Faculty

ChingShun Lin Assistant Professor
photo
Position
Assistant Professor
Education
PhD degree in Electrical Engineering, University of Southern California 
E-mail
CHINGSHL@mail.ntust.edu.tw
Room
EE713
Office hour
Tuesday 15:00-16:20, Wednesday 15:30-17:00, or make an appointment via email.
Telephone
886-2-2737-6372
FAX
886-2-2737-6424
Homepage
Laboratory
Major Field
˙ Embedded multimedia system development, including image and video signal processing,˙ audio-visual fusion by machine learning, ˙ image retrieval using graph modeling, ˙ modeling of augmented reality and immersive system, ˙ multichannel audio rendering and visualization, ˙ virtual acoustics for high-definition audio delivery, ˙ room acoustics/ equalization/ calibration, ˙ adaptive signal processing for application involving hand-free noise-control earphones and microphones, ˙ biomedical pattern recognition ˙ soft computing, ˙ and their consumer electronics applications. ˙ Please visit my website for more information.
Course
Multimedia Audio Processing and Practice, Computer Graphics, Introduction to Multimedia Information Systems, Object-Oriented Programming, Introduction to Computer Science

Record
2007.02
~
迄今 Assistant professor of NTUST.
2007
~
2010 Reviewer of MXIC golden silicon awards
2001.08
~
2006.05 Research assistant of Integrated Media Systems Center (USA).
1999.02
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2000.07 Instructor of the department of MIS at Kuo-Yuan Institute of Technology.
1998.06
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1998.11 Design engineer at Silicon Integrated Systems Corporation.
1996.07
~
1998.05 Instructor of military training at Chinese Naval Academy.
Honor & Awards
2009
第二屆創新教學模式獎勵(校級)
2001
Scholarship from National Science Foundation (NSF) for 5 years

Research

Research Achievement
Journal
[1] C. S. Lin and C. Kyriakakis, "High-definition audio spectrum separation via frequency response masking filter banks," Journal of Audio Engineering Society, vol. 57, no. 10, pp. 807-821, Oct. 2009. (SCI, EI)
[2] C. S. Lin and C. Kyriakakis, "Removing additive noise via neuro-fuzzy-based reinforcement learning," Journal of the Acoustical Society of America, vol. 124, no. 2, pp. 1026-1037, Aug. 2008. (SCI, EI)
[3] K. S. Hwang, C. S. Lin, and J. Y. Chiou, "A fuzzy CMAC compensator for sliding mode control," International Journal of Intelligent Automation and Soft Computing, vol. 8, no. 3, pp. 273-284, 2002. (SCI)
[4] K. S. Hwang and C. S. Lin, "Smooth trajectory tracking of three-link robot: A self-organizing CMAC approach," IEEE Transaction on System, Man, and Cybernetics, part B, vol. 28, no. 5, pp. 680-692, Oct. 1998. (SCI, EI) (cited#: 71)
Conference
[1] C. S. Lin and S. C. Chen, "Improved transmitter power control schemes for fading channel compensation," IEEE International Conference on Signal Processing, Communications and Computing, pp. 569-572, Hongkong, China, Aug. 2012. (EI)
[2] C. S. Lin and Y. H. Chen, "Phase compensation for multichannel low- frequency response using minimax approximation," International Conference on Audio, Language and Image Processing, pp. 182-188, Shanghai, China, Jul. 2012. (EI ,ISTP)
[3] C. S. Lin, Y. H. Chen, and D. L. Shih, "Nonlinear calibration of the room transfer function for multichannel audio system," 25th Symposium of Acoustical Society of the Republic of China, pp. 151-157, Taichung, Taiwan, Nov. 2012.
[4] C. S. Lin, Y. H. Chen, and Y. N. Wang, "Partial update adaptive filtering based on head-related model for in-vehicle audio enhancement," International Conference on Connected Vehicles and Expo, Beijing, China, Dec. 2012. (EI)
[5] C. S. Lin, J. S. Wang, and Z. C. Cheng, "Fast ensemble empirical mode decomposition for speech-like signal analysis using shaped noise addition," 4th International Conference on Interaction Sciences: IT, Human and Digital Content, pp. 112-117, Busan, Korea, Aug. 2011. (EI)
[6] C. S. Lin, H. C. Jhuang, and Y. H. Chen, "Phase equalization for multichannel low-frequency response based on Chebyshev approximation," 24th Symposium of Acoustical Society of the Republic of China, pp. 362-371, Taipei, Taiwan, Nov. 2011.
[7] C. S. Lin and Y. C. Chao, "Empirical mode decomposition based near-field equivalence source imaging system for sound identification," 8th International Conference on Information, Communications and Signal Processing, pp. 1-5, Singapore, Dec. 2011. (EI)
[8] Z. C. Cheng, C. S. Lin, and Y. H. Chen, "Fast music information retrieval using PAT tree based dynamic time warping," 8th International Conference on Information, Communications and Signal Processing, pp. 1-5, Singapore, Dec. 2011. (EI)
[9] C. S. Lin, S. J. Hong, D. L. Shih, and Z. C. Cheng, "Instantaneously warping interval computation using low level intrinsic mode functions," IEEE International Conference on Granular Computing, pp. 393-398, Kaohsiung, Taiwan, Nov. 2011. (EI)
[10] C. S. Lin and Y. C. Chao, "Spatial audio analysis based on perceptually empirical mode decomposition," 40th AES Conference on Spatial Audio: Sense the Sound of Space, Tokyo, Japan, Oct. 2010. (cited#: 1)
[11] Z. C. Cheng, C. S. Lin, and Y. H. Chen, "PAT-tree based DTW for fast music retrieval," 23rd Symposium of Acoustical Society of the Republic of China, pp. 105-115, Taichung, Taiwan, Nov. 2010.
[12] C. S. Lin and D. R. Wang, "Spectrogram image encoding based on dynamic Hilbert curve routing," International Conference on Image Processing Theory, Tools, and Applications, pp. 107-111, Paris, France, Jul. 2010.
[13] C. S. Lin and C. Kyriakakis, "Synthesizing multichannel recordings based on adaptive spectrogram morphing," 4th International Conference on Innovative Computing, Information and Control, pp. 156-159, Kaohsiung, Taiwan, Dec. 2009.
[14] C. S. Lin and C. Kyriakakis, "Design of phase equalizer for rational filter banks using minimax approach," IEEE International Symposium on Industrial Electronics, pp. 565-568, Seoul, Korea, Jul. 2009. (EI)
[15] C. S. Lin, D. R. Wang, Y. C. Chao, and J. S. Wang, "Audio identification based on reference-reduced model," 22nd Symposium of Acoustical Society of the Republic of China, pp. 61-68, Taipei, Taiwan, Nov. 2009.
[16] C. S. Lin and C. Kyriakakis, "A morphing approach for synthesizing multichannel recordings," 39th Annual Asilomar Conference on Signals, Systems, and Computers, pp. 64-68, Pacific Grove, CA, Oct. 2005. (EI) (cited#: 1)
[17] C. S. Lin and C. Kyriakakis, "Frequency response masking approach for designing filter banks with rational sampling factors," IEEE Workshop on Applications of Signal Processing to Audio and Acoustics, pp. 99-102, Mohonk, NY, Oct. 2003. (EI) (cited#: 11)
[18] C. S. Lin and C. Kyriakakis, "Multi-frequency noise removal based on reinforcement learning," Preprint no. 5966, presented at the 115th AES Convention, New York, NY, Oct. 2003. (cited#: 1)
[19] C. S. Lin and C. Kyriakakis, "A fuzzy cerebellar model approach for synthesizing multichannel recordings," Preprint no. 5675, presented at the 113th AES Convention, Los Angeles, CA, Oct. 2002. (cited#: 5)
[20] K. S. Hwang, C. S. Lin, and C. L. Chang, "Fuzzy cerebellar model articulation controller," Proceedings of the 2nd Chinese World Congress on Intelligent Control and Intelligent Automation, pp. 1536-1541, Xian, China, Jun. 1997.
[21] K. S. Hwang and C. S. Lin, "A self-organizing fuzzy CMAC for sliding mode control," Proceedings of IEEE Workshop on Variable Structure Systems, pp. 133-138, Tokyo, Japan, Dec. 1996. (cited#: 3)
Patent
Book
Other

