[Chinese(中文)] [English]
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A.期刊論文 |
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01. |
Enoch Hsin-Ho Huang, Chao-Min Wu*, and Hung-Ching Lin (2021) “Combination and Comparison of Sound Coding Strategies Using Cochlear Implant Simulation With Mandarin Speech.” IEEE Transactions on Neural Systems and Rehabilitation Engineering Volume 29, pp. 2407-2416. https://doi.org/10.1109/TNSRE.2021.3128064 (SCI IF: 3.802, corresponding author) MOST 107-2221-E-008-031 |
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02. |
Geng-Hao Liu, Meng-Yen Tsai, Gwo-Jyh Chang, Chao-Min Wu, Sheng-Kai Lin, Yu-Sheng Chen and Tzung-Yan Lee (accepted) “Safety assessment of the auto manipulation device for acupuncture (AMDA) in Sprague-Dawley rats: preclinical evaluation of the prototype." Evidence-Based Complementary and Alternative Medicine (SCI IF: 2.064) |
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03. |
Chao-Min Wu, Ping-Huan Hsieh, Yu-Mei Chung, Bo-Yeng Cheng (2016) Development of a Visible Speech Diagnostic and Rehabilitation System. Vol; 19, pp.57-69. Journal of the Acoustical Society of Taiwan. (First and Corresponding author). |
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04. |
Dahnial Syauqy, Chao-Min Wu and Onny Setyawati (2016) An Acoustic Feature-Based Similarity Scoring System for Speech Rehabilitation Assistance. Disability and Rehabilitation: Assistive Technology, Vol.11(6), pp.501-515. Published online, Apr. 2015, DOI number: 10.3109/17483107.2015.1027297.(SCI: IF=1.837, corresponding author) |
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05. |
Chao-Min Wu, Tao-Wei Wang, and Ming-Hung Li (2015, Oct). Study of neural mechanism of Mandarin vowel perception and diphthong production with neural network model. Journal of the Phonetic Society of Japan. 19(2), pp.115-123. (First and Corresponding author). |
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06. |
Dahnial Syauqy, Chao-Min Wu and Onny Setyawati (2014) Vowel Quality Scoring on Speech Rehabilitation Assistance, International Journal of Applied Engineering Research, 9(24), pp. 27199-27210. (Corresponding author) |
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07. |
C.-M. Wu and T. W. Wang (2012) Study of Neural Correlates of Mandarin Tonal Production with Neural Network Model. Journal of Medical and Biological Engineering, 32(3), pp.169-174 (SCI & EI, IF=0.731). |
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08. |
J.-Z. Tsai, C.-K. Lee, C.-M. Wu, J.-J. Wang, K.-P. Kao(2008), A Feasibility Study of an Eye-writing System Based on Electro-oculograph. Journal of Medical and Biological Engineering, 28, pp39-46. (EI) |
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09. |
H-Y Lee and C.-M. Wu (2003), Rapid prototyping of wireless augmentative and alternative communication system for speech impaired subjects. BIOMEDICAL ENGINEERING-APPLICATION, BASIS & COMMUNICATIONS, 15, pp14-22. (EI) NSC92-2614-E-040-001 |
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10. |
Chao-Min Wu, L.-L. Ho, Shu-Hao Dong, and Hung-Ching Lin (in preparation), Modeling Advanced Combination Encoder (ACE) with Acoustic Hearing for Mandarin-speaking Patients Using Cochlear Implant (CI) |
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11. |
C.-M. Wu and H. T. Goh (in preparation). Three-dimentional grey-level interpolation for oral magnetic resonance images. |
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12. |
C.-M. Wu and T.-C. Chien (in preparation). Automatic segmentation of the tongue structure from human oral MR images. |
