-E-011-005) | 895,000 | 201108 | 201207 | NSC |
[PI] Design and Implementation of Novel Microwave Couplers and Their Applications(1/2) (NSC 99-2628-E-011-002) | 895,000 | 201008 | 201107 | NSC |
[pi] Research for microwave active and passive circuit design based on left-handed transmission-lines (2/2) (NSC 97-2221-E-011-020-MY2) | 801,000 | 200908 | 201007 | NSC |
[Co-PI] Research for microwave active and passive circuit design based on left-handed transmission-lines (1/2) (NSC 97-2221-E-011-020-MY2) | 778,000 | 200808 | 200907 | NSC |
[PI] Development of Miniaturized Radar RF Module Using Microwave Six-Port Network(96-2221-E-011-009-) | 541,000 | 200708 | 200807 | NSC |
[PI] Development of Miniaturized Microwave Components Using Left-Handed Transmission Lines and Low-Temperature Co-Fired Ceramic (LTCC) Techniques(95-2218-E-011-022-) | 623,000 | 200611 | 200710 | NSC |
Academic Year | Thesis Title | Student |
---|---|---|
101 | Development of Microwave Ranging Radar and Its Key Component Design | Chih-Lin Chang |
Academic Year | Thesis Title | Student |
---|---|---|
110 | Development of 24 GHz MIMO Radar Module for Object Classification | Hsin-Jung Wu |
109 | Development of Smart Infrared Wrist Blood Pressure Sensor Using Machine Learning Technique | Shih-Wei Wu |
109 | Development of 24 GHz Transmitter Module for MIMO Radar Applications | Chia-Chieh Wang |
109 | Development of Liquid Concentration Sensors Using Self-Oscillating Split-Ring Resonator and Complementary Split-Ring Resonator | Chia-Lien Chuang |
109 | Development of Radio-Frequency Near-Field Vital-Sign Sensors Based on Self-Injection-Locked Technology | Yen-Ting Lee |
109 | Development of Radio-Frequency Liquid Permittivity Sensors Based on Perturbation-Injection-Locked and Frequency-Locked-Loop Technologies | Cheng-Yu Yang |
108 | Development of 24 GHz Radar Sensors Vital Signs of Laboratory Mice and Azimuth Angle of Human Target | Yen-I Tu |
108 | Development of Liquid Permittivity Sensors Based on Self-Injection-Locked Technology | Chien-Yu Lu |
107 | Development of Noncontact Blood Pressure Sensors Using Radio-Frequency Technology | Tzu-Jung Tseng |
107 | Development of Perturbation-Injection-Locked Vital-Sign Sensors Based on Self-Oscillating Complementary Split-Ring Resonators | Cheng-Zhou Wu |
107 | Development of 24 GHz Multi-Radar Sensing System for Human Target Location and Vital-Sign Detection | Chun-Chi Lu |
107 | Development of Non-invasive Radio-Frequency Blood Glucose Sensors Based on Perturbation-Injection-Locked Technology | Yi-Cheng Weng |
107 | Development of Phase- and Self-Injection-Locked Vital-Sign Radar Sensors | Sheng-Yang Hsu |
106 | 基於自我注入鎖定技術之穿戴式生命徵象雷達感測器研製 | 吳聖偉 |
106 | 應用於一維人體定位之24 GHz頻率調變連續波雷達模組研製 | 陳柏丞 |
106 | Development of 5.8 GHz CMOS Self-Oscillating Mixer and 24 GHz CMOS Push-Push Injection-Locked Oscillator for Non-Contact Human's Heartbeat and Respiration Detection Radar Design | Yi-Hua Lin |
106 | 使用自我注入鎖定主動天線實現非接觸式生命徵象感測器 | 張淑華 |
106 | 使用自我注入鎖定技術進行介電係數量測之研究評估 | 林暐軒 |
106 | 24 GHz車用雷達系統研製 | 陳宏哲 |
105 | Development of Radar Sensor with Self-Oscillating Active Integrated Antenna for Vital-Sign Detection | Li-Te Yu |
105 | Beamforing Network Design of Phased Array Antennas for Marine Radar Application | Jheng-Yuan Huang |
105 | Design of Phased Array Antennas for Marine Radar Applications | Chun-Hao Tseng |
104 | Development of 5.8 GHz Radar Sensor Chip in 0.18-um CMOS for Non-Contact Vital Sign Detection | Jyun-Kai Huang |
104 | Development of 5 GHz and 1-10 GHz CMOS Low Noise Amplifiers | Yen-Chun Kuo |
104 | Development of 24 GHz Non-Contact Radar Module for Infant Vital Sign Monitoring | Tzu-Wei Hsu |
104 | Design of Noncontact Permittivity Measurement System and Vital-Sign Radar Teaching Modules | Ya-Ting Chang |
