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Study on Shan Gui: From Religious Text to Visual Representations
This is a diachronic study of Shan Gui 山鬼 (the ninth poem of the Nine Songs九歌). The paper is divided into two parts. In the first part, I choose to study Shan Gui from a religious perspective. A lot of effort is made to return to the scenes of sacrifice in the Nine Songs, by studying the sacrificing locations, totems, myths, and rituals. Through the literary appreciation with interrelated materials injected into this poem, Shan Gui would be read as a drama of wu’s巫 (shamans) worship performance in this paper. Western religious theories are used in order to understand primitive Chu people better and to explore the general rules in primitive people’s religious lives reflected by Shan Gui. The second part is an image study of famous Shan Gui paintings, and a lot of attention is paid to the artistic tension through the image re-creation. During this paper, I would like to create a picture of how Shan Gui developed through history from a religious image to a romance figure, and the way this image stepped from people’s common sacred sense into the literati’s private world.Master of Arts (M.A.
Buddhism of Qian-ling-shan in Gui-zhou
110006481950There are several sacred places of Buddhism, like Fan-jing-shan, Jin-ding-shan, and Qian-ling-shan, in Gui-zhou, China. In these sacred places of Buddhism, which were established in Ming/Qing era, there are many temples, to which many Buddhist believers came to worhip from such surrounding regions Si-chuan and Yun-nan. In this paper, taking the Buddhism of Qian-ling-shan of these sacred places of Buddhism as my subject, I describe the history and present status, the life and thought of the priest Chi-song-he-shang, who was the founder of the Hong-fu-si temple of Qian-ling-shan, and the Zen priests of Gui-yang recorded in Qian-nan-hui ding-lu. In my second section "Qian-ling-shan, the sacred place of Buddhism in Gui-zhou". I describe the nature, scenery, ruins, beautiful places etc. mainly by the use of copy of Qian-ling-shan-zhi owned by Toyobunko, Tokyo. In Qian-ling-shan, there is Hong-fu-si, the largest temple in Gui-zhou. In my third section I delineate the history and present status of this temple. The founder of Hong-fu-si was Chi-song-he-shang. Since we have biographical material on him, I describe his life and thougt in my fourth section, "The life and Thought of Chi-song-he-shang". Iestablish that he was an excellent Zen priest ; not only was his thought profound, but also his life itself was brillant. Since the lineage of the successive chief priests of Hong-fu-shan is not clear, I describe the lives of the Zen priests of Gui-yang in my fifth section, The Zen of Priests of Gui-yang, recorded in Qian-nan-hui-ding-lu. "Almost all the life records of Chinese Zen Buddhists concepy those in regions like Jiang-su, Zhe-jiang, and Hu-nan, not those who stayed in Qian/Gui-zhou. Only Qian-nan-hui-ding-lu, by Shan-yi-ru-chun, contains the lives of the Zen priests of Gui-zhou. This is the reason why I searched for the lives and activities of the Zen priests who were active in Gui-yang, where