Progress

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m (Intracavity Inspection Arm)
 
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== <span style="color:blue;">The Endoscopic Surgical Robot</span> ==
== <span style="color:blue;">The Endoscopic Surgical Robot</span> ==
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* Validate the concept of shape-locking
+
* '''Explore concepts of shape-locking
 +
* '''Tissue penetration experiments with force sensing
 +
** ''Assigned to: Jiangran Zhao   
 +
** Focus: insert angles with force sensing, modeling NiTi suture and tissues
 +
** Planned progress: March, 2013
 +
* '''Loading performance of the continuum arm
 +
** ''Assigned to: Jiangran Zhao   
 +
** Focus: total length, one or two segments, direction, COMSOL simulation.
 +
** Planned progress: March, 2013
 +
 +
* '''Non-circular tool assemble and test
 +
** ''Assigned to: Jiangran Zhao
 +
** Focus: geometry modeling and load experiment
 +
** Planned progress: March, 2013
 +
 +
* '''Patent writing
 +
** ''Assigned to: Jiangran Zhao
 +
** Planned progress: as time is permitted
== <span style="color:blue;">Exoskelton</span> ==
== <span style="color:blue;">Exoskelton</span> ==
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** Inverse kinematics using updating potential fields  
** Inverse kinematics using updating potential fields  
** Matlab simulation
** Matlab simulation
 +
** Specify the geometry parameters for an industrial application
 +
** Use simulation results to decide the structure of the robot (mainly the segments lengths)
* Compare to the 3*3 configuration
* Compare to the 3*3 configuration
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-
 
-
 
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== <span style="color:blue;">Micro Motor</span> ==
 
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* Fabrication
 
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** ''Assigned to: Guoqing Liu
 
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== <span style="color:blue;">Kinematics Study</span> ==
== <span style="color:blue;">Kinematics Study</span> ==
* Paper study
* Paper study
** ''Asigned to Fengjin Chai
** ''Asigned to Fengjin Chai

Latest revision as of 09:37, 22 January 2013


Project Progresses and Tasks

The SAIT SPA Surgical Robot

  • Overall arrangement of the whole system.
    • Assigned to:Jiangran Zhao
    • Planned progress: new version for the next meeting
  • Actuation mechanism for gripper and needle
    • Assigned to: Jiangran Zhao
    • planned progress: new version for next meeting
  • Bellow fabrication
    • Assigned to: Minxiao Fu & Jiangran Zhao
    • Focus: manufacture (Bin Jiang & Pai Ni) experiment after manufacture. Tool assemble and experiment.
    • Planned progress: Conclusion before Feb 1st.
  • Hybrid continuum structure
    • Assigned to: Minxiao Fu
    • Planned progress: Design a simple testbed for this experiment.
  • Vision unit: manufacture
    • Assigned to: Xidian Zheng
    • Planned progress: fabrication results before Mar 5th
  • RCM design
    • Assigned to: Jiangran Zhao & Zhengchen Dai
  • Six channel control board
    • Assigned to: Minxiao Fu
    • Plug cards into new control workstation
    • Sold components to the customized card from Hangzhou
    • Tests

The Endoscopic Surgical Robot

  • Explore concepts of shape-locking
  • Tissue penetration experiments with force sensing
    • Assigned to: Jiangran Zhao
    • Focus: insert angles with force sensing, modeling NiTi suture and tissues
    • Planned progress: March, 2013
  • Loading performance of the continuum arm
    • Assigned to: Jiangran Zhao
    • Focus: total length, one or two segments, direction, COMSOL simulation.
    • Planned progress: March, 2013
  • Non-circular tool assemble and test
    • Assigned to: Jiangran Zhao
    • Focus: geometry modeling and load experiment
    • Planned progress: March, 2013
  • Patent writing
    • Assigned to: Jiangran Zhao
    • Planned progress: as time is permitted

Exoskelton

  • Develop the actuation device to improve the driving capability
  • Help Dong with the experiments of the one-segment exoskeleton


The Prosthetic Hand

  • Summarize expenditures on fabrication
  • Quantify backlashes of the train of gears before and after replacing gears
  • Quantify output errors from the planetary gear system
  • Digital control of the inputs of the planetary gear system
    • Additional structure for installing motors
    • xPC control
  • Improve finger joints
  • Finalize algorithms
    • Manipulate the rehabilitation training balls
    • Try other grasping modes


Intracavity Inspection Arm

  • Kinematics modeling of the intracavity inspection arm with the configuration of 4*2+1:
    • Jacobian derivation
    • Inverse kinematics using updating potential fields
    • Matlab simulation
    • Specify the geometry parameters for an industrial application
    • Use simulation results to decide the structure of the robot (mainly the segments lengths)
  • Compare to the 3*3 configuration

Kinematics Study

  • Paper study
    • Asigned to Fengjin Chai
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