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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 余家斌 | |
dc.contributor.author | Xiang-Yi Luo | en |
dc.contributor.author | 羅祥宜 | zh_TW |
dc.date.accessioned | 2021-06-16T09:35:06Z | - |
dc.date.available | 2020-02-17 | |
dc.date.copyright | 2017-02-17 | |
dc.date.issued | 2017 | |
dc.date.submitted | 2017-02-13 | |
dc.identifier.citation | 王升陽、張上鎮 (2008)。臺灣本土林木揮發性代謝產物生物活性之探討。林業研究專訊,15(3),6-9。
王群光 (2010)。自律神經失調 HRV 檢測及治療衛教手冊初稿 (未出版)。臺北市: 台灣腦波自律神經醫學會。 余家斌、趙彥琛、陳薇如 (2015)。森林環境對生心理狀態效益之研究。中華林學季刊,48(4),363-375。 東勁丞 (2015) 。自然與都市景觀對創造思考,注意力恢復力及生理反應的影響(碩士論文)。臺灣大學園藝學研究所,臺北市。 林一真、申永順、廖天賜(2011)。森林益康評估準則之建立與示範推動工作之研 析與規劃(2/3)。行政院農業委員會委託計畫。 林嘉慶、黎俊彥 (2008)。規律運動訓練對心率變異性之影響。中華體育季刊,22(4),13-22。 洪紫宸、朱信 (2012)。簡介唾液壓力反應生物指標。中華民國航空醫學暨科學期刊,26(1&2),27-34。 翁根本、何慈育、歐善福、林竹川、謝凱生 (2009)。心律變動性分析。臺灣醫界,52(6),290-293。 張上鎮、王升陽 (1998)。來自台灣森林之芳香維他命。台灣林業,24(3),33-37。 張鐿鐘、盧俊宏 (2001)。盤斯心情量表 (POMS) 之修訂報告。大專體育學刊(台灣),3(2),47-55。 許伯陽、張鐿鐘、盧俊宏 (2003)。盤斯心情量表之再修訂。大專體育學刊,5(1), 85-95。 郭莉萱 (2013)。高血壓疾病介紹。血管醫學防治季刊,(13),2-3。 陳淑如、蔡月霞、羅映琪、蔡宜珊、鄭綺 (2005)。心率變異度的簡介及護理上的應用。新臺北護理期刊,7(1),1-11。 黃孝璋 (2007)。景觀偏好、注意力恢復力及心理生理反應之相關性研究(碩士論文)。臺灣大學園藝學研究所,臺北市。 黃勝宏、林榮輝、黃崇儒、洪聰敏 (2008)。心率變異度與焦慮之關係。中華體育季刊,22(1),72-79。 嚴婉甄 (2007)。虛擬及現地自然情境之注意力恢復力,臨場感及心理生理反應(碩士論文)。臺灣大學園藝學研究所,臺北市。 許世昌 (2000)。解剖生理學。臺北市:永大書局。 Acharya, U. R., Joseph, K. P., Kannathal, N., Lim, C. M., & Suri, J. S. (2006). Heart rate variability: a review. Medical and Biological Engineering and Computing, 44(12), 1031-1051. Annerstedt, M., Jönsson, P., Wallergård, M., Johansson, G., Karlson, B., Grahn, P., Hansen, Å. M., & Währborg, P. (2013). Inducing physiological stress recovery with sounds of nature in a virtual reality forest—Results from a pilot study. Physiology & Behavior, 118, 240-250. Baños, R. M., Espinoza, M., García-Palacios, A., Cervera, J. M., Esquerdo, G., Barrajón, E., & Botella, C. (2013). A positive psychological intervention using virtual reality for patients with advanced cancer in a hospital setting: a pilot study to assess feasibility. Supportive Care in Cancer, 21(1), 263-270. Bay, E. J., & Algase, D. L. (1999). Fear and anxiety: A simultaneous concept analysis. International Journal of Nursing Terminologies and Classifications, 10(3), 103-111. Beil, K., & Hanes, D. (2013). The influence of urban natural and built environments on physiological and psychological measures of stress— A pilot study. International Journal of Environmental Research and Public Health, 10(4), 1250-1267. Burdea, G. (1993). Virtual reality sistems and applications. Electro’93 International Conference. New York. Burdea, G. C., & Coiffet, P. (2003). Virtual reality technology [Vol. 1]. Retrieved from https://goo.gl/xhMgD9 Chatterton, R. T., Vogelsong, K. M., Lu, Y. c., Ellman, A. B., & Hudgens, G. A. (1996). Salivary α‐amylase as a measure of endogenous adrenergic activity. Clinical Physiology, 16(4), 433-448. Cho, B.