Qian-ling-shan is located, by mens of this volume. Even thougt it is certain that Gui-zhou and Si-chuan are closely related politically and economically, and that they had developed transpontatim systems between tlem, how about the history of Budd ism? This paper makes it cleen that the Buddhist priests in Si-chuan and Yun-nan played a great role in the organization of Buddhism in Gui-zhou. Now that I have finished writing the sixth volume of The History of Chinese Buddhism, only the seventh and the eighth volumes remain unfinished. It seems to me that the historical current of Chinese Buddhism will be clarified to a certain degree by the completion of these eight volumes. However, it is a history of Buddhism focused on the central district, the center of political authority, the history of Buddhism in the local regions has not yet become evident. The only Chinese scholar who has delineated the history of Buddhism in the Dian-Qian region is Chen-yuan, whose work, Ming-ji-Dian-Qian-Fo-jiao-Kao (A researh onto Buddhism in Dian-Qian in the late Ming Era) was published by Zhong-hua Book Store in April, 1989. I have continually been paying attention to the history of region al Buddhism and Buddist writings in orderon to acguiren the whole iguit of the history of Chinese Buddhism. After the conpletion of all eight volumes of The History of Chinese Buddhism, I would like to write a technical book on the history of regional Buddhism, Buddhist writings, Buddhist ruins, and so forth. This is the reason why I have considered Buddhism in Gui-zhou considered.departmental bulletin pape
Xing ming gui zhi
[尹眞人秘授].綫裝, 1函.框18x13.7公分, 11行18字. 白口, 左右雙邊, 單黑魚尾. 版心上鐫"性命圭旨", 中鐫集次, 下鐫葉次.分元, 亨, 利, 貞四集.題名據目錄 ; 出書年據李樸序.內封頁題"一山房珍藏"Xian zhuang, 1 han.Kuang 18 x 13.7 gong fen, 11 hang 18 zi. Bai kou, zuo you shuang bian, dan hei yu wei. Ban xin shang juan "Xing ming gui zhi", zhong juan ji ci, xia juan ye ci.Fen Yuan, Heng, Li, Zhen si ji.Ti ming ju mu lu ; chu shu nian ju Li Pu xu.Nei feng ye ti "Yi shan fang zhen cang"[Yinzhenren mi shou]
Ci shan gui fan shi wu zhi nan = A practical guide to China's charity regulations
Ben shu ji yu de fa tiao ji pei tao cuo shi,Zong jie zai kai zhan ci shan huo dong guo cheng zhong de dian xing wen ti,Yi ji ci shan zu zhi yun zuo guan li zhong de chang jian yi wen,Tong guo jie du fa lv,Fen xi an li,Hui zhi tu biao,Ti gong yang ben deng fang shi,Geng jia zhi guan di ji yu du zhe shi ji cao zuo zhi yin,Zhu li ci shan zu zhi geng hao di le jie zi shen de quan li he yi wu,Cu jin ci shan zu zhi de he gui xing yun zu
Xing ming gui zhi
[尹真人秘授 ; 尹真人弟子撰].綫裝, 1函.框17.3x13.5公分, 11行18字, 無界行 . 白口, 左右雙邊, 單黑魚尾. 版心上鐫"性命圭旨", 中鐫集次, 下鐫葉次. 有批點.題名據目錄.分元, 亨, 利, 貞四集.內封頁載"一山房珍藏, 嶺南儒雅堂發售"有清康熙己酉尤侗序及明萬曆乙卯佘永寧書序.Xian zhuang, 1 han.Kuang 17.3 x 13.5 gong fen, 11 hang 18 zi, wu jie hang . Bai kou, zuo you shuang bian, dan hei yu wei. Ban xin shang juan "Xing ming gui zhi", zhong juan ji ci, xia juan ye ci. You pi dian.Ti ming ju mu lu.Fen yuan, heng, li, zhen si ji.Nei feng ye zai "Yi shan fang zhen cang, Lingnan Ru ya tang fa shou"You Qing Kangxi ji you You Tong xu ji Ming Wanli yi mao She Yongning shu xu.[Yinzhenren mi shou ; Yinzhenren di zi zhuan]
Gui chao.
