1. Wen-Chung Kao, Chien-Hui Liu, Shu-Cheng Liou, Jui-Che Tsai, and Guan-Hao Hou, “Towards video display on electronic papers,” IEEE/OSA Journal of Display Technology, 2015
  2. W. C. Kao, H. Y. Chen, Y. H. Liu, and S. C. Liou, “Hardware engine for supporting gray-tone paintbrush function on electrophoretic papers,” IEEE/OSA Journal of Display Technology, vol. 10, no. 2, pp. 138 – 145, Feb. 2014
  3. W. C. Kao, Y. C. Kang, C. H. Liu, W. T. Chang, and J. A. Ye, “Hardware engine for real-time pen tracking on electrophoretic displays,” IEEE/OSA Journal of Display Technology, vol. 9, no. 3, pp. 139 - 145, Mar. 2013.
  4. O. Cadenas, R. S. Sherratt, P. Huerta, W. C. Kao, and G. M. Megson, “C-slow retimed parallel histogram architectures for consumer imaging devices,” IEEE Trans. Consumer Electronics, vol. 59, no. 2, pp. 291 – 295, May 2013
  5. Parallel pipelined array architectures for high performance histogram analysis in consumer devices. 2011.
  6. Kao, W. C., & Wei, C. C. (2011). Automatic phonocardiograph signal analysis for detecting heart valve disorders. Expert Systems with Applications, 38(6), 6458-6468.
  7. Kao, W. C., Hsu, M. C., & Yang, Y. Y. (2010). Local contrast enhancement and adaptive feature extraction for illumination-invariant face recognition. Pattern Recognition, 43(5), 1736-1747.

  1. Wen-Chung Kao and Yi-Chin Chiu, "Eyeball model construction and matching for visible-spectrum gaze tracking systems," in Proc. IEEE 8th International Conference on Consumer Electronics - Berlin, Berlin, Sep. 2017.
  2. Wen-Chung Kao, Chun-Wei Shen, Chao-Jung Wu, "Reading behavior analysis with gaze tracking data," in Proc. IEEE International Conference Consumer Electronics-Taiwan, Taiwan, May 2018.
  3. Wen-Chung Kao, Kuan-Jen Huang, Yi-Chin Chiu, Ming-Yang Hung, and Chun-Wei Shen, “Real-time image magnifier with visible-spectrum gaze tracker," in Proc. IEEE International Symposium Consumer Technology, Russia, May 2018, pp 22 -23.
  4. Wen-Chung Kao, Ming-Yang Hung, Jui-Che Tsai, Yi-Chin Chiu, and Chun-Wei Shen, "Binocular gaze tracker with head movement compensation," in Proc. IEEE Global Conference Consumer Electronics, Nagoya, Japan, Oct. 2017
  5. Wen-Chung Kao and Yi-Chin Chiu, "Hierarchical search of optimal limbus circle matching for gaze tracking systems," in Proc. IEEE 7th International Conference on Consumer Electronics - Berlin, Berlin, Sep. 2017.
  6. Wen-Chung Kao, Jui-Che Tsai, and Yi-Chin Chiu, "Parallel computing architecture for eye tracking systems," in Proc. IEEE International Conference Consumer Electronics-Taiwan, Taiwan, May 2017.
  7. Wen-Chung Kao, Chia-Yi Lee, Chun-Yi Lin, Ting-Yi Su, Bai-Yueh Ke, and Chung-Yu Liao, “Gaze tracking with particle swarm optimization,” in Proc. IEEE International Symposium Consumer Electronics (ISCE), Spain, June 2015.
  8. Wen-Chung Kao and Chien-Hui Liu, "Driving waveform design for playing animations on electronic papers," in Proc. IEEE International Conference Consumer Electronics, Las Vegas, US, January 2015.
  9. Playing videos on the electronic paper, which is composed of the electrophoretic display (EPD), is an attractive feature, but none of commercial EPDs supports it. This is because the response time of the EPD is much longer than liquid crystal displays. In addition, the number of gray tones shown on the EPD is quite limited, and the state transitions between successive frames can be achieved by complicated driving waveforms. These issues result in the difficulties of supporting video display function on the EPD. In this paper, we propose a new real-time signal processor for the EPD. The processor is composed of hardware modules for producing halftoned video frames, encoding video data, and sending driving waveform to the display in real time to show good quality of videos on the EPD.
  10. Real-time gaze tracking would be a key function for smart consumer electronics in the near future. But most gaze tacking system relies on strong IR light to enhance illumination, thus this results in poor user experience. In this paper, we present a high speed eye tracking system which is operated in a normal lighting condition. In addition to some image enhancement steps, the new system includes a dynamic training/prediction stage to further improve the detection accuracy of gaze points. The experimental result shows that the system can achieve the accuracy of 0.76° and 1.43° for the horizontal and vertical coordinates of the detected iris center, respectively.