-H., Ku, J., Jang, D. P., Kim, S., Lee, Y. H., Kim, I. Y., Lee, J. H., Kim, S. I. (2002). The effect of virtual reality cognitive training for attention enhancement. Cyberpsychology & behavior, 5(2), 129-137. Csikszentmihalyi, M. (1975). Beyond boredom and anxiety. San Francisco: JosseyBass. Well-being: Thefoundations of Hedonic Psychology, 134-154. De Kort, Y., Meijnders, A., Sponselee, A., & IJsselsteijn, W. (2006). What's wrong with virtual trees? Restoring from stress in a mediated environment. Journal of Environmental Psychology, 26(4), 309-320. Deary, I. J., Ebmeier, K. P., MacLeod, K. M., Dougall, N., Hepburn, D. A., Frier, B. M., & Goodwin, G. M. (1994). PASAT performance and the pattern of uptake of 99mTc-exametazime in brain estimated with single photon emission tomography. Biological Psychology, 38(1), 1-18. Ernstson, H. (2013). The social production of ecosystem services: A framework for studying environmental justice and ecological complexity in urbanized landscapes. Landscape and Urban Planning, 109(1), 7-17. Evans, G. W. (1984). Environmental stress. Retrieved from https://goo.gl/sB5vPg Gramann, J. H. (1982). Toward a behavioral theory of crowding in outdoor recreation: An evaluation and synthesis of research. Leisure Sciences, 5(2), 109-126. Gromala, D., Tong, X., Choo, A., Karamnejad, M., & Shaw, C. D. (2015). The virtual meditative walk: virtual reality therapy for chronic pain management. Paper presented at the Proceedings of the 33rd Annual ACM Conference on Human Factors in Computing Systems. Gronwall, D., & Sampson, H. (1974). The psychological effects of concussion. Oxford, England: Auckland U Press. Grove, J. R., & Prapavessis, H. (1992). Preliminary evidence for the reliability and validity of an abbreviated Profile of Mood States. International Journal of Sport Psychology, 23(2), 93-109. Guski, R., Felscher-Suhr, U., & Schuemer, R. (1999). The concept of noise annoyance: how international experts see it. Journal of Sound and Vibration, 223(4), 513-527. Hammitt, W. E., & Brown Jr, G. F. (1984). Functions of privacy in wilderness environments. Leisure Sciences, 6(2), 151-166. Hartig, T., Evans, G. W., Jamner, L. D., Davis, D. S., & Gärling, T. (2003). Tracking restoration in natural and urban field settings. Journal of Environmental Psychology, 23(2), 109-123. Hartig, T., Kaiser, F. G., & Bowler, P. A. (1997). Further development of a measure of perceived environmental restorativeness: Institutet för bostadsforskning. Hartig, T., Korpela, K., Evans, G. W., & Gärling, T. (1996). Validation of a measure of perceived environmental restorativeness: University of Göteborg, Department of Psychology. Hartig, T., Mang, M., & Evans, G. W. (1991). Restorative effects of natural environment experiences. Environment and Behavior, 23(1), 3-26. Hartig, T., Mitchell, R., De Vries, S., & Frumkin, H. (2014). Nature and health. Annual Review of Public Health, 35, 207-228. Hartig, T., & Staats, H. (2006). The need for psychological restoration as a determinant of environmental preferences. Journal of Environmental Psychology, 26(3), 215-226. Herrero, R., Garcia-Palacios, A., Castilla, D., Molinari, G., & Botella, C. (2014). Virtual reality for the induction of positive emotions in the treatment of fibromyalgia: a pilot study over