* 寫研究論文或技術文件的附錄 (PART A)
* 研究論文結論撰寫 (PART B)
* 助研究思考及寫作的背景音樂 (168)
* 描述學歷背景及已獲成就 (科技求職英文 – 有效撰寫英文職涯經歷) (線上聽力測驗) (2 of 6)
* 工程英文假設描述 (11) (下)
Academic publishing news 學術出版新聞
寫研究論文或技術文件的附錄 (PART A)
研究論文結論撰寫 (PART B)
The Mayfield Handbook of Technical & Scientific Writing by Leslie C. Perleman, James Paradis and Edward Barrett
Ross Daly 居住在希臘克里特島的愛爾蘭音樂家，40年專心於地中海音樂與中世紀冥想音樂
Graduate level research in biochemistry exposed Susan to a wide array of issues in salivary hormone research. While writing her Master’s thesis, she was fortunate enough to be supervised by a renowned professor from National Taiwan University, allowing her to receive specialized training in his laboratory. Susan adopted these extremely high standards in the laboratory and handled a heavy workload, so she learned many new skills and advanced techniques. Her graduate research focused mainly on saliva hormone assay, an emerging field of clinical diagnosis. Becoming skillful in the use of the latest techniques in this field made her confident in both her theoretical and practical expertise in the laboratory. This acquired expertise has greatly increased her awareness of the latest developments in the field, both practical and theoretical, allowing her eventually to take a leading role in laboratory activities. Additionally, the various seminars and conferences in which Susan participated increased her opportunity to acquire and exchange knowledge with peers in various ways. Co-authoring papers as a graduate student made her aware of the detailed publication and review process. Combined with her extensive experience as a technical assistant that matured her as a researcher, her advanced training will place her in a better position to understand and respond to the frequent changes that occur in clinical science. Given her solid academic background, Susan is confident in her ability to contribute significantly to DEF Company’s efforts to develop innovative technology products.
工程英文假設描述 (11) (下)
*工程目標 : 工程提案的目標 ?
* 達成目標的方法 : 你的計劃中達成目標的步驟?
* 希望的結果 : 希望的結果你希望達成的結果?
*領域的貢獻 : 你的提案對相關工程領域的貢獻?
工程計劃目標 An effective GAs model can be designed, capable of deriving an optimal solution for each state in a multi-state problem. 達成目標的方法 To do so, the proposed fuzzy polyploidy, a multi-state chromosome coding scheme, can be used to describe the solution of a multi-state problem. An adaptive genetic structure model can then be adopted to derive an appropriate polyploidy structure for practical applications. The proposed model consists of three structural level operations, including structural expansion, structural deletion, and structural coercion, to simulate the natural random variation. 希望的結果 As anticipated, the proposed model can increase the accuracy of the optimum solution derived for a particular multi-state problem. Restated, a deeper multi-state property of a problem implies a more accurate solution achievable by the proposed model. For applications with only a signal state (without the multi-state property), the proposed model is comparable to conventional GAs and only requires a small amount of extra memory and computational time. Moreover, the proposed GA method can enhance conventional genetic algorithms by systematically solving multi-state problems through the use of the polyploidy concept. Polyploidy encoding observed in nature provides a more flexible and dynamic encoding scheme than do conventional approaches. In practice, genetic algorithms have difficulty in obtaining optimum solutions when the chromosome structure is too complex because a complex structure always involves a large search space. 領域的貢獻 Importantly, the proposed simple to complex process, accompanied by a polyploidy model, facilitates the evolution of a complex structure that involves a large search space. (NOTE : Add 2-3 more sentences that describe more thoroughly how the proposed method contributes to a particular field or sector)