學術期刊應該進行手稿取回,校正,或兩者? (PART A)(研究出版倫理)研究生英文編修出版投稿日報 3/9/2015

Purine Nucleoside Phosphorylase

研究生英文編修出版投稿日報:
* 學術期刊應該進行手稿取回,校正,或兩者? (PART A)(研究出版倫理)
* 學術英文投稿教學影片 (414) How to Write a Perfect Memo
* Viet nam: Chỉnh sửa một cách chính xác (Đào tạo chỉnh sửa trong viết văn bản tiếng anh) (1/6)
* 明白寫作 (英文編修訓練) (15 / 15)
* 非正式工程英文技術報告 (24) (上)
學術期刊應該進行手稿取回,校正,或兩者? (PART A)(研究出版倫理)(柯泰德英文編修翻譯)

* 在沒有收集每個合著者簽名下,大多數學術期刊要求通訊作者宣布他有權代表其他作者提交手稿。

* 期刊上發表的一篇文章中,作者之一聲稱他和他的同事們不知道這個文件的存在。

* 那位作者還聲稱通訊作者是來自另一個國家的訪問學者,已經從他們的數據庫中獲取數據和書面資料,但沒有部門或大學的
許可來提交手稿。

* 筆者首先意識到的這篇文章是當出版商給他發了公文(因為通訊作者沒有回應出版商的電子郵件)。

* 該期刊要求作者檢查數據。筆者指出,該數據不完整和文件應該進行修改,以將其他數據整合。

* 同時,通訊作者,作者的機構和研究倫理委員會沒有回應筆者的指責。

Committee on Publication Ethics (COPE) (Case No. 10-12 )

學術英文投稿教學影片 (414) How to Write a Perfect Memo
觀看本學術英文投稿教學影片以加強英文寫作投稿力
Viet nam: Chỉnh sửa một cách chính xác (Đào tạo chỉnh sửa trong viết văn bản tiếng anh) (1/6)

Các chuyên gia thường rất bận rộn không có thời gian để đọc tài liệu báo cáo dài, do vậy rất nhiều các bài báo kỹ thuật thường bị từ chối hoặc trì hoãn, bởi vì họ không có khả năng thể hiện tốt ý tưởng bài viết một cách ngắn gọn.

Lac Hong Online Writing Lab
Trung tâm Viết báo Khoa học bằng tiếng Anh Đại học Lạc Hồng

明白寫作 (英文編修訓練) (15 / 15)

請把練習題列印出來再以紅筆用標準編修註記修改:

17. The variables can be easily calculated because it is relatively simple.

18. The statistical regression method was used to identify the relationship between the geometric
orientation and correction ratio; a set of input/output patterns is also
applied.

科技英文寫作者常常寫非所想,當然誤導了讀者,此時明白寫作就很重要,除了要把文章寫得精確以外,更要使讀者不誤解您的意思。

Answer

科技英文編修訓練手冊 柯泰德

非正式工程英文技術報告 (24) (上) 學術英文編修出版新聞

* 簡要的描述工程方案所關心的事項 。經由一個句子描述工程機構對影響目標工程或客戶有關事項的關心程度。

* 闡明特定部門或客戶所關心的工程環境:管理問題形成的工程環境背景描述。

* 介紹工程問題:工程問題的本質和對與其相關的特定部門或客戶的負面影響。

* 介紹工程方案的目標:工程機構對以上問題最合理的回應

* 工程方案方法論的細節描述:精確的方案步驟描述。

* 工程方案主要成果總結:工程方案對特定部門或客戶立即的利益。

* 工程方案對特定部門或領域的全面貢獻:研究結果和所提方法對工程機構以外更廣大讀者的牽涉。

強有力的工程英文技術報告包括以下要素:

簡要的描述工程方案所關心的事項 Our group has thoroughly explored the increasing incidence of manufacturing systems that have a complex design with multiple quality characteristics based on various customer requirements 闡明特定部門或客戶所關心的工程環境 The Taguchi method is extensively adopted to enhance manufacturing procedures and product quality. As an efficient robust design approach, the Taguchi method significantly enhances process performance and reduces both process development time and manufacturing costs. Additionally, the Taguchi method uses parameter design to determine a robust factor-level combination that can intervene in noise factors. Noise factors produce product/process variances, making such factors extremely difficult or costly to control. Moreover, experiments allocating Taguchi’s orthogonal array can reduce the quantity of experiments to lower experimental costs. The Taguchi method has subsequently been adopted in numerous industrial-related fields. 介紹管理問題 In most design instances, increasing variation in customer requirements accompanies complex product design. Although adopted in various industries to continuously enhance product design in response to customer requirements, the conventionally adopted Taguchi method only can optimize single quality characteristic design. As product/process design tends to be rather complex to comply with constantly changing customer requirements and production technology, the quality improvement of the conventional Taguchi method gradually declines. The Taguchi method applies a signal-to-noise (SN) ratio as a quality performance measure. According to the SN ratio calculated from experimental observations, an optimal factor-level combination can be obtained by selecting the factor-level with a maximum SN ratio. However, utilizing the SN ratio as a quality performance measure in the optimization procedure may yield an erroneous analysis. Furthermore, the elevated degree of SN ratio for the optimal factor-level combination deteriorates when a complex relationship exists between control factors and quality characteristics. Manufacturers are especially concerned with optimizing a system’s quality to enhance product competitiveness in the market place. Most recent manufacturing systems have a complex design with multiple quality characteristics based on various customer requirements. Accordingly, multiple quality characteristics must be evaluated simultaneously to determine an optimal factor-level combination for a system. The inability to efficiently optimize a complex system with multiple quality characteristics limits applications of the conventional Taguchi method.

有效撰寫英文工作提案 柯泰德

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