Chapter 一奇怪的朋友高剛 ---p.1Chapter 二小旅館的夏夜 ---p.31Chapter 三那樣一間影戲院 ---p.45Chapter 四謠言 ---p.65Chapter 五第一夜 ---p.84Chapter 六茘冷河的姑娘阿蓮 ---p.96Chapter 七第二夜 ---p.108Chapter 八程六 ---p.128Chapter 九第三夜 ---p.140歐陽山作.小說.Ouyang Shan zuo.Xiao shuo
Gui xi gao shan han hua yan jiu
Ben shu yi guang xi ling yun xian jia you zhen gao shan han hua wei zhu xian, Jian ji nei po, Le ye, Tian lin, Tian yang, Feng shan deng fang yan dian, Dui gao shan han hua jin xing le jiao quan mian de miao xi
Xing ming gui zhi /
Special collection from London Missionary Society.; On double leaves, oriental style.; On title page: "The sceptre of life".; Also available in an electronic version via the Internet at http://nla.gov.au/nla.gen-vn1062520.880-03 Xing ming shuang xiu wan shen gui zhi
GUI design for photovoltaic systems
碩士「科技始終來自於人性」是人人耳熟能詳的一句話,其強調使用者操作的便利性及明瞭易懂的觀念,大大影響了消費產品的設計以及科學與工程研究成果之展示。良好的人性化介面不僅方便使用,而且可提供使用者更深刻的體驗。本文針對太陽能供電系統,包含太陽能發電系統與三種電源轉換器,建立Simulink模組,並設計人性化介面,提供相關研究者進行模擬測試以及整合擴充。Ever since the presence of the famous slogan, "Human Technology", the concept of user-friendly has, no doubt, been greatly enhanced in the design of consumer products, and the presentation of scientific and engineering works. A good human interface not only provides a friendly interactive way of operation, but also enables people to sense or realize something more in depth. In this paper, a graphical user interface (GUI) is designed for simulation of a photovoltaic system and three kinds of power converters. For each of the systems a Simulink module is established. Along this work, it is easy to extend.目錄
中文摘要............................................................................................................I
英文摘要..........................................................................................................II
目錄.................................................................................................................III
圖目錄..............................................................................................................V
表目錄.............................................................................................................IX
第一章緒論 ..................................................................................................... 1
1.1 研究動機 .................................................................................... 1
1.2 研究概況 .................................................................................... 2
1.3 論文架構 .................................................................................... 3
第二章背景知識 ............................................................................................. 4
2.1 太陽能板電路模型與特性曲線 ................................................ 4
2.2 最大功率追蹤方法介紹 ............................................................ 9
2.3 電源轉換器之種類與元件參數之選擇 .................................. 11
第三章 MATLAB 人機介面與Simulink 環境設計方法 ............................ 14
3.1 GUI 介紹 ................................................................................... 14
3.2 GUI 介面程式設計 ................................................................... 16
3.2.1 GUI 函數編輯 ............................................................. 17
3.3 Simulink 簡介 ............................................................................ 30
3.4 GUI 結合Simulink 設計方法 .................................................. 35
第四章介面功能測試 ................................................................................... 39
4.1 主目錄介面功能介紹 .............................................................. 39
4.2 單一太陽能板模擬器介面功能介紹 ...................................... 40
4.3 電源轉換器模組模擬器介面功能介紹 .................................. 46
4.4 最大功率追蹤模擬器介面功能介紹 ...................................... 57
第五章結論與未來研究方向 ....................................................................... 62
參考文獻 ......................................................................................................... 63
圖目錄
圖 2.1 太陽能電池的等效電路 ................................................................... 5
圖2.2 照度固定、溫度改變的太陽能板SP75 特性曲線圖 ..................... 8
圖2.3 溫度固定、照度改變的太陽能板SP75 特性曲線圖 ..................... 8
圖2.4 太陽能板最大功率點 ....................................................................... 9
圖2.5 功率迴授控制法 ............................................................................. 10
圖2.6 電源轉換器的等效電路 ................................................................. 11
圖3.1 握把式圖形階層關係 ..................................................................... 15
圖3.2 握把式階層範例 ............................................................................. 16
圖3.3 程式設計系統架構圖 ..................................................................... 17
圖3.4 (a)MATLAB 視窗(b) M-file 視窗 .................................................. 18
圖3.5 程式宣告撰寫方法 ......................................................................... 19
圖3.6 position 屬性定義 ........................................................................... 20
圖3.7 uipanel 屬性定義 ............................................................................. 21
圖3.8 uipanel 視窗範圍大小 ..................................................................... 21
