Actuator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

Fast Attitude Maneuver Control of Satellite

為了解決Actuator的問題，作者Ye, Dong,Li, You,Xiao, Yan 這樣論述：

Fast Satellite Attitude Maneuver and Control introduces the concept of agile satellites and corresponding fast maneuver attitude control systems, systematically and comprehensively presenting recent research results of fast maneuver attitude control for agile satellites by using advanced nonlinea

r control techniques. This reference book focuses on modeling and attitude control, considering different actuator combinations, actuator installation deviation, actuator fault, and flexible appendage coupling effect for agile satellites. The book provides a unified platform for understanding and ap

plicability of agile satellites fast maneuverer and stabilization control for different purposes.It will be an excellent resource for researchers working on spacecraft design, nonlinear control systems, vehicle systems and complex control systems.

Actuator進入發燒排行的影片

拇指般強壯的梯形介電彈性手指

為了解決Actuator的問題，作者陳法邑 這樣論述：

本次研究使用軟性電容來製作仿生手指，本文皆利用介電彈性體製動器(Dielectric Elastomer Actuator以下簡稱：DEA)做為驅動器。迄今為止，即使以拱形橋狀的最小能量結構進行了加固，介電彈性體致動器負載能力還是相當脆弱，為了解決介電彈性體致動器被動結構強度太差的問題，本文將人類拇指的梯形外型與作動原理應用到致動器被動層背板的設計，這樣會使橋狀結構的高度改變來提升張力中心，並採用多層介電彈性體使致動器本身的預張力提升，但是由於彎曲剛度與慣性矩增加，會減小彎曲行程，最後從負重能力與致動行程間找到撓性背板寬度比w1/w0=0.7的最佳設計。這種堅固的絕緣彈性體夾具總重量為17.

97克，而能承受重量足以支撐一顆蘋果重達181克的物品，相當於能承受自身10倍的重量，並且致動彎曲角度為在5kV時致動59度比原設計僅僅少了16%。

Coating Application for Piping, Valves and Actuators in Offshore Oil and Gas Industry

為了解決Actuator的問題，作者Sotoodeh, Karan 這樣論述：

Karan Sotoodeh used to work for Baker Hughes at his last position as a senior / lead valve and actuator engineer in subsea oil and gas industry. He got doctor of philosophy in safety and reliability in mechanical engineering from University of Stavanger in 2021. Karan Sotoodeh has almost 16 years of

experience in oil and gas industry mainly with valves, piping, actuators and material engineering. He has written four books about piping, valves and actuators and more than 30 papers in peer-reviewed journals. He has been also selected in international conferences in USA, Germany and China to talk

about valves, actuators and piping. Karan Sotoodeh has worked with many valve suppliers in Europe in countries like UK, Italy, France, Germany and Norway. He loves travelling, running and spending time in the nature.

具摺紙鉸鍊雷射光束掃描器之設計

為了解決Actuator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 °