acceptability, satisfaction, and the effect of virtual reality on mood. Cyberpsychology, Behavior, and Social Networking, 17(6), 379-384. Hoffman, H. G. (2004). Virtual-reality therapy. SCIENTIFIC AMERICAN, 291, 58-65. Holdwick, D. J., & Wingenfeld, S. A. (1999). The subjective experience of PASAT testing: Does the PASAT induce negative mood? Archives of Clinical Neuropsychology, 14(3), 273-284. HTC Corporation (2016, February,10). Vive. Retrieved from https://www.vive.com/anz/ James, W. (1892). The briefer course. New York. Kaplan, R., & Kaplan, S. (1989). The experience of nature. Retrieved from https://goo.gl/dSjZCy Kaplan, S. (1995). The restorative benefits of nature: Toward an integrative framework. Journal of Environmental Psychology, 15(3), 169-182. Karjalainen, E., Sarjala, T., & Raitio, H. (2010). Promoting human health through forests: overview and major challenges. Environmental Health and Preventive Medicine, 15(1), 1-8. Kirschbaum, C., & Hellhammer, D. H. (2000). Salivary cortisol. Encyclopedia of Stress, 3. 379-383. Knight, W. E., & Rickard, N. S. (2001). Relaxing music prevents stress-induced increases in subjective anxiety, systolic blood pressure, and heart rate in healthy males and females. Journal of Music Therapy, 38(4), 254-272. Laumann, K., Gärling, T., & Stormark, K. M. (2001). Rating scale measures of restorative components of environments. Journal of Environmental Psychology, 21(1), 31-44. Lazarus, R. S. (1966). Psychological stress and the coping process. New York: McGraw-Hill. Lee, J., Park, B.-J., Tsunetsugu, Y., Kagawa, T., & Miyazaki, Y. (2009). Restorative effects of viewing real forest landscapes, based on a comparison with urban landscapes. Scandinavian Journal of Forest Research, 24(3), 227-234. Lee, J., Park, B.-J., Tsunetsugu, Y., Ohira, T., Kagawa, T., & Miyazaki, Y. (2011). Effect of forest bathing on physiological and psychological responses in young Japanese male subjects. Public Health, 125(2), 93-100. Lee, J., Tsunetsugu, Y., Takayama, N., Park, B.-J., Li, Q., Song, C., Komatsu, M., Ikei, H., Tyrväinen, L., Kagawa, T. (2014). Influence of forest therapy on cardiovascular relaxation in young adults. Evidence-Based Complementary and Alternative Medicine. 21. 1-2. Leventhall, G., Pelmear, P., & Benton, S. (2003). A review of published research on low frequency noise and its effects: A report. Report for Department for Environment, Food and Rural Affairs. London. Li, Q. (2010). Effect of forest bathing trips on human immune function. Environmental Health and Preventive Medicine, 15(1), 9-17. Lim, E.-M., Honjo, T., & Umeki, K. (2006). The validity of VRML images as a stimulus for landscape assessment. Landscape and Urban Planning, 77(1), 80-93. Maas, J., Verheij, R. A., Groenewegen, P. P., De Vries, S., & Spreeuwenberg, P. (2006). Green space, urbanity, and health: how strong is the relation? Journal of Epidemiology and Community Health, 60(7), 587-592. Malloy, K. M., & Milling, L. S. (2010). The effectiveness of virtual reality distraction for pain reduction: a systematic review. Clinical Psychology Review, 30(8), 