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13. |
C.-M. Wu, S.-Y. Wang, and H. T. Goh (in revision). An MRI-based 3D tongue atlas for tongue modeling.Chao-Min Wu, Ping-Huan Hsieh, Yu-Mei Chung, Bo-Yeng Cheng (2016) Development of a Visible Speech Diagnostic and Rehabilitation System. Vol; 19, pp.57-69. Journal of the Acoustical Society of Taiwan. (First and Corresponding author). |
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B.研討會論文 | |
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01. |
Ming Xiu, Yang, Kang Cheng, Peng, Chao Min, Wu* (2021) Auto-detection of Auditory Brainstem Response (ABR) Wave V with Wavelet-Kalman Filter and Fitted Parametric Peak Method. Annual meeting of Taiwanese Society of Biomedical Engineering TSBME2021, Nov. 19-20, Taichung, Taiwan, paper 272. |
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02. |
Enoch Hsin-Ho Huang, Jin-Sian Lin, Harisma Khoirun Nisa, Ching-Hung Lee, Hung-Ching Lin, Yu Tsao, and Chao-Min Wu (2020). Study on the Development of Auditory Physiology and Neural Network Based Cochlear Implant Sound Processing Strategies and Its Effects on Mandarin Speech Perception-Simulation. The 4th Global Conference on Biomedical Engineering & Annual Meeting of TSBME (GCBME 2020), Taipei, Taiwan |
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03. |
Chia-Hsing Liu, Ardhi Santoso, and Chao-Min Wu (2020). Development of Necklace-Type Hearing Aid with Microphone Array Technology, The 4th Global Conference on Biomedical Engineering (GCBME) & Annual Meeting of TSBME, Taipei, Taiwan. |
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04. |
Ten-Hsiang Wen, Kang-Cheng Peng and Chao-Min Wu (2020) . Development of an Embedded-Platform-Based Auditory Brainstem Response (ABR) Measurement system. The 4th Global Conference on Biomedical Engineering & Annual Meeting of TSBME (GCBME 2020), Taipei, Taiwan |
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05. |
Enoch Hsin-Ho Huang, Chao-Min Wu, and Hung-Ching Lin (2019). Simulation of three auditory physiology based CI sound coding strategies with Mandarin speech, Proc. of the 12-th Asia Pacific Symposium on Cochlear Implants and Related Sciences (APSCI), Tokyo, Japan. |
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06. |
Enoch Hsin-Ho Huang, Kuo-Hsuan Hung, Yu Tsao, and Chao-Min Wu (2019). ElectrodeNet – artificial intelligence based sound coding strategy for cochlear implants, Proc. of the 12-th Asia Pacific Symposium on Cochlear Implants and Related Sciences (APSCI), Tokyo, Japan. |
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07. |
Chao-Min Wu, Enoch Hsin-Ho Huang, and Hung-Ching Lin (2019) Study on the development of auditory physiology based cochlear implant sound processing strategies and its effects on Mandarin speech perception – simulation. The 9th World Congress on Bioengineering (WACBE), Taipei, Taiwan |
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08. |
Chao-Min Wu and Chen-Chou Lo (2018). Automatic segmentation of oral MRI based on shape prior active contour model and fuzzy C-means clustering. Proc. World Congress on Medical Physics & Biomedical Engineering (IUPESM2018), Prague, Czech Republic, 3-8 June, paper ID494. |
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09. |
吳炤民, 黃郁凱, 鄭博霙, 黃心和, 蔡吳傳(2017) 語音診斷復健系統之發展-音聲障礙復健遊戲系統, 中華民國一百零六年生物醫學工程科技研討會, 桃園, paper 116, 1-4. |
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10. |
周聖凌, 方志豪, 吳炤民 (2017) 中文版雙耳數字測驗之常模建立與軟體發展, 中華民國一百零六年生物醫學工程科技研討會, 桃園, paper 175, 1-4. |
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11. |
