Design and motion planning for serpentine robots.

被引:5
|
作者
Choset, H [1 ]
Luntz, J [1 ]
Shammas, E [1 ]
Rached, T [1 ]
Hull, D [1 ]
Dent, CC [1 ]
机构
[1] Carnegie Mellon Univ, Mech Engn & Robot Inst, Pittsburgh, PA 15213 USA
来源
SMART STRUCTURES AND MATERIALS 2000: SMART ELECTRONICS AND MEMS | 2000年 / 3990卷
关键词
D O I
10.1117/12.388894
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Serpentine robots offer advantages over traditional mobile robots and robot arms because they have enhanced flexibility and reachability, especially in convoluted environments. These mechanisms are especially well suited for search and rescue operations where making contact with surviving victims trapped in a collapsed building is essential. The same flexibility that makes serpentine robots incredibly useful also makes them difficult to design and control. This paper will describe the current status of serpentine robot design and path planning underway in our research group and point towards future directions of research.
引用
收藏
页码:148 / 155
页数:8
相关论文
共 50 条
  • [1] Motion planning for serpentine robots
    Henning, W
    Hickman, F
    Choset, H
    [J]. ROBOTICS 98, 1998, : 1 - 7
  • [2] Cartesian space motion planning for robots. An industrial implementation
    Antonelli, G
    Chiaverini, S
    Palladino, M
    Gerio, GP
    Renga, G
    [J]. ROMOCO' 04: PROCEEDINGS OF THE FOURTH INTERNATIONAL WORKSHOP ON ROBOT MOTION AND CONTROL, 2004, : 279 - 284
  • [3] Self-organizing system for the motion planning of mobile robots.
    Keymeulen, D
    Decuyper, J
    [J]. 1996 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND AUTOMATION, PROCEEDINGS, VOLS 1-4, 1996, : 3369 - 3374
  • [4] Automated kinematics equations generation and constrained motion planning resolution for modular and reconfigurable robots.
    Pin, FG
    Love, LJ
    Jung, DL
    [J]. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2004, 227 : U1045 - U1045
  • [5] Applying AI to the motion control in robots. A sliding situation
    Figueras, A.
    Esteva, S.
    Cufi, X.
    De la Rosa, J. L. L.
    [J]. IFAC PAPERSONLINE, 2019, 52 (08): : 393 - 396
  • [6] A Serpentine Curve Based Motion Planning Method for Cable-Driven Snake Robots
    Tang, Lei
    Zhu, Li-Min
    Zhu, Xiangyang
    Gu, Guoying
    [J]. PROCEEDINGS OF THE 2018 25TH INTERNATIONAL CONFERENCE ON MECHATRONICS AND MACHINE VISION IN PRACTICE (M2VIP), 2018, : 326 - 331
  • [7] Autonomous Tracked Robots. History, Modelling, Localization, and Motion Control
    Gonzalez, Ramon
    Rodriguez, Francisco
    Luis Guzman, Jose
    [J]. REVISTA IBEROAMERICANA DE AUTOMATICA E INFORMATICA INDUSTRIAL, 2015, 12 (01): : 3 - 12
  • [8] Linear and articulated robots.
    Wenzel, M
    [J]. KUNSTSTOFFE-PLAST EUROPE, 1998, 88 (09): : 1425 - +
  • [9] ROBOFOLD AND ROBOTS. IO
    Epps, Gregory
    [J]. ARCHITECTURAL DESIGN, 2014, 84 (03) : 68 - 69
  • [10] A Short Review on Biped Robots Motion Planning and Trajectory Design
    Reddy, Kunchala Balakrishana
    Suresh, Gamini
    Mandava, Ravi Kumar
    Kumar, T. Ch Anil
    [J]. ADVANCEMENT IN MATERIALS, MANUFACTURING AND ENERGY ENGINEERING, VOL. II, ICAMME 2021, 2022, : 471 - 480
12345