簡易檢索 / 詳目顯示
| 研究生: |
陳思俊 SZU-CHUN CHEN |
|---|---|
| 論文名稱: |
有尾槳無人共軸直升機懸停系統 Hovering system of Unmanned coaxial helicopter with tail rotor |
| 指導教授: |
羅吉昌
Ji-Chang Lo |
| 口試委員: | |
| 學位類別: |
碩士 Master |
| 系所名稱: |
工學院 - 機械工程學系 Department of Mechanical Engineering |
| 論文出版年: | 2022 |
| 畢業學年度: | 110 |
| 語文別: | 中文 |
| 論文頁數: | 69 |
| 中文關鍵詞: | 系統鑑別 、控制器設計 、速度控制 |
| 外文關鍵詞: | system identification, controller design, speed control |
| 相關次數: | 點閱:19 下載:0 |
| 分享至: |
| 查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
無人機有許多不同種類和外型,本論文針對共軸直升機無人飛行器去做控制系統,共軸直升機為一種上下雙槳排列的旋翼飛行器,適合垂直起降、懸停、並且在同樣尺寸的飛行器下有著更大的槳翼,帶來更大的載重能力。
本論文使用的機體結構是帶尾槳的共軸直升機,相較於無尾槳傾斜盤構造的共軸直升機有著價格優勢,並且利用開源便宜的Arduino NANO控制板做程式控制無人機馬達轉速,目的是設計出讓無人機定高懸停和姿態穩定的控制系統,從實驗測試馬達對高度變化的頻率響應開始,做曲線擬合獲得系統的轉移函數後,最後針對所使用的系統人工調整出合適的PID控制器,
There are many different types and shapes of UAVs. This paper aims at the control system of the unmanned coaxial helicopter . The coaxial helicopter is a rotorcraft with up and down double-screw arrangement, which is suitable for vertical take-off and landing, hovering, and the same size of the aircraft. There are larger paddles underneath, which bring more load capacity.
The body structure used in this paper is a coaxial helicopter with a tail rotor, which has a price advantage compared to a coaxial helicopter with a swash plate without a tail rotor, and the open source and cheap Arduino NANO control board is used to program the motor speed of the drone. It is to design a control system that allows the drone to hover at a fixed height and stabilize its attitude. It starts from the experimental test of the frequency response of the motor to the change in height, and after curve fitting to obtain the transfer function of the system, and finally manually adjusts the appropriate system for the system used. PID controller.
1. 張文鴻。「以MATLAB系統識別工具箱進行動態系統之模型識別」。碩士論文,正修科技大學,2018。
2. 謝育豪。「馬達參數估測與控制器設計」。碩士論文,國立雲林科技大學,2019。
3.吳昶慶。「直流有刷馬達之系統判別」。碩士論文,國立交通大學,2008。
4. H.-Q.-T. Ngo; T.-P. Nguyen; V.-N.-S. Huynh; T.-S. Le; C.-T. Nguyen. "Experimental comparison of Complementary filter and Kalman filter design for low-cost sensor in quadcopter." 2017 International Conference on System Science and Engineering (ICSSE)
5. Seong-Jin Lee. "Modeling of real-time flight control system for small coaxial helicopter."2014 IEEE Aerospace Conference.
6. Bartomeu Rub, Ramon Perez and Bernardo Morcego."Modelling and Control of a Coaxial Helicopter UAV in an Indoor Laboratory." 2016 3rd Conference on Control and Fault-Tolerant Systems (SysTol) Barcelona, Spain, Sept. 7-9, 2016.
7. Shanjie Wu, Zheng Zheng, Kai-Yuan Cai . "Indoor autonomous hovering control for a small unmanned coaxial helicopter." 2010 8th IEEE International Conference on
Control and Automation Xiamen, China, June 9-11, 2010.
8. Hun-ok Lim and Shoji Machida . "Mechanism and Control of Coaxial Double Contra-Rotation Flying Robot." ICCAS 2010 International Conference on Control, Automation and System 2010 October 27(Wed.)-30(Sat.), 2010.
9. Saunier, Nicolas, and Tarek Sayed. "A feature-based tracking algorithm for vehicles in intersections." The 3rd Canadian Conference on Computer and Robot Vision (CRV'06). IEEE, 2006.
10. 陳彥彰。「垂直起降無人機之設計與研究」。碩士論文,長榮大學,2021。
11. Satoshi Suzuki; Takahiro Ishii; Gennai Yanagisawa; Kazuki Tomita; Yasutoshi Yokoyama. "Modeling and motion analysis of fixed-pitch co-axial rotor unmanned helicopter." 2012 IEEE/RSJ International Conference on Intelligent Robots and Systems.
12. 陳傳生(Chwan-Hsen Chen);馮騰榔(Teng-Lang Feng);林章豪(Jhang-Hao Lin)「直升機主旋翼轉速控制系統」。南亞學報, (25), 2005。
13. 許華凱。「無人機系統分析與控制」。碩士論文,國防大學,2017。
14. 董志岩。「共軸雙旋翼無人直升機建模與控制算法研究」。博士論文,吉林大學,2016。
15. I2C 傳輸的基本結構圖 https://www.circuitbasics.com/basics-of-the-i2c-communication-protocol
