論文著作
五年內期刊論文:
1. Shih-Song Cheng, Paul C.-P. Chao*, “An Ultra-High 6318 PPI Pixel Circuit for Micro OLED Displays with Vth Compensated up to 10-bit Gray Levels,” Dec 2023, IEEE Journal of Solid-State Circuits, accepted. (SCI Journal, Impact Factor = 6.126, Ranking = 57/708 (0.080), Instruments & Instrumentation).
2. Shih-Song Cheng, Paul C.-P. Chao*, “A High 6318-PPI Pixel Circuit That Realizes 10-bit Gray Levels for Analog-PWM Driven Micro-LED Displays,” Dec 2023, IEEE Transations on Electron Devices, accepted. (SCI Journal, Impact Factor = 3.221, Ranking = 183/708 (0.258), Electrical and Electronic Engineering)
3. Shih-Song Cheng, Paul C.-P. Chao*, “A High 5292-PPI Pixel Circuit for Micro Displays with 10-bit Gray Levels Realized via the Technique of Analog Sub-Frame Integral,” Aug 2023, IEEE Journal of the Electron Devices Society, vol. 11, pp. 456-466. (SCI Journal, Impact Factor = 2.523, Ranking = 150/276 (0.543), Electrical and Electronic Engineering)
4. Shih-Song Cheng, Paul C.-P. Chao*, “A New SRAM-Embedded Pixel Circuit That Modulates Accurately Gray Level for PWM-Driven Micro-LED Displays,” June 2023, IEEE Solid-State Circuits Letters, vol. 6, pp. 157-160. (SCI Journal, Impact Factor = 2.7, Ranking = 14/72 (0.194), Instruments & Instrumentation).
5. Smriti Thakur, Paul C.-P. Chao* and Cheng-Han Tsai, “Precision Heart Rate Estimation Using a PPG Sensor Patch Equipped with New Algorithms of Pre-Quality Checking and Hankel Decomposition,” July 2023, Sensors, vol. 23, Iss 13, pp. 6180. (SCI Journal, Impact Factor = 3.9, Ranking = 19/63 (0.301), Instruments & Instrumentation).
6. Jun-Lin Lin, Pao-Ying Zheng and Paul C.-P. Chao*, 2023, “A new ECC implemented by FPGA with favorable combined performance of speed and area for lightweight IoT edge devices,” Microsystem Technologies, Access 176, 2023. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
7. I-Feng Chang, Hao-Ren Chen and Paul C.-P. Chao*, 2023, “Design and Implementation for a High Efficiency Hardware Accelerator to Realize the Learning Machine for Predicting OLED Degradation,” Microsystem Technologies, vol. 29, pp. 1069–1081, January 2023. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
8. Yi-Chang Lee, Jen-Yi Hsu and Paul C.-P. Chao*, 2023, “Design and Implementation of Machine Learning Models to Classify and Mitigate Muras of a Micro-LED Display,” Microsystem Technologies, vol. 29, pp. 1083–1098 29, Apr 2023. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
9. Chun-Heng You, Shuen-Ming Tsai and Paul C.-P. Chao*, 2023, “A novel clock recovering circuit to thwart clock glitch attacks on ring-oscillator-based TRNGs in edge devices like sensors,” Microsystem Technologies, vol. 29, pp. 1137–1145, Apr 2023. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
10. Duc Huy Nguyen, Paul C.-P. Chao*, Chih-Chieh Chung, Ray-Hua Horng, Bhaskar Choubey, 2022, “Detecting Atrial Fibrillation in Real Time Based on PPG via Two CNNs for Quality Assessment and Detection,” IEEE Sensors Journal, vol. 22, no. 24, 1 pp. 24102-24111. (SCI Journal, Impact Factor = 4.61, Ranking = 14/72 (0.194), Instruments & Instrumentation).
11. W.-W. Yen, Paul C.-P. Chao*, 2022, “A ZVS Phase-Shift Full-Bridge Converter with Input Current Steering to Reduce EMI noise,” IEEE Transactions on Power Electronics, vol. 37, iss. 10, pp. 11937-11950. (SCI Journal, Impact Factor = 6.153, Ranking = 26/344 (0.076), Electrical and Electronic Engineering).