趙柏宇, 徐正憲, 吳炤民 (2017) 以無線自動廳性腦幹響應量測系統V波自動判別之方法, 中華民國一百零六年生物醫學工程科技研討會, 桃園, paper 258, 1-3. |
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12. |
Chao-Min Wu, Wei-Lun Lou, and Ting-An Liu (2017) DEVELOPMENT OF AN ADAPTIVE NOISE REDUCTION SYSTEM WITH AUTOMATIC WIND NOISE DETECTION UTILIZING TMS320C6713, Proc. of The 24th International Congress on Sound and Vibration, London, UK, 23-27 July, paper 48, 1-8. |
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13. |
Sheng-Kai Lin, Enoch Hsin-Ho Huang, Bo-Yu Chao, and Chao-Min Wu (2017) Wireless-Automated Auditory Brainstem Response (AABR) Measurement System Bases on the Android and the Embedded System, Symposium on Engineering, Medicine, and Biology Applications (SEMBA2017), Apr. 28-30, Hsin Chu, Taiwan, Poster_03, p.1-2. |
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14. |
Chao-Min Wu, Wei-Lun Lou, and Ting-An Liu (2017) DEVELOPMENT OF AN ADAPTIVE NOISE REDUCTION SYSTEM WITH AUTOMATIC WIND NOISE DETECTION UTILIZING TMS320C6713, Proc. of the 24th International Congress on Sound and Vibration, London, UK, 22-30 July, paper 48, 1-8. |
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15. |
Chao-Min Wu and Tao-Wei Wang (2016) Study of Neural Correlates on Normal and Pathological Chinese Production with Neural Network Model - III, GCBME2016, Aug.17-19,Taipei, Taiwan, PMOST-191-EE-011. |
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16. |
Chao-Min Wu, Zeng-Fong Chen, and Ting-An Liu (2016) DEVELOPMENT OF A SPEECH ENHANCEMENT DUAL-MICROPHONE NOISE REDUCTION SYSTEM UTILIZING TMS320C6713, Proc. of The 23rd International Congress on Sound and Vibration, Athens, Greece, 10-14 July, paper 132, 1-8 |
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17. |
Chao-Min Wu (2015) Development of Wireless Sensing Devices for Diagnosis and Rehabilitation Application, The 3-rd EITA-Bio Conference, The Emerging Information and Technology Association (ELTA), Oct.24-25, Taipei, Taiwan (invited) |
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18. |
Chao-Min Wu, Yan-Ming Yang, and Ting-An Liu (2015) DEVELOPMENT OF AN AUTOMATIC MATCHING DUAL-MICROPHONE NOISE REDUCTION SYSTEM UTILIZING TMS320C6713, Proc. of The 22nd International Congress on Sound and Vibration, Florence, Italy, 12-18 July, paper 1061, 1-8. |
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19. |
Shih-Hao Kuo, Chao-Min Wu, Rai-Chi Chen,Si-Huei Lee, I-Yun Yang, Chun-Chuan Chen (2014) Using Cortico-muscular coherence to evaluate the functional recovery of stroke patients in response to rehabilitation. APOSM 2014& ISRN, the Asian Prosthetic and Orthotic Scientific Meeting 2014 (APOSM 2014) in conjunction with The Second Meeting of the International Society for Restorative Neurology (ISRN), Nov. 28-30, Taipei, Taiwan, OP22. |
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20. |
Tao-Wei Wang and Chao-Min Wu (2014) Using the back-propagation neural network (BPNN) algorithm to simulate the tone acquisition of infant. APCMBE2014, Oct. 9-12, Tainan, Taiwan, PB05. |
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21. |
Chao-Min Wu, Sheng-Kai Lin, Yu-Sheng Chen, and Geng-Hao Liu (2014) Development of Automatic Manipulation Device for Acupuncture. 36th Annual Int. Conf. of IEEE EMBC2014, Aug. 26-30, Chicago, IL, USA, WA14.2. |
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22. |
Chao-Min Wu and Tao-Wei Wang (2014) Study of neural correlates of Mandarin vowel production with neural network model. Adventures in Speech Science, Tokyo, Japan, July 22-23, p29-30. |
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23. |