104 | Development of Doppler Radar Module for Gesture Sensing Application | Ssu-Ting Huang |
103 | Design of 24-GHz CMOS Balanced Divide-by-3 Injection-Locked Frequency Dividers and Their Applications to Implement Divide-by-24 Frequency Dividers | Sung-Hao Cheng |
103 | Development of 5.8 GHz CMOS Voltage Controlled Oscillators | Hsiu-Hsien Mei |
103 | Development of 5.8 GHz Active CMOS Doubly-Balanced Mixers | Shih-Hsin Chang |
103 | Development of 5.8 GHz Radar Modules for Vital-Sign Detection | Chia-Hung Chao |
102 | Development of Microwave and Millimeter-wave Coplanar Waveguide (CPW) Multi-Conductor Interdigitated Couplers | Yu-Tzu Chen |
102 | Development of Doppler Radar Module for Non-Contact Human's Respiration and Heartbeat Detection | Yu-Jen Lin |
102 | Development of Voltage Control Oscillators, Frequency Dividers and Power Amplifier for Microwave Radar System Application | Ching-Hsing Lu |
102 | Design of Microwave Baluns and Applied to Development CMOS Singly Balanced Mixer | Chih-Che Lin |
101 | Phase-Noise Analysis and Improvement of Microwave Feedback Oscillators | Muhyin Daud |
101 | Development of Low-Phase Noise Microwave Voltage-Controlled Oscillators Using Stepped-Impedance Resonator Filters | Tien-Sheng Huang |
101 | Development of Millimeter-Wave Broadband Balun Using CMOS and GIPD Fabrication Processes | Yu-Hsiang Huang |
100 | Development of Low Phase Noise Oscillators Based on Microwave Ring Filters | Chang |
100 | Development of Novel Microwave Branch-Line Coupler, Dual-Band Rat-Race Coupler and Wideband Passive Isolation Component | Chia-Hung Mou |
99 | Development of Miniaturized Microwave Components and Beam-Scanning Phased Array Antenna Using Symmetrical and Asymmetrical Shunt-Stub-Based Artificial Transmission Lines | Chi-Hsing Wu |
99 | Development of Miniaturized Microwave Ring Coupler Using Asymmetrical T-structures and Dual Transmission Lines | Po-Hsiang Tu |
99 | Development of Microwave Oscillators Based on Bandpass Filters | Yu-Wen Huang |
98 | Development of Balun, Mixer and CMOS Millimeter-Wave Bandpass Filter Using New Microwave Guided-Wave Structures | Yu-Chih Hsiao |
97 | Design of Dual-Band Net-Type and Balanced Microwave Bandpadd Filters | Hsin-Yung Shao |
97 | Design of 10 GHz Microwave Oscillator Using Substrate Integrated Waveguide | Hong-Chi Haung |
96 | Development of microwave amplifiers and mixerusing composite right/left-handed transmission line technique | Chih-Lin Chang |
96 | Development of Microwave Ranging Radar Module Using Six-Port Network | Ming-Hong Chen |
96 | Development of Miniaturized Microwave Circuit Using Shunt-Stub-Based Artificial Transmission Lines | Hsiang-Ju Chen |
Academic Year | Project Title | Student |
---|
Year | Deeds |
---|---|
2018 | 碩士班研究生「翁依呈」獲「2018 亞太微波會議學生設計競賽(高延遲、小尺寸及低損耗傳輸線設計)」第3名 |
2018 | 碩士班研究生「呂俊奇」獲「台灣科大選送優秀學生境外研習獎學金」赴美國羅格斯大學進行短期研究(2018.8~2017.11) |
2017 | 碩士班研究生「趙佳宏、徐子威」獲臺灣電磁產學聯盟之「陳俊雄教授電磁人才培育獎學金」研究所組第一名 |
2017 | 碩士班研究生「游立得」、「陳宏哲」獲「2017 IEEE IMS高靈敏度暨快速反應動作感測雷達學生設計競賽」第3名 |
2017 | 碩士班研究生「林沂樺」獲「台灣科大選送優秀學生境外研習獎學金」赴德國阿亨工業大學進行短期研究(2017.5~2017.9)。 |
2016 | 碩士班研究生「張雅婷」獲「台灣科大選送優秀學生境外研習獎學金」赴德國阿亨工業大學進行短期研究(2016.1~2016.4) |
2015 | 碩士班研究生「趙佳宏」、「徐子威」獲「2015 IEEE MTT-S 高靈敏度雷達 (High Sensitivity Radar) 學生設計競賽第一名」。 |
2014 | 博士班研究生「張智林」獲「國家晶片系統設計中心優良晶片優等設計奬」 (P15-101B-14,利用梳型濾波器研製具低相位雜訊之壓控振盪器) |
2014 | 碩士班研究生「林宥任」獲「台灣科大選送優秀學生境外研習獎學金」赴德國阿亨工業大學進行短期研究(2014.3~2014.6)。 |
2013 | 碩士班研究生「陳又慈」獲「台灣科大選送優秀學生境外研習獎學金」赴德國阿亨工業大學進行短期研究(2013.11~2014.3)。 |
2012 | 碩士班研究生「Muhyin Daud」獲「IEEE Microwave Theory and Technique Society Spring 2012 Scholarship」 |
2010 | 碩士班研究生「伍祈馨」獲「2010全國電信研討會最佳學生論文奬」 |
2010 | 碩士班研究生「蕭語鋕」獲「中國電機工程學會99年度青年論文奬第二名」 |
2008 | 碩士班研究生「張智林」獲「中國電機工程學會97年度青年論文奬第三名」 |