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                               3.00






                  - 3 - 2 - 1 0  1  2                              - 3 - 2 - 1 0  1  2  3  4
                        (a)  0.00 s                                      (c)  2.00 s









                  -  3  -  2  -  1  0  1  2  3  4  5  6  -  3  -  2  -  1  0  1  2  3  4  5  6  -  3  -  2  -  1  0  1  2  3  4
                        (d)  3.00 s              (e)  4.00 s             (f)  5.00 s
                         Figure  5:  Process  of indirect  simultaneous  positioning  to  desired  lines

               5   CONCLUDING        REMARKS
               I  have  applied  continua,  modeling  of  a  viscoelastic  object  to  the  indirect  simultaneous  position-
               ing  and  have  simulated  the  positioning  process.  I  have  shown  that  a  simple  I-control  based  on
               a  distance-based  mapping  among  positioned  and  manipulated  displacements  performs  the  posi-
               tioning  successfully  without  any  physical  parameter.  Note that  an  iterative  control  law  proposed
               in  this  paper  requires  no  time-derivatives  of  sensor  signals  and  works  well  with  time  interval
               around  0.5, which  is larger than  the  sampling time  in  video  frame  rate.  In addition,  I have  shown
               that  a redundant  system,  where the  number  of manipulated  displacements  exceeds the number  of
               positioned  displacements,  performs  the  positioning  successfully.
                 I am going to investigate the stability  of the positioning process based  on the continua  modeling
               and  its  finite  element  approximation  of viseoelastic  deformation.  Experimental  verification  is also
               a  future  issue.  I  will  investigate  the  positioning  of  an  inelastic  object  including  hysteresis  and
               rheological  deformation.

               References

                Baumgarte, J.  (1972). Stabilization  of Constraints  and Integrals  of Motion  in Dynamical  Systems.
                   Computer  Methods  in  Applied  Mechanics  and  Engineering  1,  1—16.
                Henrich,  D.  and  Worn,  H.  eds.  (2000).  Robot  Manipulation  of  Deformable  Objects.  Springer
                   Verlag.
                Taylor, P. M. et al. (1990). Sensory  Robotics for  the Handling  of Limp  Materials.  Springer—Verlag.

                Wada,  T.,  Hirai,  S.,  and  Kawamura,  S.  (1998).  Indirect  Simultaneous  Positioning  Operations
                   of Extensionally  Deformable  Objects. Proc. IEEE/RSJ  Int.  Conf.  on  Intelligent  Robots  and
                   Systems,  1333  1338.
                Wada,  T.,  Hirai,  S.,  Kawamura,  S.,  and  Kamiji,  N.  (2001).  Robust  Manipulation  of  Deformable
                   Objects  By  a  Simple  PID  Feedback. Proc.  IEEE  Int.  Conf.  on  Robotics  and  Automation.
                   85-90.
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