12. Paul C.-P. Chao*, Shih-Song Cheng, Chiu-Hao Chen, and Kuei-Yu Lee, 2022, “A New IR-drop Model that Improves Effectively the Brightness Uniformity of an AMOLED Panel,” IEEE Journal of the Electron Devices Society, vol. 10, pp. 627-636. (SCI Journal, Impact Factor = 2.523, Ranking = 150/276 (0.543), Electrical and Electronic Engineering).
13. Duc Huy Nguyen, Paul C.-P. Chao*, Hong-Han Shuai, Yu-Wei Fang, and Bing Shi Lin, 2022, “Achieving High Accuracy in Predicting Blood Flow Volume at the Arteriovenous Fistulas of Hemodialysis Patients by Intelligent Quality Assessment on PPGs,” IEEE Sensors Journal, vol. 22, iss. 6, pp. 5844 - 5856. (SCI Journal, Impact Factor = 4.325, Ranking = 14/72 (0.194), Instruments & Instrumentation).
14. Tongjun Liu, Paul C.-P. Chao, Bhaskar Choubey, 2022, “Enhanced sensory identification in arrays of coupled resonant sensors,” IEEE Sensors Journal, vol. 22, Iss. 9, pp. 8557 - 8564. (SCI Journal, Impact Factor = 4.325, Ranking = 14/72 (0.194), Instruments & Instrumentation).
15. S. F. Lin, D. H. Nguyen, Paul C.-P. Chao*, H. R. Chen, 2022, “Prediction of OLED Temperature Distribution Based on Neural Network,” Microsystem Technologies, vol. 28, pp. 2215–2224. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
16. Phan Tan-Phat, Paul C.-P. Chao*, Huang Zih-We, 2022, “Design and implementation of a new torque controller via FPGA for 6-DOF articulated robots,” Microsystem Technologies, vol. 28, pp. 2259–2276. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
17. Rajeev Kumar Pandey and Paul C.-P. Chao*, 2022, “Design and development of a photoplethysmography based microsystem for mental stress estimation,” Microsystem Technologies, vol. 28, pp. 2277–2296. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
18. Rajeev Kumar Pandey, Eka Fitrah Pribadi and Paul C.-P. Chao*, 2022, “Technology scaling impact on VLSI interconnect and low swing signaling technique,” Microsystem Technologies, vol. 28, pp. 2337–2351. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
19. Eka Fitrah Pribadi, Rajeev Kumar Pandey and Paul C.-P. Chao*, 2022, “A New Delta-Sigma Analog to Digital Converter with High-Resolution and Low Offset for Detecting Photoplethysmography Signal,” Microsystem Technologies, vol. 28, pp. 2369–2379. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
20. C. K. Tasu, D. H. Nguyen, Bhaskar Choubey and Paul C.-P. Chao*, 2022, “High-performance infrared image processing with gray-scale dynamic range correction implemented by FPGA,” Microsystem Technologies, vol. 28, pp. 2235–2248. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
21. Rajeev Kumar Pandey and Paul C.-P. Chao*, 2022, “A Dual-Channel PPG Readout System with Motion Tolerant Adaptability for OLED-OPD Sensors," IEEE Transactions on Biomedical Circuits and Systems, vol. 16, no. 1, pp. 36-51. (Invited Paper for the Special Issue of ISCAS 2021, SCI Journal, Impact Factor = 5.234, Ranking = 59/276 (0.213), Eng., Electrical & Electronics)
22. Paul C.-P. Chao*, Chih-Cheng Wu, Duc Huy Nguyen, Ba-Sy Nguyen, Pin-Chia Huang and Van-Hung Le, 2021, “The Machine Learnings Leading the Cuffless PPG Blood Pressure Sensors into the Next Stage,” IEEE Sensors Journal, vol. 21, iss. 11, pp. 12498-12510. (Invited Paper for celebrating the 20th Anniversary of the IEEE Sensors Journal, SCI Journal, Impact Factor = 4.325, Ranking = 14/72 (0.194), Instruments & Instrumentation).