Chao-Min Wu and Wei-Lin Tsai (2014). Pre-processing with Microphone Array and Noise Reduction for Electroacoustic Stimulation of Cochlear Implant Simulation on Chinese Speech Recognition in Noise. Proc. of the 13th International Conference on Cochlear Implants and Other Implantable Auditory Technologies (CI2014), Munich, Germany, June 18-21. RT2-4. |
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24. |
劉庭安,吳炤民,楊彥明(2013).運用TMS320C6713開發可自動情境分類之雙麥克風除噪系統。中華民國一百零二年生物醫學工程科技研討會,新竹, PD2-27 |
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25. |
莊威宏,吳炤民,彭志軒(2013).以ZigBee發展之多通道無限肌電圖量測系統。中華民國一百零二年生物醫學工程科技研討會,新竹, PB2-61 |
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26. |
吳炤民,沈宗穎,陳政峰(2013).以軟體為基準的助聽器模擬平台之發展-模擬Unitron、Widex、Oticon噪音消除策略。中華民國一百零二年生物醫學工程科技研討會,新竹, PD2-29 |
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27. |
吳炤民、王韜維、謝秉寰(2013).用類神經網路研究正常與病理中文說話之神經關聯性。中華民國一百零二年生物醫學工程科技研討會,新竹,NSCP-32 |
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28. |
Tao-Wei Wang and Chao-Min Wu (2013). Using the Neural Network Model to Simulate the Neural Response of the Vowel Perception. The 9Th Asia Pacific Conf. on Speech, language, and hearing (APCSLH2013). Taichung, Taiwan, S8-6. |
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29. |
Chao-Min Wu, Ming-Hung Li, and Tao-Wei Wang (2013). Simulation of neural mechanism for Chinese vowel perception with neural network model. J. Acoust. Soc. Am., Vol. 133, No. 5, 3611(A). |
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30. |
謝秉寰、吳炤民(2012).可見式語音診斷與復健系統。中華民國一百零一年生物醫學工程科技研討會,桃園,P3-39。(口頭論文優等獎) |
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31. |
劉庭安、吳炤民、楊彥明(2012).運用TMS320C6713開發可適應性向性麥克風支雙麥克風除噪系統。中華民國一百零一年生物醫學工程科技研討會,桃園,P3-37。 |
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32. |
莊威宏、吳炤民、王韜維(2012).多通道無線肌電圖量測系統。中華民國一百零一年生物醫學工程科技研討會,桃園,V11-3。 |
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33. |
劉致中、吳炤民、林聖凱(2012).以個人數位助理助理為平台之短暫誘發耳聲傳射檢測儀。中華民國一百零一年生物醫學工程科技研討會,桃園,V02-1。(壁報論文優等獎) |
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34. |
Chao-Min Wu, Kuo-Yuan Huang, Wei-Lin Tsai, Che-Ming Wu, and Hung-Ching Lin (2012) Effects of Electro-acoustical Hearing on Mandarin Speech Recognition Under Background Noise for Patients With Cochlear Implants-Simulation and Clinical Studies. Proc. of The 19th International Congress on Sound and Vibration, Vilnius, Lithuania, 8-12 July, p.27 |
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35. |
Tao Wei Wang, Wei-Hung Chuang, and Chao-Min Wu (2011) Comparisons between bipolar electrodes and bipolar concentric electrodes in EMG measurement. The 5th World Congress on Bioengineering (WACBE), Tainan, Taiwan, Aug.18-21, FPO-085. |
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36. |
Chao-Min Wu, Kuo-Yuan Huang, Hung-Ching Lin, Wei-Lin Tsai, and Che-Ming Wu, (2011) Effects of speech material and speaker gender on Chinese recognition in Cochlear Implant simulation. The 8th Asia Pacific Symposium on Cochlear Implants and Related Sciences (APSCI), Daegu, Oct. 25-28, p.23. |
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37. |
劉庭安、吳炤民、許詠傑、沈宗穎(2011). 以軟體為基準的助聽器模擬平台- Oticon Syncro。中華民國一百年生物醫學工程科技研討會,台南,P1-66。 |
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38. |
蘇仲南、吳炤民、陳佳俊(2011).教學用電腦模擬左呼吸系統之建構。中華民國一百年生物醫學工程科技研討會,台南, P2-84。 |
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39. |
李明鴻、吳炤民、王韜維(2011).用類神經網路模型模擬語音感知的神經機制。中華民國一百年生物醫學工程科技研討會,台南, O4-9。 |
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40. |
吳炤民、王韜維、陳宗佑(2010).以軟體為基準的助聽器模擬平台-GN ReSound Canta。中華民國九十九年生物醫學工程科技研討會,燕巢,O5-23。 |