Project
Title Total Amount Excution Duration Client
Sub-project supported by Ministry of Education - i-Space 31萬 99 - 99 Ministry of Education
Emotion Detection System Based on Audiovisual Signal Fusion 55.7萬 99 - 100 NSC
99年度前瞻晶片系統設計(SOC)學程II 28萬 99 - 100 Ministry of Education
Development of Visual-Audio Aid Systems Based on Virtual Acoustics 62.8萬 98 - 99 NSC
98年度前瞻晶片系統設計(SOC)學程 22萬 98 - 99 Ministry of Education
教育部嵌入式系統設計課程推廣計畫 8萬 98 - 99 Ministry of Education
Multichannel Signal Synthesis and Hardware/Software Co-design Based on Virtual Technology 38.8萬 98 - 99 NTUST
Sub-project supported by Ministry of Education - i-Space 51萬 98 - 98 Ministry of Education
Sub-project supported by Ministry of Education - i-Space 58萬 97 - 97 Ministry of Education
Development of Digital Stethoscope for Bowel Sound Detection and Clinical Application 10萬 100 - 100 TSGH-NTUST
Audio Enhancement and Restoration Using Gaussian Based Granular Synthesis 47.8萬 100 - 101 NSC
Computational Music Scene Analysis and Synthesis Using Perception Based Ensemble Empirical Mode Decomposition 176.8萬 0000-00-00 - 0000-00-00 NSC

Student
Ph.D
M.S
100
Fast Ensemble Empirical Mode Decomposition for Speech-Like Signal Analysis Using Shaped Noise Addition
JyngSiang Wang
100
Nonlinear calibration of the room transfer function for multichannel audio system
YiHen Chen
99
Reconstruction of Multiple Simple Objects Using Reduced Camera Set
DaRen Wang
99
Near-field Sound Source Imaging System Using Ensemble Empirical Mode Decomposition
YungCheng Chao
Student's Project
99
Emotion Detection Based on Intelligent Speech Processing
Huei-Cih Jhuang
99
Software Development of Sound Patch System
ChiRen Chen
99
High Definition Voice Morphing-II
YunLing Chu
98
ZigBee Based Wireless Loudspeakers
BoYeng Chen
98
Object Collision Detection Based on Ellipsoid Rendering
DongLiang Shih
98
High Definition Voice Morphing
KaiWeng Cheng
98
Reconstruction of 3D Environment
FuShun Leu
98
3D Interactive Game Development Based on Real-Time Image Processing
SyuJhih Hong
98
Physical Characteristic Simulation Based on Open Dynamics Engine
Chun Chang
97
Virtual Mirror
ChiMing Huang
97
Multichannel Audio System Design
ChunI Yeh
Student's Honor