23. Wan-Yu Wu, Yu-Hsuan Hsu, Yi-Fan Chen, Yuh-Renn Wu, Han-Wen Liu, Tse-Yi Tu, Paul P.-C. Chao, Chih-Shan Tan, and Ray-Hua Horng, 2021, “Wearable Devices Made of a Wireless Vertical-Type Light-Emitting Diode Package on a Flexible Polyimide Substrate with a Conductive Layer,” ACS Applied Electronic Materials, vol. 3, iss. 2, pp. 979-987, DOI: 10.1021/acsaelm.0c0107. (SCI Journal, Impact Factor = 4.494, Ranking = 77/276 (0.27), Engineering, Electrical & Electronic)
24. Duc Huy Nguyen, Yu-Ting Chen, Tse-Yi Tu, Paul C.-P. Chao*, Yu-Wei Fang, Bing-Shi Lin, 2021, "A new blood flow volume sensor with embedded estimation of SpO2 to maximize its accuracy," Microsystem Technologies, vol. 27, iss. 6, pp. 2433-2445. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
25. Ba-Sy Nguyen and Paul C.-P. Chao*, 2021, "A switch module stacked by a 4 × 3 IGBT array with balanced voltage sharing for PEF applications," Microsystem Technologies, vol. 27, iss. 6, pp. 2407-2418. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
26. C. P. Chang, W.-W. Yen, and Paul C.-P. Chao*, 2021,"Design and simulation of a new wireless power transfer circuit with a single-stage regulating rectifier for flexible sensor patches,” Microsystem Technologies, vol. 27, iss. 6, pp. 2303–2314. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
27. Rajeev Kumar Pandey, Tse-Yu Lin, and Paul C.-P. Chao*, 2021, "Design and implementation of a photoplethysmography acquisition system with an optimized artificial neural network for accurate blood pressure measurement," Microsystem Technologies, vol. 27, iss. 6, pp. 2345-2367. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
28. Eka Fitrah Pribadi, Rajeev Kumar Pandey and Paul C.-P. Chao*, 2021, "Design and implementation of a new light to digital converter for the PPG sensor," Microsystem Technologies, vol. 27, iss. 6, pp. 2461-2472. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
29. Ba-Sy Nguyen, Wen-Wei Yen, Paul C.-P. Chao*, and Sheng-Ching Wang, Aug 2020, “A New High-Efficiency Power Management Circuit for a Novel Two-Phase Compensated Pulse Alternator,” IEEE Transactions on Plasma Science, vol. 48, Iss. 9, pp. 3176-3187. (SCI Journal, Impact Factor = 1.56, Ranking = 24/34(0.705), Physics, Fluids & Plasma)
30. Hong-Yu Chiu, Austin Shuai and Paul C.-P. Chao, June 2020, “Reconstructing QRS Complex from PPG by Transformed Attentional Neural Networks,” IEEE Sensors Journal, vol. 20, Iss. 20, pp. 12374-12383. (SCI Journal, Impact Factor = 3.301, Ranking = 14/72(0.194), Instruments & Instrumentation).
31. W.-W. Yen, and Paul C-P. Chao*, 2020, "Backpack energy harvester managed by a modified fly-back converter," Microsystem Technologies, vol. 55, pp. 1-11. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
32. Pandey, Rajeev Kumar, and Paul C-P. Chao*, 2020, "External temperature sensor assisted a new low power photoplethysmography readout system for accurate measurement of the bio-signs," Microsystem Technologies, vol. 27, iss. 6, pp. 2315-2343. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
33. Rajeev Kumar Pandey, Tzu Hao Huang, Wei-Hsuan Ho, Eka Fitrah Pribai and Paul C.-P. Chao*, 2020, “Achieving Sensing Precision Of 0.5nA In Pixel with 7us Settling Time by a New External Current Sensing Circuit for AMOLED Displays,” Microsystem Technologies, vol. 26, pp. 3349–3369. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
34. Wen-Yu Chen, I-Feng Chang, Paul C.-P. Chao*, Smriti Thakur and Tse-Yi Tu, 2020, “Design and implementation of a new high-accuracy interpolation encoder IC for magneto-resistive sensors,” Microsystem Technologies, vol. 26, pp. 3547–3559. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
