Hybrid Adaptive Control for Aerial Manipulation

被引:6
|
作者
Matko Orsag
Christopher Michael Korpela
Stjepan Bogdan
Paul Yu Oh
机构
[1] University of Zagreb,Laboratory for Robotics and Intelligent Control Systems, Faculty of Electrical Engineering and Computing
[2] Drexel University,Drexel Autonomous Systems Lab
来源
Journal of Intelligent & Robotic Systems | 2014年 / 73卷
关键词
Adaptive control; Dexterous manipulation; Aerial robots;
D O I
暂无
中图分类号
学科分类号
摘要
This paper presents a control scheme to achieve dynamic stability in a mobile manipulating unmanned aerial vehicle (MM-UAV) using a combination of Gain scheduling and Lyapunov based model reference adaptive control (MRAC). Our test flight results indicate that we can accurately model and control our aerial vehicle when both moving the manipulators and interacting with target objects. Using the Lyapunov stability theory, the controller is proven to be stable. The simulation results showed how the MRAC is capable of stabilizing the oscillations produced from the unstable PI-D attitude control loop. Finally a high level control system based on a switching automaton is proposed in order to ensure the saftey of the aerial manipulation missions.
引用
收藏
页码:693 / 707
页数:14
相关论文
共 50 条
  • [1] Hybrid Adaptive Control for Aerial Manipulation
    Orsag, Matko
    Korpela, Christopher Michael
    Bogdan, Stjepan
    Oh, Paul Yu
    JOURNAL OF INTELLIGENT & ROBOTIC SYSTEMS, 2014, 73 (1-4) : 693 - 707
  • [2] Adaptive Control of Aerial Manipulation Vehicle
    Kannan, Somasundar
    Alma, Marouane
    Olivares-Mendez, Miguel A.
    Voos, Holger
    2014 IEEE INTERNATIONAL CONFERENCE ON CONTROL SYSTEM COMPUTING AND ENGINEERING, 2014, : 273 - 278
  • [3] Nonlinear Adaptive Control of an Aerial Manipulation System
    Yilmaz, Emre
    Zaki, Hammad
    Unel, Mustafa
    2019 18TH EUROPEAN CONTROL CONFERENCE (ECC), 2019, : 3916 - 3921
  • [4] Adaptive Control Approaches for an Unmanned Aerial Manipulation System
    Chaikalis, Dintitris
    Khorrami, Farshad
    Tzes, Anthony
    2020 INTERNATIONAL CONFERENCE ON UNMANNED AIRCRAFT SYSTEMS (ICUAS'20), 2020, : 498 - 503
  • [5] Forceful Aerial Manipulation Based on an Aerial Robotic Chain: Hybrid Modeling and Control
    Huan Nguyen
    Alexis, Kostas
    IEEE ROBOTICS AND AUTOMATION LETTERS, 2021, 6 (02): : 3711 - 3719
  • [6] Modeling and control of a new aerial manipulation system of a Hybrid Ground Aerial Robot
    Saeed, Maha
    Fanni, Mohamed
    Mohamed, Abdelfatah
    2018 IEEE INTERNATIONAL CONFERENCE ON INDUSTRIAL TECHNOLOGY (ICIT), 2018, : 234 - 238
  • [7] Lyapunov based Model Reference Adaptive Control for Aerial Manipulation
    Orsag, Matko
    Korpela, Christopher
    Bogdan, Stjepan
    Oh, Paul
    2013 INTERNATIONAL CONFERENCE ON UNMANNED AIRCRAFT SYSTEMS (ICUAS), 2013, : 966 - 973
  • [8] Cooperative Aerial Manipulation with Decentralized Adaptive Force-Consensus Control
    Thapa, Sandesh
    Bai, He
    Acosta, J. A.
    JOURNAL OF INTELLIGENT & ROBOTIC SYSTEMS, 2020, 97 (01) : 171 - 183
  • [9] Cooperative Aerial Manipulation with Decentralized Adaptive Force-Consensus Control
    Sandesh Thapa
    He Bai
    J. Á. Acosta
    Journal of Intelligent & Robotic Systems, 2020, 97 : 171 - 183
  • [10] Adaptive Parameter Estimation for Aerial Manipulation
    Baraban, Gabriel
    Sheckells, Matthew
    Kim, Soowon
    Kobilarov, Marin
    2020 AMERICAN CONTROL CONFERENCE (ACC), 2020, : 614 - 619
12345