學術工作自薦信寫得不好的原因 (PART A) 研究生英文編修出版投稿日報 6/17/2015

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研究生英文編修出版投稿日報:
* 學術工作自薦信寫得不好的原因 (PART A)
* 學術英文投稿教學影片 (514) Advanced project planning – project management
* Viết tiếng Anh học thuật Bảng tin hàng ngàym
* 動詞代替名詞 (精確英文寫作) (英文編修訓練) (8 / 10 )
* 非正式工程英文技術報告 (51) (上)
Academic publishing news 學術英文編修出版新聞

學術工作自薦信寫得不好的原因 (PART A)

* 內容太長,超過兩頁。

* 不使用固定的信箋格式。

* 你告訴別人太多,但無法顯示你已經完成的作品。你沒有提供證據證明教學質量。

* 你說明太多你的論文內容但沒有強調實際貢獻。至於你的論文,你應該只描述在你的研究領域的主要辯論和你的論文如何和其交
互辯論。內容不要超過一個段落。

* 你對你的教學經驗的描寫是過於多愁善感和模糊,例如:“我愛教學。”,你對於自己說什麼要提供證據。

Source: Why Your Academic Job Cover Letter Sucks (and what you can do to fix it) (theprofessorisin)

學術英文投稿教學影片 (514) Advanced project planning – project management
觀看本學術英文投稿教學影片以加強英文寫作投稿能力
Viết tiếng Anh học thuật Bảng tin hàng ngàym:

* Loại bỏ sự trùng lặp và cụm từ ngữ không cần thiết (2 / 12)(Chỉnh sửa một cách chính xác) (Đào tạo
chỉnh sửa trong viết văn bản tiếng anh)

* Video giảng dạy viết bài báo tiếng Anh (97): Effective writing for scholarly work

* Tổ chức lớp viết báo khoa học thương mại đăng trên tạp chí quốc tế (Ví dụ: ) (15) (phần 2)

* Thực hiện (Ví dụ: Finance)

Viet OWL – Chỉnh sửa báo Khoa học đăng trên tạp chí Quốc tế

動詞代替名詞 (精確英文寫作) (英文編修訓練) (8 / 10 )

句子冗贅的原因也可能是使用太多的名詞,通常這些名詞是由動詞轉化來的,而結果是使動詞更無力,此部份會在第四單元詳論。此外,過份的濫用名詞也帶來了多餘的介係詞。

請把練習題列印出來再以紅筆用標準編修註記修改:

6. The fact that the attributes must be numerical and comparable is stipulated by TOPSIS.

7. The relative closeness computed in TOPSIS can be used as a performance assessment of multi-
response problems in the Taguchi method.

8. Measurement of each response must be carefully made by the standard.

9. Systematic optimization of the problem is the focus of this section.

10. Determination from the experience of an engineer shows how much pressure is affected by
time.

11. Further analysis of the facility is necessary for the practitioner to make an adjustment of
the parameter settings.

12. Minimization of A and B levels can be achieved by setting factors A and B at A2.

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 (51) (上)

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 。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 project focused on the increasing incidence of a complex design of application-specific hardware and rising control hardware costs. 闡明特定部門或客戶所關心的工程環境 Direct-sequence code-division multiple-access (DS-CDMA) has been adopted in 3rd generation (3G) cellular systems owing to its higher data rate, enhanced quality, and larger capacity than the modulation schemes of available systems. Mobile stations must acquire cell-specific spreading codes or code phases before receiving system information from cell sites in DS-CDMA systems. Code acquisition (CA) procedures inevitably require enormous operations to correlate and sum up each chip of the spreading codes. Application-specific hardware or digital signal processors (DSPs) can be used to implement CA procedures. Additionally, software defined radio (SDR) concept has received increasing attention. More than one system specification will be incorporated into user equipment in the near future. How to implement various CA procedures efficiently is thus of priority concern. 介紹管理問題 Implementing CA procedures by software on DSP is feasible for SDR-based user equipment – regardless of cost and power consumption. Although state-of-the-art DSPs can provide more than 1 giga-instruction-per-second (GIPS), most CA procedures are still implemented using application-specific hardware because intense data dependency of CA operations minimizes the benefits of pipelining and parallelizing of arithmetic architecture in DSPs. Various spreading codes necessitate long design progresses of application-specific hardware, respectively. Additionally, individual CA modules can significantly elevate hardware costs. For instance, DSPs can provide around 1 to 2 GIPS using pipelining and parallelizing schemes. These calculating capabilities will be degraded to 100 to 200 MIPS only due to data dependency of CA procedures. Unfortunately, more than 1 giga-operation-per-second (GOPS) is required in CA procedures. These CA operations normally require more than one instruction. Application-specific hardware thus becomes the only viable means of implementing various CA procedures on the same platform. The inability to develop a generic CA architecture makes it impossible to simplify the design of application-specific hardware and control hardware costs.

有效撰寫英文工作提案 柯泰德

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