圖3.9 uicontrol 屬性定義 .......................................................................... 23
圖3.10 uicontrol 按鈕範圍大小 .................................................................. 23
圖3.11 圖軸設計方法 ................................................................................. 24
圖3.12 圖軸介面 ......................................................................................... 24
圖3.13 get 全部屬性名稱 ........................................................................... 25
圖3.14 查詢背景顏色屬性值 ..................................................................... 25
圖3.15 set 背景顏色及標題名稱 ............................................................... 26
圖3.16 匯入圖片設計方法 ......................................................................... 27
圖3.17 GUI 呈現結果 ................................................................................. 27
圖3.18 CallBack 設計方法 ......................................................................... 28
圖3.19 未觸發CallBack 時 ........................................................................ 29
圖3.20 已觸發CallBack 時 ........................................................................ 29
圖3.21 (a)Command Window 視窗(b)Simulink Library Browser 視窗 .... 30
圖3.22 Simulink 模組物件選擇視窗 ......................................................... 31
圖3.23 方法一 ............................................................................................. 32
圖3.24 方法二 ............................................................................................. 32
圖3.25 方法三 ............................................................................................. 32
圖3.26 Simulink 新視窗 ............................................................................. 32
圖3.27 元件內部參數設定圖 ..................................................................... 33
圖3.28 方塊配置圖 ..................................................................................... 34
圖3.29 方塊間的連結 ................................................................................. 34
圖3.30 PID 控制系統範例 ......................................................................... 35
圖3.31 PID 控制系統之Simulink 方塊圖 ................................................. 36
圖3.32 GUI 下之參數設定 ......................................................................... 37
圖3.33 Simulink 下參數之匯入 ................................................................. 37
圖3.34 GUI 與Simulink 模擬結果之比較 ................................................ 38
圖4.1 主目錄介面所含項目 ..................................................................... 39
圖4.2 主目錄介面 ..................................................................................... 40
圖4.3 單一太陽能板模擬器流程圖 ......................................................... 40
圖4.4 單一太陽能板模擬器介面 ............................................................. 41
圖4.5 範例(SP75)人機介面 ...................................................................... 43
圖4.6 範例(SP75)Simulink 模組 .............................................................. 44
圖4.7 太陽能模組特性曲線 ..................................................................... 45
圖4.8 使用者設定人機介面 ..................................................................... 45
圖4.9 電源轉換器模組範例模擬器介面 ................................................. 46
圖4.10 電源轉換器模組客製化模擬器介面 ............................................. 46
圖4.11 電源轉換器模組範例模擬器流程圖 ............................................. 48
圖4.12 降壓型電源轉換器範例介面 ......................................................... 49
圖4.13 降壓型電源轉換器模組 ................................................................. 49
圖4.14 PID 控制之降壓型電源轉換器介面 ............................................. 50
圖4.15 降壓型電源轉換器PID 控制之Simulink 模組 ........................... 51
圖4.16 模糊控制之降壓型電源轉換器介面 ............................................. 52
圖4.17 降壓型電源轉換器模糊控制之Simulink 模組 ............................ 52
圖4.18 電源轉換器模組客製化模擬器流程圖 ......................................... 53
圖4.19 降壓型電源轉換器客製化 ............................................................. 54
圖4.20 電感值匯入Simulink 元件 ............................................................ 54
圖4.21 降壓型電源轉換器結合PID 客製化 ............................................ 55
圖4.22 降壓型電源轉換器結合客製化模糊控制器 ................................. 56
圖4.23 修改Fuzzy 元件名稱 ..................................................................... 56
圖4.24 最大功率追蹤模擬器人機介面 ..................................................... 57
圖4.25 最大功率追蹤範例模擬器介面 ..................................................... 59
圖4.26 最大功率追蹤Simulink 模組 ........................................................ 60
圖4.27 日照變化 ......................................................................................... 60
圖4.28 輸出電壓 ......................................................................................... 61
圖4.29 輸出功率 ......................................................................................... 61
表目錄
表 2.1 太陽能板SP75 電器規格(1 kW /m2 , 25°C ) .................................... 7
表2.2 電源轉換器元件參數設計公式 ..................................................... 13
表3.1 RGB 顏色表 .................................................................................... 22學號: 698460051, 學年度: 10
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