(44.192.112.123) 您好!臺灣時間:2021/03/09 00:00
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果

詳目顯示:::

我願授權國圖
: 
twitterline
研究生:張瑋至
研究生(外文):Wei-Chih chang
論文名稱:連結產品形狀特徵參數與消費者感性之感性評估模型
論文名稱(外文):A Prediction Model of Product Shape Feature Parameters Versus Consumers’ Kansei
指導教授:陳湘鳳
學位類別:碩士
校院名稱:國立臺灣大學
系所名稱:機械工程學研究所
學門:工程學門
學類:機械工程學類
論文種類:學術論文
論文出版年:2010
畢業學年度:98
語文別:中文
論文頁數:88
中文關鍵詞:感性工學連續參數感性辭彙眼鏡
外文關鍵詞:kansei engineeringcontinuous parameterskansei wordglasses
相關次數:
  • 被引用被引用:2
  • 點閱點閱:286
  • 評分評分:系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:0
隨著整體社會型態的變遷,消費者開始對於各類型產品有著更高的要求,對於產品的要求不再僅限於功能性以及使用品質,也對於產品的風格、外觀樣式開始有了要求。在這個背景之下,本研究提出在產品設計階段,即考慮產品外型特徵對於消費者感性所造成的影響,以感性工學的基礎,建立一套產品設計的方法。
本研究主要目的是了解產品外型特徵對消費者感性所造成的影響,考慮以往的感性工學大多以不連續的設計類目進行感性評估,本研究將嘗試以參數的形式達到評估方程式的連續,進而使感性設計朝向自動化設計發展。研究將以兩階段實驗的方式來達成此目的,並建構預測方程式。
本研究以粗框鏡架作為目標產品,分析其產生外型變異的主要設計元素,再以田口式直交表繪製問卷樣本;另一方面蒐集產品相關的形容詞,從中挑選適當辭彙作為問卷中的感性辭彙。第一階段實驗目的是找出最能表示目標產品變異的感性辭彙,以因素分析法縮減感性辭彙的維度,找出最具代表性的辭彙。第二階段實驗目的是找出代表性辭彙與設計元素之間的關聯性,經由外型特徵歸類出設計項目的代表參數,以代表參數連結不連續的設計類目,建構連續的評估模型。最後,以市售實際眼鏡作為驗證樣本,進行單一樣本t檢定,對每組感性辭彙預測模型評估分析並討論結果。


Along with the changing of society, consumers start to have a higher requirement of various types of products. Consumers’ requirement is not only for product functionality and performance but also for product appearance and styles. To satisfy customers’ requirement, this study proposes a product design method considering the relationships between product shape features and consumer s’ kansei during the product design stage.
The aim of this study is to build a relationship between product shape features and consumer s’ kansei. Most kansei engineering methods predict models by discrete design levels. This study tries to use continuous parameters to build continuous predict models. The experiment in this study was divided into two steps.
The first-step experiment is to reduce the dimension of kansei words and to find the representative kansei words by using factor analysis. The second-step experiment is to discover the relationships between the representative kansei words and the design elements. According to the results, a continuous-parameter predict model was created.
To test the validity of the result, we conducted a new survey using frame of real glasses and the representative kansei words. A one-sample t-test was used to test the correctness of the results.