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41. |
蘇仲南、吳炤民、陳佳俊(2010).教學用電腦模擬左心臟系統之建構。中華民國九十九年生物醫學工程科技研討會,燕巢,P1-053。 |
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42. |
林立民、吳炤民、王韜維(2010).以PDA為平台的生理訊號測量系統。中華民國九十九年生物醫學工程科技研討會,燕巢,P3-088。 |
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43. |
Chao-Min Wu, Yong-Jie Syu, and Po-Hsun Lin (2010) Development of software-based simulation platform for hearing aid. J. Acoust. Soc. Am., Vol. 128, No. 4, 2321(A) |
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44. |
Chao-Min Wu, Kuo-Yuan Huang, Wei-Lin Tsai, Che-Ming Wu, Hung-Ching Lin (2010) Effects of electro-acoustic hearing on Mandarin speech recognition in noise for patients with Cochlear Implant. Proc. of the 11th International Conference on Cochlear Implants and Other Implantable Auditory Technologies (CI2010), Stockholms, June 30-July 3. P.381 (A) |
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45. |
黃國原、吳炤民、蔡偉林、何玲玲(2009). 模擬人工電子耳在噪音環境下對中文語音辨識率之影響。中華民國九十八年生物醫學工程科技研討會,台北市, CPA36。 |
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46. |
許詠傑、吳炤民、陳宗佑(2009). 以軟體為基準的助聽器模擬平台之發展-噪音消除。中華民國九十八年生物醫學工程科技研討會,台北市,CPA39。 |
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47. |
吳炤民、黃國原、何玲玲、林鴻清、吳哲民(2009). 雙耳聽(人工電子耳與助聽器)對中文語音辨識率與音樂感知影響之研究II。中華民國九十八年生物醫學工程科技研討會,台北市,NPB41。 |
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48. |
王韜維、吳炤民(2009).用類神經網路研究中文語音聲調產生之神經關連性。中華民國九十八年生物醫學工程科技研討會,台北市,COB2。(口頭論文優等獎) |
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49. |
Chao-Min Wu, Kuo-Yuan Huang, and Hung-Ching Lin (2009). Effects of channel number, stimulation rate, and electroacoustic stimulation of cochlear implant simulation on Chinese speech recognition in noise. Proc. of the 7-th Asia Pacific Symposium on Cochlear Implants and Related Sciences (APSCI) (accepted), Singpore Dec.1-4 |
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50. |
Ling-Ling Ho, Chao-Min Wu, Kuo-Yuan Huang, and Hung-Ching Lin (2009). Effects of channel number, stimulation rate, and electroacoustic stimulation of cochlear implant simulation on melody recognition in quiet and noise conditions. Proc. of the 7-th Asia Pacific Symposium on Cochlear Implants and Related Sciences (APSCI) (accepted), Singpore Dec.1-4. |
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51. |
C.-M. Wu, K.-Y. Huang, and L.-L. Ho (2009), Effects of channel carriers (vocoders) on Chinese speech recognition in Continuous Interleaved Sampling (CIS) and Advanced Combination Encoding (ACE) simulation of Cochlear Implant. Proc. of The 16th International Congress on Sound and Vibration, Krakow, Poland, 5-9 July, P779. |
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52. |
C.-M. Wu, H. T. Goh, and S.-Y. Wang (2009) Construction of a MRI-based 3D Atlas of the Human Tongue for Biomechanical Tongue Modeling, Proc. of 1st International Workshop on Dynamic Modeling of the Oral, Pharyngeal and Laryngeal Complex for Biomedical Applications (OPAL-2009), University of British Columbia, Vancouver, BC, Canada, 87-90. |
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53. |
黃國原、吳炤民、何玲玲(2008). 模擬人工電子耳之通道調變載波對中文語音辨識率之影響。中華民國九十七年生物醫學工程科技研討會,林口, EO17。 |
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54. |
何玲玲、吳炤民、黃國原(2008). 人工電子耳模擬對於音樂感知之效果比較:弦波及白噪音聲音編碼器。中華民國九十七年生物醫學工程科技研討會,林口, EO20。 |
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55. |
簡村誠、吳炤民(2008). 口腔磁振影像舌頭構造之自動分割。中華民國九十七年生物醫學工程科技研討會,林口, DP52。 |
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56. |
吳炤民、黃國原、林鴻清、何玲玲、劉佳林、吳哲民(2008). 雙耳聽(人工電子耳與助聽器)對中文語音辨識率影響之研究-模擬與臨床測試。中華民國九十七年生物醫學工程科技研討會,林口, LO07。 |
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57. |