1011-1018. Mathias, C. W., Stanford, M. S., & Houston, R. J. (2004). The physiological experience of the Paced Auditory Serial Addition Task (PASAT): Does the PASAT induce autonomic arousal? Archives of Clinical Neuropsychology, 19(4), 543-554. McNair, D., Lorr, M., & Droppleman, L. (1971). Manual for the profile of mood states. San Diego, CA: Educational and Industrial Testing Service. Morita, E., Fukuda, S., Nagano, J., Hamajima, N., Yamamoto, H., Iwai, Y., Nakashima, T., Ohira, H., Shirakawa, T. (2007). Psychological effects of forest environments on healthy adults: Shinrin-yoku (forest-air bathing, walking) as a possible method of stress reduction. Public Health, 121(1), 54-63. Nielsen, T. S., & Hansen, K. B. (2007). Do green areas affect health? Results from a Danish survey on the use of green areas and health indicators. Health & Place, 13(4), 839-850. North, M. M., & North, S. M. (2016). Virtual reality therapy. Computer-Assisted and Web-Based Innovations in Psychology, Special Education, and Health. 141-156. Retrieved from https://goo.gl/2kIJO9 Nunnally, J. (1978). Psychometric methods. New York: McGraw-Hill. Owens, M. E., & Beidel, D. C. (2015). Can Virtual Reality Effectively Elicit Distress Associated with Social Anxiety Disorder? Journal of Psychopathology and Behavioral Assessment, 37(2), 296-305. Park, B. J., Tsunetsugu, Y., Kasetani, T., Kagawa, T., & Miyazaki, Y. (2010). The physiological effects of Shinrin-yoku (taking in the forest atmosphere or forest bathing): evidence from field experiments in 24 forests across Japan. Environmental Health and Preventive Medicine, 15(1), 18-26. Plante, T. G., Aldridge, A., Bogden, R., & Hanelin, C. (2003). Might virtual reality promote the mood benefits of exercise? Computers in Human Behavior, 19(4), 495-509. Powell, K. E., & Blair, S. N. (1994). The public health burdens of sedentary living habits: theoretical but realistic estimates. Medicine and Science in Sports and Exercise, 26(7), 851-856. Powers, M. B., & Emmelkamp, P. M. (2008). Virtual reality exposure therapy for anxiety disorders: A meta-analysis. Journal of Anxiety Disorders, 22(3), 561-569. Riva, G. (2005). Virtual reality in psychotherapy: review. Cyberpsychology & Behavior, 8(3), 220-230. Rohleder, N., Nater, U. M., Wolf, J. M., Ehlert, U., & Kirschbaum, C. (2004). Psychosocial stress‐induced activation of salivary alpha‐amylase: an indicator of sympathetic activity? Annals of the New York Academy of Sciences, 1032(1), 258-263. Ruocco, M. (1974). Background noise. Environmental Health, 6-11. Ruotolo, F., Maffei, L., Di Gabriele, M., Iachini, T., Masullo, M., Ruggiero, G., & Senese, V. P. (2013). Immersive virtual reality and environmental noise assessment: An innovative audio–visual approach. Environmental Impact Assessment Review, 41, 10-20. Selye, H. (1956). The stress of life. New York: McGraw-Hill Shacham, S. (1983). A shortened version of the Profile of Mood States. Journal of Personality Assessment, 47(3), 305-306. Shin, W. S., Yeoun, P. S., Yoo, R. W., & Shin, C. S. (2010). Forest experience and psychological health