誌謝................................................................................................................................ i
摘要............................................................................................................................... ii
Abstract ......................................................................................................................... iii
目錄............................................................................................................................... iv
圖目錄........................................................................................................................... vi
表目錄.......................................................................................................................... vii
第一章 緒論.................................................................................................................. 1
1.1研究動機.......................................................................................................... 1
1.2研究目的.......................................................................................................... 1
1.3研究方法與範圍界定...................................................................................... 2
1.4論文架構與流程圖.......................................................................................... 4
第二章 感性工學文獻探討.......................................................................................... 5
2.1感性工學.......................................................................................................... 5
2.2何謂感性.......................................................................................................... 6
2.3感性工學簡介.................................................................................................. 7
2.4感性工學分類.................................................................................................. 9
第三章 研究規劃與研究方法.................................................................................... 13
3.1研究架構說明與流程圖................................................................................ 13
3.1.1研究架構說明..................................................................................... 13
3.1.2研究架構流程圖................................................................................. 13
3.2研究流程解說................................................................................................ 15
3.2.1選定目標產品..................................................................................... 15
3.2.2建構產品模型..................................................................................... 15
3.2.3萃取感性辭彙..................................................................................... 16
3.2.4第一階段問卷..................................................................................... 16
3.2.5第二階段問卷調查............................................................................. 16
3.2.6 連續參數模型.................................................................................... 17
3.2.7 研究驗證............................................................................................ 17
第四章 研究步驟與結果分析.................................................................................... 18
4.1選定目標產品................................................................................................ 18
4.1.1眼鏡的歷史與結構............................................................................. 18
4.1.2 鏡架的形態演進................................................................................ 19
4.1.3鏡架的基本構造................................................................................. 21
4.2建構眼鏡模型................................................................................................ 21
4.3第一階段實驗問卷與結果分析.................................................................... 29
v
4.3.1感性辭彙的選取................................................................................. 30
4.3.2第一階段問卷調查............................................................................. 31
4.4第二階段實驗進行方式與問卷結果分析.................................................... 37
4.4.1第二階段實驗進行方式..................................................................... 37
4.4.2 數量化I類分析 ................................................................................ 37
4.5 加入連續參數進行微調............................................................................... 50
4.5.1 中央梁架上緣設計類目參數化........................................................ 50
4.5.2 側鏡架種類設計類目參數化............................................................ 52
4.5.3 鏡片形狀類目參數化........................................................................ 54
4.6 連續參數的預測模型................................................................................... 57
第五章 研究驗證........................................................................................................ 62
5.1 研究驗證流程............................................................................................... 62
5.2 建立驗證樣本數量化I類評估預測值表 ................................................... 62
5.3 驗證問卷調查與結果分析........................................................................... 65
5.3.1 對不連續預測模型的單一樣本t檢定 .......................................... 65
5.3.2 對參數預測模型的單一樣本t檢定 ................................................ 67
5.4 驗證結果討論............................................................................................... 70
第六章 結論與未來展望............................................................................................ 71
6.1研究結論........................................................................................................ 71
6.2 研究侷限與不足........................................................................................... 72
6.3研究未來發展................................................................................................ 72
參考文獻...................................................................................................................... 73
中文部分.............................................................................................................. 74
附錄.............................................................................................................................. 75
附錄一.................................................................................................................. 75
附錄二.................................................................................................................. 79
附錄三.................................................................................................................. 88

1.Matsubara, Yukihiro, Nagamachi, Mitsuo(1997), "Hybrid Kansei Engineering System and design support, " International Journal of Industrial Ergonomics. 19(2):pp81-92

2.S. Schütte (2005), "Engimeering emotional values in product design," Linköping University, Linköping.

3.M. Nagamachi (1989), "Kansei engineering. " 1989, Tokyo: Kaibundo Publishing Company.

4.M. Nagamachi (2002), "Kansei engineering as a powerful consumer-oriented technology for product development," Applied Ergonomics. 33(3): pp289-294.

5.K. Fukushima, H. Kawata, Y. Fujiwara, and H. Genno (1995), "Human sensory perception oriented image processing in a color copy system," International Journal of Industrial Ergonomics. 15: pp63-74.

6.Diyar Akay, Mustafa Kurt (2009),” A neuro-fuzzy based approach to affective design,” International Journal of Advanced Manufacturing Technology.40(5-6):p425-437.

7.C. E. Osgood and G. J. Suci (1969), "Factor analysis of meaning," in Semantic differential technique - a source book, C.E. Osgood and J.G. Snider, Editors. 1969, Aldine Publishing Company: Chicago. pp42-55.

8.T. Komazawa and C. Hayashi (1976), "A statistical method for quantification of categorical data and its applications to medical science, ed. " F.T. de Dombal and F. Gremy. 1976, new york: North-Holland Publishing Company.

9.J. P. Guilford (1971), "Psychology methods." 1971, New York: McGraw-Hill Publishing Company.

10.R. Küller (1975), "Semantic description of environment (in swedish)," Psykologiförlaget AB Liber Tryck Stockholm, Stockholm.


1.陳國祥、管倖生、鄧怡莘、張育銘(2000),感性工學課程教學方法之初探,工業設計,第28 期
2.黃崇彬、原田昭(1998),日本感性工學會發展現況及其在遠隔控制介面設計上應用的可能性,中日設計教育研討會論文集
3.林美君 (2008),液晶電視之感性化永續設計─綠色語彙與造型要素對應關係研究,國立成功大學機械工程學系碩士論文
4.李清正 (2005),配鏡者選配之眼鏡與其臉型尺寸之相關研究,國立台灣科技大學工業管理系碩士學位論文


QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top
系統版面圖檔 系統版面圖檔