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MiroSurge is a presently prototypic robotic system (as of 05/2012) designed mainly for research    in minimally invasive telesurgery. In the described configuration, the system is designed according to the master slave principle and enables the operator to remotely control minimally invasive surgical instruments including force/torque feedback. The scenario is developed at the Institute of Robotics and Mechatronics (RMC) within the German Aerospace Center (DLR).
The system consists of
- Three to five MIRO robot arms at the operation table,
- Minimally invasive instruments (MICA),
- a HD-Stereo-Endoscope,
- surgical workstation with two force/torque reflecting input devices and stereo vision, and
- a planning suite for the robotic setup.
Besides the semi-autonomous motion compensation, the system exclusively is a telemanipulator at any time and the surgeon at the workstation has full control of the surgical instruments. To change instruments or to introduce the robot setup, and for safety reasons a surgical assistant is present in the operating room (OR).
MIRO robot arm
MIRO  is a lightweight robot (mass: approx. 10 kg, i.e. 353 US oz) with an optimized design for surgical applications.
- Payload approximately 3 kg
- 7 DoF
- Joint-sided torque sensors
- 3 kHz Cartesian control cycle
In the minimally invasive setup MiroSurge, the MIRO arms are mounted directly to the side-rails of the operation table. As the robot has full 6 DoF motion capabilities, the trocar can be located almost arbitrary within the robot’s workspace. Due to the additional DoF (joint) of the robot, a nullspace (elbow) motion is possible during operation of the robot, which is utilized for collision avoidance.
MICA minimally invasive instrument
MICA  (mass approx. 0,9 kg, i.e. 31.8 US oz) is an robotic instrument for minimally invasive surgery.
- intra corporal universal joint (2DoF)
- scissors, gripper, or a Maryland as a functional tip (1DoF)
- Joint-sided 7DoF force/torque sensor for force feedback 
- 3 kHz position control cycle
The instrument MICA is mounted directly to the hollow wrist of the robot MIRO, thus the lost 2DoF of motion due to the trocar in case of the minimally invasive setup MiroSurge are reestablished, giving the surgeon full dexterity inside patient's body.
For manipulation, the surgeon sits in front of a user console, remotely located from the operation table. The console comprises
- stereo vision of the site of operation on a HD-display and
- two commercially available, fully actuated input devices Sigma.7 (master) with 7DoF of motion  dedicated to the left and right hand of the surgeon.
Thereby, the surgeon is able to guide e.g. two robotic instruments MICA (slave) by moving the hand-held input devices according to the desired motion. Visual and haptic feedback is provided to the surgeon by the HD-display in front of him and the force/torque reflecting input devices respectively.
Planning and registration
Concerning an optimized positioning of robotic components and patient in relation to workspace accessibility, research is done within the MiroSurge system concerning preoperative planning as well as intraoperative registration.   
MiroSurge as a system for minimally invasive surgery is intended to operate in the abdominal and thoracic region with two MIRO-robots carrying MICA-instruments and one robot for the stereo-endoscope.
- Hagn, Ulrich; Konietschke, R. and Tobergte, A. and Nickl, M. and Jörg, S. and Kuebler, B. and Passig, G. and Gröger, M. and Fröhlich, F. and Seibold, U. and Le-Tien, L. and Albu-Schäffer, A. and Nothelfer, A. and Hacker, F. and Grebenstein, M. and Hirzinger, G. (2010). "The DLR MiroSurge: a versatile system for research in endoscopic telesurgery". International Journal of Computer Assisted Radiology and Surgery 5 (2): 183–193. doi:10.1007/s11548-009-0372-4.
- "MiroSurge". TUM Miti. Retrieved 04.05.2012.
- "Medical Robotics Research". COMPAMED. Retrieved 04.05.2012.
- "SAFROS- SAFety in RObotic Surgery". LSRO / SAFROS. Retrieved 04.05.2012.
- Groeger, Martin; Arbter, K. and Hirzinger, G. (2008). "Motion Tracking for Minimally Invasive Robotic Surgery". Medical Robotics: 117–148.
- Hagn, Ulrich; Nickl, Matthias and Jörg, Stephan and Passig, Georg and Bahls, Thomas and Nothhelfer, Alexander and Hacker, Franz and Le-Tien, Luc and Albu-Schäffer, Alin and Konietschke, Rainer and Grebenstein, Markus and Warpup, Rebecca and Haslinger, Robert and Frommberger, Mirko and Hirzinger, Gerd (2008). "The DLR MIRO: A versatile lightweight robot for surgical applications". Industrial Robot: An International Journal 35 (4): 324–336. doi:10.1108/01439910810876427.
- Thielmann, Sophie; Seibold, U. and Haslinger, R. and Passig, G. and Bahls, T. and Jörg, S. and Nickl, M. and Nothhelfer, A. and Hagn, U. and Hirzinger, G. (2010). MICA - A new generation of versatile instruments in robotic surgery.
- Seibold, Ulrich; Kuebler, B. and Thielmann, S. and Hirzinger, G. (2009). "Endoscopic 3 DoF-Instrument with 7 DoF Force/Torque Feedback". Workshop contribution, presented at ICRA2009, Kobe, Japan.
- Tobergte, Andreas; Helmer, Patrick and Hagn, Ulrich and Rouiller, Patrice and Thielmann, Sophie and Grange, Sebastien and Albu-Sch\"affer, Alin and Conti, Francois and Hirzinger, Gerd (2011). "The sigma.7 haptic interface for MiroSurge: A new bi-manual surgical console". In: Proceedings of the IEEE (CFP11IRO-DVD) IROS2011: 3023–3030.
- "sigma.7". Force Dimension.
- Konietschke, Rainer; Weiss, H. and Ortmaier, T. and Hirzinger, G. (2004). A Preoperative Planning Procedure for Robotically Assisted Minimally Invasive Interventions.
- Konietschke, Rainer; Bodenmüller, T. and Rink, C. and Schwier, A. and Bäuml, B. and Hirzinger, G. (2011). "Optimal Setup of the DLR MiroSurge Telerobotic System for Minimally Invasive Surgery". Proceedings of the 2011 IEEE International Conference on Robotics and Automation (ICRA).
- Tobergte, Andreas; Konietschke, R. and Hirzinger, G. (2009). "Planning and Control of a Teleoperation System for Research in Minimally Invasive Robotic Surgery". In Proceedings of the 2009 IEEE International Conference on Robotics and Automation (ICRA).
- Medical robotics: MiroSurge on YouTube
- "MiroSurge - Telemanipulation in minimally invasive surgery". DLR. Retrieved 03.05.2012.