Chao-Min Wu and Chi-Wei Su (2008). Design of a PDA-based Asthma Peak Flow Monitor System. The 13th Int. Conf. on Biomedical Engineering (accepted), Singpore Dec.3-6. 217(A) |
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58. |
Chao-Min Wu and Yi-Syuan Lin (2008). Neural Correlates on Chinese Speech Production: an fMRI study. J. Acoust. Soc. Am., Vol. 123, No. 5, 3075(A). |
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59. |
Chao-Min Wu and Sung-Yi Wang (2008). Construction of MRI-based 3D atlas of the Human Tongue for Tongue modeling. J. Acoust. Soc. Am., Vol. 123, No. 5, 3075(A). |
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60. |
吳炤民、王嘉麒 (2007). 利用有限元素法建構3維的舌頭力學模型。中華民國九十六年生物醫學工程科技研討會,台中, 397-400。 |
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61. |
Chao-Min Wu, Shu-Hao Dong, and Hung-Ching Lin (2007), Modeling Advanced Combination Encoder (ACE) with Acoustic Hearing for Mandarin-speaking Patients Using Cochlear Implant (CI), Proc. of the 6-th Asia Pacific Symposium on Cochlear Implants and Related Sciences (APSCI), 53(A). |
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62. |
董書豪、吳炤民、何玲玲(2007). 人工電子耳進階結合編碼策略的中文語音辨識成效模擬。工程科技與中西醫學應用研討會會議論文,台中,190-191. |
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63. |
吳炤民、曾淑芬、梁英男(2007). 「語音輸出溝通輔具—依功能特性分類」之國家標準建議書。中華民國聽力語言學會年會,臺南。 |
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64. |
C.-M. Wu and W. J. Cheng (2006). Simulating the effect binaural (electric and acoustic) hearing on Mandarin speech recognition under background noise for patients with cochlear implant (CI), J. Acoust. Soc. Am., Vol. 124, No. 2,1304(A). |
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65. |
C.-M. Wu and H. T. Goh (2006). An MRI-based 3D tongue atlas for tongue modeling, J. Acoust. Soc. Am., Vol. 124, No. 2,1304(A). |
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66. |
蔡政哲、吳炤民(2006). 獨立成份分析法於真實環境中聲音訊號分離之探討。工程科技與中西醫學應用研討會會議論文,台中,2006 |
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67. |
吳漢哲、吳炤民、何玲玲、蘇志偉(2005). 以形態學為基礎的三維灰值內插法用於口腔核磁共振影像。中華民國九十四年生物醫學工程科技研討會,中壢, D1-005。 |
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68. |
鄭惟仁、吳炤民(2005). 提升人工電子耳植入者中文語音辨識率的策略模擬。中華民國九十四年生物醫學工程科技研討會,中壢, A2-002。 |
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69. |
Su-fen Tseng, Chao-Min Wu, Nan-Mei F. Wang, and Kuo-Ping Yang (2005), Longitudinal of Multi-mode AAC application to people with acquired disabilities- a case study, Proc. of the 1-st Asia-Pacific Regional Congress of International Association for the Scientific Study of Intellectual Disabilities (IASSID), 86(A). |
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70. |
C.-M. Wu, S.-F. Tseng, C.-K. Yeh, H.-Y. Lee (2005), A Multiple-purpose PDA-based AAC System, Proc. of the 1-st Asia-Pacific Regional Congress of International Association for the Scientific Study of Intellectual Disabilities (IASSID), 90(A). |
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71. |
吳炤民、王高倫(2004). 以磁振影像為基礎的立體舌頭圖譜之建構 II 。中華民國生物醫學工程學會年會,台南。 |
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72. |
吳炤民、曾淑芬、羅以齊、賈世同( |
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73. |
楊幸樺、吳炤民、楊菁菁、曾淑芬、張智婷(2004b). 掌上型電腦(PDA)溝通輔具對腦傷病人之臨床應用-個案報告。中華民國聽力語言學會年會,臺北。 |
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74. |
吳炤民、王高倫( |
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75. |
吳炤民、曾淑芬、卓佩蓉、陳羿潔、張雅琪、陳韻伊( |
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76. |
曾淑芬、吳炤民、陳奇磊 (2003b). 後天性多重障礙者磨司馬電腦語音系統運用。中華民國聽力語言學會年會,臺中。 |
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77. |
C.-M. Wu1, S.-F. Tseng, C.-K.
