研究生: |
張明珠 Ming-chu Chang |
---|---|
論文名稱: |
照明色溫對於人的生理訊號之影響 Color Temperature Affect Physiologic Signals |
指導教授: |
胡能忠
Neng-chung HU 吳錦銓 Chin-chuan WU |
口試委員: |
歐陽盟
Mang Ou-Yang |
學位類別: |
碩士 Master |
系所名稱: |
電資學院 - 電子工程系 Department of Electronic and Computer Engineering |
論文出版年: | 2011 |
畢業學年度: | 99 |
語文別: | 中文 |
論文頁數: | 64 |
中文關鍵詞: | LED 、情緒 、警覺程度 、腦波 、皮膚導電係數 、皮膚溫度 |
外文關鍵詞: | LED, Emotion, Arousal Level, Skin Conductance, Skin Temperature, Electroencephalography (EEG) |
相關次數: | 點閱:717 下載:22 |
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本論文研究主要分為兩個部分,第一部分探討2D及3D電視影像對於人們生理及心理訊號的影響。第二部分探討光源色溫對人警覺程度的影響,主要探討固定色溫及可調變色溫對人警覺程度的影響,以市售之高色溫光源(6500K),及本色彩照明實驗室自製之LED全頻譜可變換式光源模組,調製出三種高色溫光源(6500K、9000K、12000K)為照明光源,因此本研究在於高色溫光源對人類警覺程度的變化之研究,進而找出符合人類需求之最佳變換式光源。而本研究皆以腦波(EEG)、皮膚導電係數、皮膚溫度等生理訊號來探討情緒與警覺程度的變化。
In this thesis, the analysis of TV visual stimulants of 2-dimension and 3-dimension for physiological signals and the study of effects of high CCT on arousal level are completed. Firstly, in the test of the analysis of TV visual stimulants of 2D and 3D for physiological signals, we utilizes the skin conductance response and the left and right brain hemispheres differences as the objective measuring index. Meanwhile, the subjective measurements we use the “SSQ (Seizure Severity Questionnaire)” questionnaire to quantify the emotional differences. Secondly, the influence of tunable high CCT and fixed CCT on arousal level is being studied. This experiment is implemented by fixed artificial light, commercial CCFL (6500K) and tunable artificial light ranging from 6500K to 12000K. The tunable light is full spectrum light and can be adjust to color temperature 6500K, 9000K, and 12000K. We measure EEG, skin conductance, and skin temperature to find the effect of human arousal level and emotion. In conclusion, we understand the effect of 2D and 3D visual stimulants affecting the subjects’ emotions in both objective and subjective aspects and find that tunable high CCT increases arousal level.
[1]Figueiro M.G., Bierman A, Plitnick B and Rea MS, “Preliminary evidence that both blue and red light can induce alertness at night,” BMC Neurosci, Vol.10, pp.105(2009).
[2]蔡佳辰,“放鬆介入對化療癌症患者其焦慮緩解之效果,”國立成功大學護理學系碩士論文,民國九十七年。
[3]Benjamin G. Zifkin1,Giuliano Avanzini2, “Clinical neurophysiology with special reference to the electroencephalogram”,1528-1167.2009
[4]Schmidt, L.A., Trainor, L.J., 2001. Frontal brain electrical activity (EEG) distinguishes valence and intensity of musical emotions. Cognition and Emotion 15, 487–500.
[5]大田登原著,陳鴻興、陳君彥編譯,”基礎色彩再現工程”,全華圖書股份有限公司, (2009.11)
[6]石曉蔚著,”室內照明設計原理 Fundamentals of lnterior light design”,淑馨出版社,1996
[7]大田登原著,陳鴻興、陳詩涵譯,色彩工程學 理論與應用,全華圖書股份有限公司,2007.6。
[8]http://en.wikipedia.org/wiki/File:PlanckianLocus.png
[9]Elizabeth R. Sowell1, Paul M. Thompson1, Colin J. Holmes1, Terry L. Jernigan2 and Arthur W. Toga1,”In vivo evidence for post-adolescent brain maturation in frontal and striatal regions” 1999.10
[10]Rita Carter原著,洪蘭譯,大腦的秘密檔案,遠流出版事業股份有限公司,民國九十一年。
[11]Coan, J. A., & Allen, J. J. (2004). Frontal EEG asymmetry as a moderator and mediator of emotion. Biological Psychology, 67, 7–50.