benefits: the state of the art and future prospect in Korea. Environmental Health and Preventive Medicine, 15(1), 38-47. Slobounov, S. M., Ray, W., Johnson, B., Slobounov, E., & Newell, K. M. (2015). Modulation of cortical activity in 2D versus 3D virtual reality environments: an EEG study. International Journal of Psychophysiology, 95(3), 254-260. Sonntag-Öström, E., Nordin, M., Lundell, Y., Dolling, A., Wiklund, U., Karlsson, M., Carlberg, B., Järvholm, L. S. (2014). Restorative effects of visits to urban and forest environments in patients with exhaustion disorder. Urban Forestry & Urban Greening, 13(2), 344-354. Spielberger, C. D., Gorsuch, R. L., & Lushene, R. E. (1970). The state-trait anxiety inventory (test manual). Consulting Psychologists, 22. Stanners, D., & Bourdeau, P. (1995). Europe's environment: the Dobris assessment. Copenhagen: European Environment Agency. Stanney, K. M. (1995). Realizing the full potential of virtual reality: human factors issues that could stand in the way. IEEE Proc Virtual Reality Annual International Symposium. 28-34. Stanovsky, D. (2004). Virtual reality. The Blackwell Guide to the Philosophy of Computing and Information, 167-177. Sung, J., Woo, J.-M., Kim, W., Lim, S.-K., & Chung, E.-J. (2012). The effect of cognitive behavior therapy-based “forest therapy” program on blood pressure, salivary cortisol level, and quality of life in elderly hypertensive patients. Clinical and Experimental Hypertension, 34(1), 1-7. Takai, N., Yamaguchi, M., Aragaki, T., Eto, K., Uchihashi, K., & Nishikawa, Y. (2004). Effect of psychological stress on the salivary cortisol and amylase levels in healthy young adults. Archives of Oral Biology, 49(12), 963-968. Tombaugh, T. N. (2006). A comprehensive review of the paced auditory serial addition test (PASAT). Archives of Clinical Neuropsychology, 21(1), 53-76. Tsunetsugu, Y., Lee, J., Park, B.-J., Tyrväinen, L., Kagawa, T., & Miyazaki, Y. (2013). Physiological and psychological effects of viewing urban forest landscapes assessed by multiple measurements. Landscape and Urban Planning, 113, 90-93. Tsunetsugu, Y., Park, B.-J., Ishii, H., Hirano, H., Kagawa, T., & Miyazaki, Y. (2007). Physiological effects of Shinrin-yoku (taking in the atmosphere of the forest) in an old-growth broadleaf forest in Yamagata Prefecture, Japan. Journal of Physiological Anthropology, 26(2), 135-142. Ulrich, R. (1984). View through a window may influence recovery. Science, 224(4647), 224-225. Ulrich, R. S. (1981). Natural versus urban scenes some psychophysiological effects. Environment and Behavior, 13(5), 523-556. Van Dam, A., Forsberg, A. S., Laidlaw, D. H., LaViola, J. J., & Simpson, R. M. (2000). Immersive VR for scientific visualization: A progress report. IEEE Computer Graphics and Applications, 20(6), 26-52. Van den Berg, A. E., Koole, S. L., & van der Wulp, N. Y. (2003). Environmental preference and restoration:(How) are they related? Journal of Environmental Psychology, 23(2), 135-146. Velarde, M. D., Fry, G., & Tveit, M. (2007). Health effects of viewing landscapes–Landscape types in environmental