本研究先以LED投射燈和LED舞台燈為例，發展出以專利分析所得到的產品技術/技術矩陣的產品技術之結合修正式DANP法之修正式VIKOR法(折衷排序法)，並計算出所需要之技術改善方案的優先順序。傳統DEMATEL是透過專家意見以問卷方式決定0~4之影響度之值，分別代表「無影響」、「低影響」、「中影響」、「高影響」、「極高影響」，而本研究首先提出修正式DEMATEL方法，其經由常態化數值的概念來評估準則間0~4的相互影響程度。常態化數值是依照多篇專利技術文件經由斷詞斷字系統之重要技術、技術、元件關鍵字出現次數與高度相關專利群組全文總字數之比值。以LED投射燈以及LED舞台燈為例，接續學長的DANP的研究結果，本論文用折衷排序法的方法接續分析，形成修正式折衷排序法，即可得LED投射燈以及LED舞台燈更精確的技術改善方案的優先順序。

Taking LED projection light and LED stage light for example, the paper studies product technical domains from develops combination of product techniques/technical-matrix, which is acquired from patent analysis, then develops the modified VIKOR method that combines eith the modified DANP method, and calculates the required priority order of technical improvement projects. Through opinions of experts and by the way of questionnaire survey, traditional DEMATEL determines the values 0~4 of the degree of influence, which represents “no influence,” “low influence,” “medium influence” “high influence” and “extremely high influence” respectively. First of all, the paper proposes the modified DEMATEL method, which uses the concept of normalized numerical values to evaluate the degree of mutual influence among the criteria 0~4. Normalized numerical value, based on the multiple documents about patent techniques, refers to the ratio of the appearance frequency of important techniques and component keywords of term segmentation and word segmentation system, to the total number of words of the full texts of the related patent groups. In the paper LED projection light and LED stage light are taken as examples. Extending the DANP research results of a scholar, the paper employs VIKOR method to continue the analysis, thus forming the modified VIKOR method.

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