[12]Tomarken AJ, Davidson RJ, Henriques JB (1990): Resting frontal brain asymmetry predicts affective responses to films. J Pers Soc Psychol 59:791–801
[13]Sammler, D., Grigutsch, M., Fritz, T., and Koelsch, S. (2007). Music and emotion: Electrophysiological correlates of the processing of pleasant and unpleasant music. Psychophysiology 44, 293–304.
[14]Schmidt, L.A., Trainor, L.J., 2001. Frontal brain electrical activity (EEG) distinguishes valence and intensity of musical emotions. Cognition and Emotion 15, 487–500.
[15]http://ibru.vghtpe.gov.tw/eeg.htm”台北榮民總 醫院教學研究部整合性腦功能研究”
[16]謝元凱、董逸華、梁美玲著,”發現大腦的奧秘”,慈濟傳播人文志業基金會,2009年2月
[17]Arjen M. Strijkstra, Domien G. M. Beersma, Berdine Drayer, Nynke Halbesma and Serge Daan,” Subjective sleepiness correlates negatively with global alpha (8–12 Hz) and positively with central frontal theta (4–8 Hz) frequencies in the human resting awake electroencephalogram “ 2003, Pages 17-20
[18]Barry RJ, Clarke AR, Johnstone SJ, Magee CA, Rushby JA, “EEG differences between eyes-closed and eyes-open resting conditions,” Clin Neurophysiol, Vol.118, pp.2765–2773(2007).
[19]Lighting Res. Technol. 36,4 (2004) pp.255-268
[20]Love, A. W., Kissane, D. W., Bloch, & Clarke, D. M.” Diagnostic efficacy of the hospital Anxiety and Depression Scale in women with early stage breast cancer.” 36, 246-250.Lowenstein, T. J. (2002). Stress and body temperature. (2002).
[21]R.J. Barry, J.A. Rushby, M.J. Wallace, A.R. Clarke, S.J. Johnstone and I. Zlojutro, Caffeine effects on resting-state arousal, Clin Neurophysiol 116 (2005), pp. 2693–2700.
[22]Baumgartner, T., Esslen, M., Jancke, L., 2006. From emotion perception to emotion experience: emotions evoked by pictures and classical music. Int. J. Psychophysiol. 60, 34–43.
[23]Figueiro MG, Bullough JD, Bierman A, Fay CR, Rea MS, “On light as an alerting stimulus at night,” Acta Neurobiol Exp (Wars), Vol.67, No.2, pp.171-178(2007).
[24]Peretz Lavie著,潘震澤譯,”睡眠的迷人世界”,遠流出版事業股份有限公司,2002.11
[25]Kazuyuki Iwakiri, Akira Yasukouchi and Atsuo Murata, “Effects of spectral distribution of light on the arousal level in humans,” IEEE Proceedings of The International Conference on System Man and Cybernetics, Vol.2, pp.271-276(1999).
[26]楊世瑩著,SPSS統計分析實務,第9章27-30頁,旗標出版股份有限公司,民國九十七年。
[27]Hu, N. C., Wu, C. C, Chen, S. F. and Hsiao, H. C. 2008. A method of implementing dynamic daylight spectra by light-emitting diodes, Applied Optics, 47(22):3423-3432.
[28]陳宏維,“多顆LED晶粒最佳混光之排列,”國立台灣科技大學光電工程所碩士學位論文,2009。