名稱 開始日期 結束日期 委託單位 編號 參與身份別
彩色電子紙訊號處理晶片設計 (1/3) 2019/08/01 2020/07/31 科技部(原國科會) MOST 108-2221-E-003 -009 -MY3 主持人
高速可見光眼動儀系統晶片設計(I) 2018/08/01 2019/07/31 科技部(原國科會) MOST 107-2221-E-003-019 主持人
可攜式可見光眼動儀:眼動資料分析、心理意涵探討、使用者介面設計-子計畫三:可攜式可見光眼動儀特徵指標自動分析工具開發 (3/3) 2017/08/01 2018/07/31 科技部(原國科會) MOST 104-2511-S-003 -016 -MY3 主持人
可攜式可見光眼動儀:眼動資料分析、心理意涵探討、使用者介面設計-子計畫三:可攜式可見光眼動儀特徵指標自動分析工具開發 (2/3) 2016/08/01 2017/07/31 科技部(原國科會) MOST 104-2511-S-003 -016 -MY3 主持人
可攜式可見光眼動儀:眼動資料分析、心理意涵探討、使用者介面設計-子計畫三:可見光眼動儀特徵指標自動分析工具開發 (1/3) 2015/08/01 2016/07/31 科技部(原國科會) MOST 104-2511-S-003 -016 -MY3 主持人
彩色電泳顯示器控制晶片設計(I) 2014/08/01 2015/07/31 國科會 MOST 103-2221-E-003 -030 主持人
三維視覺系統晶片平台開發(3/3) 2013/08/01 2014/07/31 國科會 NSC 100-2221-E-003 -012 -MY3 主持人
有機薄膜電晶體陣列之電泳顯示器驅動系統設計(2/2) 2012/08/01 2013/07/31 國科會 NSC 100-2221-E-003 -011 -MY2 主持人
三維視覺系統晶片平台開發(2/3) 2012/08/01 2013/07/31 國科會 NSC 100-2221-E-003 -012 -MY3 主持人
應用於口腔癌早期診斷之新型繼光鏡掃描式超頻譜生醫影像擷取與快速分析系統(3/3) 2011/11/01 2012/10/31 科技部(原國科會) NSC 100-2218-E-039 -001 協同/共同主持人
有機薄膜電晶體陣列之電泳顯示器驅動系統設計(1/2) 2011/08/01 2012/07/31 國科會 :NSC 100-2221-E-003 -011 -MY2 主持人
三維視覺系統晶片平台開發(1/3) 2011/08/01 2012/07/31 國科會 NSC 100-2221-E-003 -012 -MY3 主持人
彩色軟性電子紙關鍵技術開發計畫(3/3) 2011/08/01 2012/07/31 國科會 NSC 100-2622-E-003 -001 -CC 主持人
有機薄膜電晶體陣列之電泳顯示器驅動系統設計(I) 2010/08/01 2011/07/31 國科會 NSC 99-2221-E-003-028 主持人
應用於口腔癌早期診斷之新型繼光鏡掃描式超頻譜生醫影像擷取與快速分析系統(1/3) 2009/11/01 2010/10/31 國科會 NSC 98-2218-E-039 -001 協同/共同主持人
居家型護理機器人系統設計 - 智慧型即時診斷系統晶片平台設計(3/3) 2009/08/01 2010/07/31 國科會 NSC 96-2221-E-003-013-MY3 主持人
彩色軟性電子紙關鍵技術開發計畫(2/3) 2009/08/01 2010/07/31 國科會 NSC 98-2622-E-003 -001 -CC1 總主持人
彩色軟性電子紙關鍵技術開發計畫(1/3) 2008/08/01 2009/07/31 國科會 NSC 97-2622-E-003 -003 -CC1 總主持人
居家型護理機器人系統設計 - 智慧型即時診斷系統晶片平台設計(2/3) 2008/08/01 2010/07/31 國科會 NSC 96-2221-E-003-013-MY3 主持人
智慧型機器人視覺系統晶片平台設計(2/2) 2007/08/01 2008/07/31 國科會 NSC 95-2221-E-003-018-MY2 主持人
居家型護理機器人系統設計 - 智慧型即時診斷系統晶片平台設計(1/3) 2007/08/01 2010/07/31 國科會 NSC 96-2221-E-003-013-MY3 主持人
遠距居家照護系統設計─子計劃四隨身照護系統晶片平台設計 (III) 2006/10/01 2007/09/30 國科會 NSC 95-2218-E-003 -005 主持人
智慧型機器人視覺系統晶片平台設計(1/2) 2006/08/01 2008/07/31 國科會 NSC 95-2221-E-003 -018 -MY2 主持人
遠距居家照護系統設計–子計劃四隨身照護系統晶片平台設計 (II) 2005/10/01 2006/09/30 國科會 NSC 94-2218-E-003 -002 主持人
遠距居家照護系統設計–子計劃四隨身照護系統晶片平台設計 (I) 2004/10/01 2005/09/30 國科會 NSC 93-2218-E-003 -003 主持人
晶片系統架構技術及開發平台研究之推動(3/3) 附屬計畫九【數位相機之影像辨認系統】 2004/08/01 2005/07/31 國科會 NSC 93-2215-E-002 -010/009 分項計畫主持人