35. Jeremy H.-S. Wang, Ming-Hua Yeh, Paul C.-P. Chao*, Tse-Yi Tu, Yuan-Hwa Kao, Rajeev Pandey, 2020, “A fast digital chip implementing a real-time noise-resistant algorithm for estimating blood pressure using a non-invasive, cuffless PPG sensor,” Microsystem Technologies, vol. 26, pp. 3501–3516. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
36. Chia Yu Chang, Paul C.-P. Chao*, 2020, “A Fast-Sensing Readout Circuit Enabled by Code Division Multiple Access Implemented for an Ultra-Thin On-Cell Flexible Capacitive Touch Panel,” Microsystem Technologies, vol. 26, pp. 3517–3531. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
37. Eka Fitrah Pribadi, Rajeev Kumar Pandey and Paul C.-P. Chao*, 2020, “Optimizing a novel PPG sensor patch via optical simulations towards accurate heart rates,” Microsystem Technologies, vol. 26, pp. 3409–3420. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
38. Tse-Yi Tu and Paul C.-P. Chao*, 2019, “Optimal Design of a New Strain-type Sensor for Cuff-less Blood Pressure Measurement via Finite Element Modeling and Taguchi Method,” IEEE Sensors Journal, vol. 19, Iss. 22, pp. 10355-10364. (SCI Journal, Impact Factor = 4.325, Ranking = 14/72(0.194), Instruments & Instrumentation)
39. Ming-Cheng Liu, Eka Fitrah Pribadi, Paul C.-P. Chao*, Rajeev Kumar Pandey, 2019, “A low-power reference-less clock/data recovery for visible light communication devices requiring low data throughput,” Microsystem Technologies, vol. 26, pp. 171–181. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
40. Ching-Cheng Yang, Rajeev Pandey, Tse-Yi Tu, Yuan-Po Cheng, Paul C.-P. Chao*, 20219, “An efficient energy harvesting circuit for batteryless IoT devicest,” Microsystem Technologies, vol. 26, pp. 195–207. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
41. Pei-Yu Chiang, Paul C.-P. Chao*, Tse-Yi Tu, Yung-Hua Kao, Chih-Yu Yang, Der-Cherng Tarng and Chin-Long Wey, 2019, “Machine Learning Classification for Assessing the Degree of Stenosis and Blood Flow Volume at Arteriovenous Fistulas of Hemodialysis Patients Using a New Photoplethysmography Sensor Devic,” MDPI Sensors, vol. 19, pp. 3422. (SCI Journal, Impact Factor = 3.576, Ranking =18/94 (0.191), Optics, Ranking = 16/61 (0.262), Instrument and Instrumentation)
42. Yung-Hua Kao, Paul C.-P. Chao* and Chin-Long Wey, 2019, “Design and Validation of a New PPG Module to Acquire High-Quality Physiological Signals for High-Accuracy Biomedical Sensing,” IEEE Journal of Selected Topics in Quantum Electronics, vol. 25, no. 1, pp. 69000210. (SCI Journal, Impact Factor = 4.544, Ranking =14/99 (0.141), Optics)
43. Yung-Hua Kao, Paul C.-P. Chao* and Chin-Long Wey, 2018, “Towards maximizing the sensing accuracy of an cuffless, optical blood pressure sensor using a high-order front-end filter,” Microsystem Technologies, vol. 24, iss. 11, pp. 4621–4630. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
44. Paul C.-P. Chao*, Pei-Yu Chiang, Yung-Hua Kao, Tse-Yi Tu, Chih-Yu Yang, Der-Cherng Tarng, Chin-Long Wey, 2018, “A Portable, Wireless Photoplethysomography (PPG) Sensor for Detecting Arteriovenous Fistula (AVF) Dysfunction Using Support Vector Machine,” MDPI Sensors, Vol. 18, Iss. 11, pp. 3854. (SCI Journal, Impact Factor = 3.014, Ranking =18/94 (0.191), Optics, Ranking = 16/61 (0.262), Instrument and Instrumentation)
45. Trong-Hieu Tran, Yu-Jen Wang, Chun-Kai Cheng, Paul C.-P. Chao*, Chun-Chieh Wang, 2018, “Using maximum likelihood to calibrate a six-DOF force/torque sensor,” Microsystem Technologies, vol. 24, iss. 11, pp. 4493-4509. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
46. Ming-Hung Yu and Paul C.-P. Chao*, 2018, “A new multi-mode multi-input–multi-output (MIMO) converter in an efficient low-voltage energy harvesting system for a gas sensor,” International Journal of Engineering Development and Research, vol. 6, iss. 3, pp. 352–358. (ISSN: 2321-9939)