psychology. Urban Forestry & Urban Greening, 6(4), 199-212. Villeneuve, P. J., Jerrett, M., Su, J. G., Burnett, R. T., Chen, H., Wheeler, A. J., & Goldberg, M. S. (2012). A cohort study relating urban green space with mortality in Ontario, Canada. Environmental Research, 115, 51-58. Vrijkotte, T. G., Van Doornen, L. J., & De Geus, E. J. (2000). Effects of work stress on ambulatory blood pressure, heart rate, and heart rate variability. Hypertension, 35(4), 880-886. Wexelblat, A. (2014). Virtual reality: applications and explorations[Google Reader Version]. Retrieved from https://goo.gl/iP91Ep Witmer, B. G., & Singer, M. J. (1998). Measuring presence in virtual environments: A presence questionnaire. Presence: Teleoperators and Virtual Environments, 7(3), 225-240. 川島佳、本橋豊、和田正英、若松秀樹、金子善博、石川隆志、小松寛治 (2005)。 川べりの屋外散策が入院患者と老人保健施設入所者の睡眠リズムと抑うつ状態に与える影響について。秋田県公衆衛生学雑誌,2(1),51-54。 古橋卓、朴範鎭、石井秀樹、森川岳、平野秀樹、香川隆英、宮崎良文 (2006)。 生理指標を用いた森林浴の評価 (4)。日本森林学会大会発表データベース,117,110。 白井珠美、岩崎寛、福島成樹、小平哲夫 (2011)。森林公園における市民参加型癒しの森づくり。日本緑化工学会誌,37(1),253-256。 石井秀樹、朴範鎭、森川岳、平野秀樹、香川隆英、宮崎良文 (2006)。生理指標を用いた森林浴の評価 (3)。日本森林学会大会発表データベース,117,109。 朴範鎭、平野秀樹、香川隆英、宮崎良文 (2006)。生理指標を用いた森林浴の評価 (5)。日本森林学会大会発表データベース,117,111。 岩崎寛、山本聡、石井麻有子、渡邉幹夫 (2007)。都市公園内の芝生地およびラベンダー畑が保有する生理・心理的効果に関する研究。日本緑化工学会誌,33(1),116-121。 香川隆英、宮崎良文、山口昌樹、東朋幸 (2005)。森林浴効果に関する研究。日本森林学会大会発表データベース,116,158。 宮崎良文 (2003)。自然と快適性。日本生気象学会雑誌,40(1),55-59。 宮崎良文、池井晴美、宋チョロン (2014)。日本における森林医学研究。日本衛生学雑誌,69(2),122-135。 森川岳、高山範理、香川隆英 (2010)。森林および都市由来の視覚・聴覚刺激が生体に及ぼす影響。日本森林学会大会発表データベース,121,366。 綛谷珠美、朴範鎭、高山範理、大平辰朗、松井直之、香川隆英、宮崎良文 (2006)。森林浴コースの違いによる心理的効果の比較。日本森林学会大会発表データベース,117,108。 綛谷珠美、奥村憲、吉田祥子、高山範理、香川隆英 (2007)。様々な里山景観での散策による生理的・心理的効果の差異。ランドスケープ研究,70(5),569-574。 | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/59728 | - |
dc.description.abstract | 本研究目的為瞭解透過虛擬實境方式所呈現出森林環境與都市環境下,是否 將為人體帶來生心理效益,比較虛擬實境中森林環境與都市環境對生理與心理反 應之差異。南投縣奧萬大國家森林遊樂區為本研究之虛擬森林環境影片之取材地 點;台北市西門町商圈為虛擬都市環境影片之取材地點,兩者不同環境皆拍攝 360o影片並使用虛擬實境設備(HTC Vive)播放呈現。
研究實驗為每位受測者(N = 30)皆須隔週受測(共兩次)並進行不同虛擬 環境影片之刺激,實驗生理方面採用心跳、血壓、心率變異度與唾液澱粉酶量測; 心理方面採用盤斯心情量表(POMS)及恢復組成量表(RCS)作為心理衡量工 具。 研究驗證顯示,30 名受測者在受虛擬實境之森林環境影片刺激後,生理方 面之心跳、收縮壓、副交感神經效能(HF)皆具有顯著差異。情緒部分採用 POMS 量表,受測者在困惑、活力、疲勞、緊張與沮喪等五個構面皆具有顯著差異,對 於憤怒與自尊並無顯著差異。受測者在虛擬實境之都市環境影片刺激後,生理方 面之心跳具有顯著差異,其餘皆無顯著差異;POMS 方面在疲勞、憤怒與自尊等 三個構面皆具有顯著差異,對於困惑、活力、緊張與沮喪並無顯著差異。受測者 在不同虛擬環境刺激後,生理方面皆不具有顯著差異;POMS 方面在困惑、活力、 疲勞、憤怒、自尊與緊張皆具有顯著差異,惟有沮喪不具有顯著差異。RCS 量表 部分在比較不同虛擬環境下受測者對於遠離性、延展性、魅力性與相容性等四大 構面皆具有顯著差異。 | zh_TW |
dc.description.abstract | The purpose of this study is to realize whether forest and urban environments can bring psychophysiological benefits to the human body via the use of virtual reality. This was achieved by comparing significant psychophysiological responses in both forest and urban environments within a virtual reality environment. AOWANDA National Forest Recreation Area in Nantou, Taiwan, was the forest environment location selected for this study. Ximending shopping circle, Taipei City, Taiwan, was the urban environment selected for this study. The different environments were recorded via 360 ゚ video, and the virtual reality device (HTC Vive) was used for viewing.
