|Table of Contents|

[1] Qiao Bing, Lu Rongjian,. Impedance force control for position controlled robotic manipulatorsunder the constraint of unknown environments [J]. Journal of Southeast University (English Edition), 2003, 19 (4): 359-363. [doi:10.3969/j.issn.1003-7985.2003.04.012]
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Impedance force control for position controlled robotic manipulatorsunder the constraint of unknown environments()
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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
19
Issue:
2003 4
Page:
359-363
Research Field:
Automation
Publishing date:
2003-12-30

Info

Title:
Impedance force control for position controlled robotic manipulatorsunder the constraint of unknown environments
Author(s):
Qiao Bing1 Lu Rongjian2
1College of Civil Aviation, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China
2College of Mechanical and Electronic Engineering, Nanjing Forestry University, Nanjing 210037, China
Keywords:
robotic manipulators force/position control unknown constraint
PACS:
TP24
DOI:
10.3969/j.issn.1003-7985.2003.04.012
Abstract:
A force control strategy for position controlled robotic manipulators is presented. On-line force feedback data are employed to estimate the local shape of the unknown constraint. The estimated vectors are used to generate the virtual reference trajectory for the target impedance model that is driven by the force error to produce command position. By following the command position trajectory the robotic manipulator can follow the unknown constraint surface while keeping an acceptable force error in a manner depicted by the target impedance model. Computer simulation on a 3-linked planar manipulator and experimental studies on an Adept-3, an SCARA type robotic manipulator, are conducted to verify the force tracking capability of the proposed control strategy.

References:

[1] Yoshikawa T. Force control of robot manipulators [A]. In: Proc IEEE Int Conf Robotics and Automation[C]. San Francisco, CA, 2000, 1:220-226.
[2] Whitney E. Historical perspective and state of the art in robot force control [J]. The Int Journal of Robotics Research, 1987, 16(1):3-14.
[3] Roy J, Whitcomb L L. Adaptive force control of position/velocity controlled robots: theory and experiment [J]. IEEE Trans on Robotics & Automation, 2002, 18(2):121-137.
[4] Ferretti G, Magnani G, Rocco P. Impedance control for industrial robots [A]. In: Proc IEEE Int Conf on Robotics and Automation [C]. San Francisco, CA, 2000. 4028-4033.
[5] Newman W S, Branicky M. Intelligent strategies for compliant robotic assembly [EB/OL]. http://citeseer.nj.nec.com/newman01intelligent.html. 2001.
[6] Villani L, de Wit C C, Brogliato B. An exponentially stable
  adaptive control for force and position tracking of robot manipulators [J]. IEEE Trans Automat Contr, 1999, 44:778-802.
[7] Raibert M H, Craig J J. Hybrid position/force control of manipulators [J]. Trans ASME J Dyn Syst, Meas, Contr, 1981, 102:126-133.
[8] Hogan N. Impedance control: an approach to manipulation, Part I-III [J]. Trans ASME J Dynamic System, Meas, Contr, 1985, 107:1-24.
[9] Seraji H, Colbaugh R. Force tracking in impedance control [J]. Int J Robotics Research, 1997, 16(1): 97-117.
[10] Merlet J P. C-surface applied to the design of An hybrid force/position robot controller [A]. In: IEEE Conf on Robotics and Automation [C]. Raleigh, NC, 1987, 2:1055-1059.
[11] Blauer M, Belanger P R. State and parameters estimation for robotic manipulators using force measurements[J]. IEEE Trans on Automatic Control, 1987, 32(12): 1055-1066.
[12] Yoshikawa T, Sudou, Akio. Dynamic hybrid position/force control of robot manipulators: on-line estimation of unknown constraint[A]. In: Proc IEEE Int Conf Robotic Automat[C]. Los Alamitos, CA, 1990. 1231-1236.
[13] Pelletier M, Doyon M. On the implementation and performance of impedance control on position controlled robots [A]. In: Proc IEEE Int Conf on Robot Automat[C]. San Diego, CA, 1994. 1228-1233.
[14] Craig J J. Introduction to robotics: mechanics and control. 2nd ed. [M]. Reading, Massachusetts: Addison-Wesley, 1989.

Memo

Memo:
Biography: Qiao Bing(1967—), male, associate professor, bqiao@nuaa.edu.cn.
Last Update: 2003-12-20