47. Chun-Kai Cheng and Paul C.-P. Chao*, 2018, “Trajectory Tracking between Josephson Junction and Classical Chaotic System via Iterative Learning Control,” Applied Science, vol. 8, pp. 1285, Aug, 2018. (SCI Journal, Impact Factor = 1.913, Ranking = 150/274 (0.547), Multi-disciplinary)
48. Ming-Hung Yu and Paul C.-P. Chao*, 2018, “A new multi-mode multi-input–multi-output (MIMO) converter in an efficient low-voltage energy harvesting system for a gas sensor,” Microsystem Technologies, vol. 24, iss. 11, pp. 4477–4492. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
49. Chun-Kai Cheng and Paul C.-P. Chao*, 2018, “Chaotic Synchronizing Systems with Zero Time Delay and Free Couple via Iterative Learning Control,” Applied Science, vol. 8, pp. 177, Jan, 2018. (SCI Journal, Impact Factor = 1.913, Ranking = 150/274 (0.547), Multi-disciplinary)
50. Tse-Yi Tu and Paul C.-P. Chao*, 2018, “Continuous Blood Pressure Measurement Based on a Neural Network Scheme Applied with a Cuffless Device,” Microsystem Technologies, vol. 24, iss. 11, pp. 4539-4549. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
51. Pei-Yu Chiang and Paul C.-P. Chao*, Chih-Yu Yang, Der-Cherng Tarng, 2018, “Theoretical Developments and Clinical Experiments of Measuring Blood Flow Volume (BFV) at Arteriovenous Fistula (AVF) Using a Photoplethysmography (PPG) Sensor,” Microsystem Technologies, vol. 24, iss. 11, pp. 4587–4603. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
52. Paul C.-P. Chao*, Yu-Te Liao, Yu-Jen Wang, 2018, “The ISPS 2017 editorial for the 26th annual conference on information storage and processing systems, San Francisco, California, USA” Microsystem Technologies, vol. 24, iss. 11, pp. 4437. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
53. Tsung-Yen Ku, Paul C.-P. Chao*, Chin-Hai Huang, En-Chih Liu, Ming-Hua Yeh, Tong-Wen Wang, 2018, “Design and validation of the readout circuitry for an in-cell active-matrix capacitive (IAMC) touch panel,” Microsystem Technologies, vol. 24, iss. 11, pp. 4551-4559. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).
54. Eric P.-Y. Chiang, Paul C.-P. Chao*, Der-Cherng Tarng, Chih-Yu Yang, 2017, “A Novel Wireless Photoplethysmography Blood Flow Volume Sensor for Assessing Arteriovenous Fistula of Hemodialysis Patients,” IEEE Transactions on Industrial Electronics, vol. 64, iss. 12, pp. 9626-9635, 2017. (SCI Journal, Impact Factor = 7.050, Ranking = 1/61 (0.016), Instruments & Instrumentation, MOST 104-2923-M-009-002-, 105-2623-E-009-009-D and 105-2633-B-009-003)
55. Huai-San Wang, Kang-Fu Qiu and Paul C.-P. Chao*, 2017, “Control design and digital implementation of a fast 2 degree-of-freedom (2-DOF) translational optical image stabilizer (OIS) for image sensors in mobile camera phones,” MDPI Sensors, vol. 17, iss. 10, pp. 2333. (SCI Journal, Impact Factor = 3.014, Ranking =18/94 (0.191), Optics, Ranking = 16/61 (0.262), Instrument and Instrumentation, MOST 105-2923-M-009-006, 105-2634-F-009-002, 106-2221-E-009-089 and 106-2218-E-009-011, 105-2633-B-009-003)
56. Trong-Hieu Tran, Hsuan-Wen Peng, Paul C.-P. Chao*, Jing-Wen Hsieh, 2017, “A Low-ppm Digitally Controlled Crystal Oscillator Compensated by a New 0.19 mm2 Time-Domain Temperature Sensor,” IEEE Sensors Journal, vol. 17, iss. 1, pp. 51 - 62. (SCI Journal, Impact Factor = 2.512, Ranking = 12/58 (0.207), Instruments & Instrumentation, MOST 104-2923-M-009-002-, 105-2623-E-009-009-D and 105-2633-B-009-003)
57. Kuo-Yu Chou, Paul C.-P. Chao*, Chuan-Xin Chen, Chang-Xian Wu, 2017, “Modeling and Analysis of Touch on Flexible Ultra-Thin Touch Panels for AMOLED Displays Employing Finite Element Method,” Microsystem Technologies, vol. 23, iss. 11, pp. 5211–5220. (SCI Journal, Impact Factor = 2.276, Ranking = 90/190(0.562), Physics, Applied).