Time-consuming的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列懶人包和總整理

An Instructor’s Companion for Teaching Copyright

為了解決Time-consuming的問題，作者Wolf, Sara 這樣論述：

More than another book about copyright, An Instructor's Companion for Teaching Copyright provides practical guidance for introducing, developing, and assessing knowledge regarding copyright as it applies to educational settings. It is an invaluable resource for the production of instructional materi

als as well as assessment tools such as quizzes and tests, and serves as a source of organized lessons that can be quickly and easily adapted for use in a variety of teaching contexts, relieving educators of the time-consuming task of developing relevant instructional units and activities out of thi

n air. Chapters cover topics such as the definition of key terms like "copyright" and "fair use," the implications of accessing streaming services such as Netflix or YouTube in class situations, laws that affect the use of copyrighted materials, and exceptions to the copyright law that could apply t

o teaching situations. The guide also serves as a companion to currently existing texts on copyright law and other sources of information about copyright law. If you are a K-12 educator, school or academic librarian, or professor responsible for educating students, teachers, or administrators about

copyright, this book will benefit you. Sara E. Wolf, PhD, is associate professor of library media and educational technology at Auburn University, Auburn, AL.

Time-consuming進入發燒排行的影片

透過識別繞線壅擠以改善顯示器驅動晶片的可繞度

為了解決Time-consuming的問題，作者梁凱量 這樣論述：

隨著電路設計規則日漸複雜，可繞度已成為擺置階段必須考慮的重要因素之一，然而作為過去所仰賴的依據，全域繞線擁擠圖放至今日已然無法體現可繞度的趨勢，若想獲得更全面且接近實際繞線的資訊，勢必得進行繞線流程包含全域以及細部繞線，而這相當費時，因此，如何準確且快速的獲得細部繞線資訊並以此做出對可繞度有效的改善是一門重要的課題。本篇針對有著極大長寬比並且容易因此產生嚴重可繞度問題的顯示器驅動晶片，提出一個能夠在擺置階段識別繞線擁擠的方法並以此產生擺置障礙來幫助我們解決上述問題。此方法透過分析繞線壅擠的聚集程度來預測是否會發生細部繞線錯誤以及其發生的位置，並且在這些位置上產生擺置障礙後重新進行擺置。實驗的

結果顯示，跟原本擺置系統的結果相比，我們提出的方法能準確預測細部繞線的錯誤的發生位置並有效減少其數量。此外，本方法可以建置在原有的自動化實體設計流程中，提供一個快速的解決方法來改善擺置的可繞度並且減少為解決細部繞線錯誤而重複進行的擺置和繞線次數。

Virtual Experiments in Mechanical Vibrations: Structural Dynamics and Signal Processing

為了解決Time-consuming的問題，作者Brennan, Michael J. 這樣論述：

VIRTUAL EXPERIMENTS in MECHANICAL VIBRATIONSThe first book of its kind to explain fundamental concepts in both vibrations and signal processing using MATLAB virtual experimentsStudents and young engineers with a strong grounding in engineering theory often lack the practical skills and knowledge

required to carry out experimental work in the laboratory. Fundamental and time-consuming errors can be avoided with the appropriate training and a solid understanding of basic concepts in vibrations and/or signal processing, which are critical to testing new designs. Virtual Experiments in Mechanic

al Vibrations: Structural Dynamics and Signal Processing is designed for readers with limited knowledge of vibrations and signal processing. The intention is to help them relate vibration theory to measurements carried out in the laboratory. With a hands-on approach that emphasizes physics rather th

an mathematics, this practical resource explains fundamental concepts in vibrations and signal processing. It uses the concept of a virtual experiment together with MATLAB to show how the dynamic properties of vibration isolators can be determined, how vibration absorbers can be designed, and how th

ey perform on distributed parameter structures. Readers will find that this text: Allows the concepts of experimental work to be discussed and simulated in the classroom using a physics-based approachPresents computational virtual experiments using MATLAB examples to determine the dynamic behaviour

of several common dynamic systemsExplains the rationale of virtual experimentation and describes typical vibration testing setupsIntroduces the signal processing tools needed to determine the frequency response of a system from input and output dataIncludes access to a companion website containing M

ATLAB codeVirtual Experiments in Mechanical Vibrations: Structural Dynamics and Signal Processing is a must-have resource for researchers, mechanical engineers, and advanced undergraduate and graduate students who are new to the subjects of vibrations, signal processing, and vibration testing. It is

also an invaluable tool for universities where the possibilities of doing experimental work are limited.

具摺紙鉸鍊雷射光束掃描器之設計

為了解決Time-consuming的問題，作者吳育昕 這樣論述：

本論文提出使用紙張摺疊的設計理念，來達成雷射振鏡的導引驅動機構。紙張透過雷射雕刻機可雕刻出任意複雜的圖案，再經摺疊成致動鉸鍊，實現製作快速且技術簡單的雷射振鏡導引驅動機構。相比於傳統軸承以及撓性鉸鍊，傳統軸承本身造成的摩擦力，會影響鏡子其控制上的困難；而撓性鉸鍊可避免旋轉元件彼此間隙產生的誤差及接觸面相對運動所造成的磨耗，擁有低誤差、高工作壽命的優點，可應用於精密機械的作動，但是撓性鉸鍊大致為金屬製成，整體重量重，製作也較為麻煩和耗時。而紙鉸鍊不但解決傳統元件所造成的磨耗，且相較於其他材料來說可以使用較小的驅動力來達到較大的行程量。且雷射振鏡運作幾次，紙張都不會發生斷裂，但是紙張的共振頻率有

逐漸變小的趨勢，直到2000萬次後才趨於定值，代表著紙張的剛性強度有些許改變，使紙張變軟。而系統的平均安定時間為114 ms，重複精準度平均為8.49 ×10-4 °