In the experiment, the subjects(N = 30)were stimulated once a week for two weeks, each time with a different virtual reality environment. Physiological indicators measured were heart rate, blood pressure, heart rate variability and salivary α amylase, with profile of mood state (POMS) and recovery composition scale (RCS) used as psychological measurement tools. Overall, this study showed a significant result in heart rate, systolic blood pressure and HF in the virtual forest environment. Moreover, confusion, vigor, fatigue, tension and depression results in POMS were also significant. However, there was no significant difference found in anger and self-esteem results. In the virtual urban environment results, only heart rate was significant, with fatigue, anger and self-esteem in POMS were also significant. Compare the difference between forest and urban environment, there were no significant difference found in physical indicators. There were significant differences in the POMS results of confusion, vigor, fatigue, anger, self-esteem and tension except depression. Besides, in the RCS, subjects reported the four dimensions of RCS were all significant, such as being away, extend, fascination and compatibility. | en |
dc.description.provenance | Made available in DSpace on 2021-06-16T09:35:06Z (GMT). No. of bitstreams: 1 ntu-106-R03625048-1.pdf: 4829395 bytes, checksum: 9288ed2cbfb39f71f12b02984e6712db (MD5) Previous issue date: 2017 | en |
dc.description.tableofcontents | 謝辭........................................................................................................................ 1
摘要........................................................................................................................ 2 ABSTRACT ........................................................................................................... 3 目錄........................................................................................................................ 5 圖目錄.................................................................................................................... 8 表目錄.................................................................................................................. 11 第一章 緒論.................................................................................................. 13 第一節 研究背景與動機.............................................................................. 13 第二節 研究目的.......................................................................................... 14 第三節 研究流程.......................................................................................... 15 第二章 文獻回顧.......................................................................................... 17 第一節 自然環境與生心理健康效益.......................................................... 17 一、 自然與都市環境之分類與定義...................................................... 17 二、 自然環境與生心理效益.................................................................. 20 三、 自然環境生心理指標與相關研究.................................................. 22 第二節 生心理健康理論基礎...................................................................... 33 一、 生理機制.......................................................................................... 33 二、 心理機制.......................................................................................... 34 三、 注意力恢復理論.............................................................................. 36 第三節 虛擬實境.......................................................................................... 43 一、 虛擬實境發展應用.......................................................................... 43 二、 虛擬實境與自然環境生心理健康相關研究.................................. 46 三、 小結.................................................................................................. 50 第三章 研究方法.......................................................................................... 51 第一節 研究架構與假設.............................................................................. 51 第二節 實驗流程.......................................................................................... 55 第三節 實驗設計.......................................................................................... 57 第四章 資料分析與結果討論...................................................................... 79 第一節 樣本特性分析與結果分析.............................................................. 79 一、 受測者個人基本資料分析.............................................................. 79 二、 生理數據結果分析.......................................................................... 83 三、 盤斯心情量表(POMS)分析結果...............................................94 四、 恢復組成量表(RCS) ............................................................. 107 第二節 研究假設驗證................................................................................ 113 第五章 結論與建議.................................................................................... 126 第一節 結論................................................................................................ 126 一、 生理效果部分................................................................................ 126 二、 心理效果部分-盤斯心情量表(POMS) ................................... 128 三、 心理效果部分-恢復組成量表 (RCS)....................................... 128 四、 虛擬森林環境與虛擬都市環境之感受........................................ 129 第二節 經營管理建議................................................................................ 132 第三節 研究限制與研究建議.................................................................... 133 一、 研究限制........................................................................................ 133 二、 研究建議........................................................................................ 134 參考文獻............................................................................................................ 136 附錄一 研究同意書..........................................................................................148 附錄二 參與條件..............................................................................................149 附錄三 情緒量表..............................................................................................150 附錄四 恢復組成量表......................................................................................152 附錄五 個人基本資料......................................................................................154 | |
dc.language.iso | zh-TW | |
dc.title | 虛擬實境之森林與都市環境對生心理影響之研究 | zh_TW |
dc.title | Psychophysiological Effects of Virtual Reality Forest and Urban Environments | en |
dc.type | Thesis | |
dc.date.schoolyear | 105-1 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 湯幸芬,鄭森松,黃裕智 | |
dc.subject.keyword | 森林環境,虛擬實境,心率變異度,唾液澱粉?,盤斯心情量表,注意力恢復理論,恢復組成量表, | zh_TW |
dc.subject.keyword | Forest Environment,Virtual Reality,Psychophysiological Benefitt,Heart rate variability,Salivary α Amylase,POMS,RCS, | en |
dc.relation.page | 154 | |
dc.identifier.doi | 10.6342/NTU201700517 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2017-02-13 | |
dc.contributor.author-college | 生物資源暨農學院 | zh_TW |
dc.contributor.author-dept | 森林環境暨資源學研究所 | zh_TW |
顯示於系所單位: | 森林環境暨資源學系 |
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