Yeh, H.-Y. Lee ( |
|
78. |
C.-M. Wu, S.-F. Tseng, J.-J. Huang, S.-Y.
Weng (2002b), The development of a PDA-based tool for AAC users of aphasic
patients, Proc. of the 3rd. Asia Pacific Conf. of Speech Lanuage
and Hearing, 63(A). |
|
79. |
S.-F. Tseng, C.-M. Wu, C.-L. Chen ( |
|
80. |
H.-Y.
Lee, C.-K. Yeh, C.-M. Wu, and M.-F. Tsuang ( |
|
81. |
H.-Y.
Lee, Y.-W. Chiu, C.-K. Yeh, and C.-M. Wu (2001b), Development of mobile phone
for subjects with speech impairment based on pocket PC and GSM module, Proc.
of Annual Symposium of Medical Informatics Society, p.223-225. |
|
82. |
C.-M. Wu, J. Dang, and K. Honda ( |
|
83. |
C.-M. Wu, J. Dang, and K. Honda (1999b), Fundamental frequency control using a physiological articulatory model,
Proc. of ASJ Fall meeting ( |
|
84. |
C.-M. Wu, J. Dang, and K. Honda ( |
|
85. |
C.-M. Wu, R. Wilhelms-T.(1997), Mapping
of muscle anatomy on three-dimensional magnetic resonance images of the human
tongue based on morphological landmark selection,J. Acoust. Soc. Am.,
Vol. 102, No. 5,3162(A). |
|
86. |
R. Wilhelms-T. and C.-M. Wu (1997), A biomechanical model of tongue, Proceedings of the 1997
Bioengineering Conference, BED-Vol.35, 69-70. |
|
87. |
K. Honda, M. Hashi, C.-M. Wu, and J. Westbury (1997), Effects of the size and form of the
orofacial structure on vowel production, J. Acoust. Soc.
Am., Vol. 102, No. 5,3133(A). |
|
88. |
K.Honda and C-M. Wu(1996), Differences
in speaker's articulatory space: their contribution to
vowel gesture and acoustic pattern, J.Acoust.
Soc. Am.,Vol.100,No.4,2598(A). |
|
89. |
C.-M. Wu and R. Wilhelms-T.(1996), Landmark
selection for cross-mapping muscleanatomy and volumetric images of the human
tongue, J. Acoust. Soc. Am.,Vol.100,No.4,2659(A). |
|
90. |
C.-M. Wu and R. Wilhelms-T.
(1995), Tongue
Structural Model: Integrating MRI data and anatomical structure into a finite
element model of the tongue, Proc. of
XIIIth Int. Congr. of Phonetic Sci., 490-493. |
|
91. |
C.-M.
Wu and R. Wilhelms-T. (1994) Tongue Structural Model: Integrating MRI data
and anatomical structure into a finite element model of the tongue, J. Acoust. Soc. Am.,Vol. 96,No.5, 3342(A). |
|
92. |
R. Wilhelms-T. and C.-M. Wu (1993) The 3-D tongue FEM
model-revised, J. Acoust. Soc. Am.,Vol. 94,No.3, 1764(A). |
|
93. |
C.-M. Wu and R. Wilhelms ( |
|
94. |
R. Wilhelms and C.-M. Wu (1992b) Finite Element Tongue
Model-Algorithms, J. Acoust. Soc. Am.,Vol. 92,No.4, 2391(A). |
|
95. |
R. Wilhelms and C.-M. Wu (1991) Dynamic 3D Tongue Model-Progress
Report, J. Acoust. Soc. Am.,Vol. 90,No.4, 2310-2311(A). |
|
C.書籍專章 | |
|
01. |
Chao-Min Wu (2004) Chap 10 Body temperature, heat, fat, and movement. In John. G. Webster (ed.) Bioinstrumentation. |