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A modular architecture for biomanipulation
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The Johns Hopkins University Surgical Assistant Workstation (SAW) modular software framework provides support for robotic devices, imaging sensors and a visualization pipeline for rapid prototyping, primarily for surgical research systems. We extend the SAW [...]

ReachIN: A Modular Vision Based Interface for Teleoperation
No opinion
Teleoperation is currently the dominant form of instrument control for surgical robotics. For example, the mechanical masters in the da Vinci surgical system provides a stable, precise interface for teleoperation, allowing execution of delicate tasks in [...]

Kinematics Based Safety Operation Mechanism for Robotic Surgery extending the JHU SAW Framework
No opinion
As robotic surgery gains popularity [1, 2, 3], methods for improving situational awareness during tele- operation have become an active area of research. Literature has attempted to incorporate haptic feedback displays to enhance and improve user performance. [...]

A Surgical Assistant Workstation (SAW) Application for Teleoperated Surgical Robot System
No opinion
The Surgical Assistant Workstation (SAW) modular software framework provides integrated support for robotic devices, imaging sensors, and a visualization pipeline for rapid prototyping of telesurgical research systems. Subsystems of a telesurgical system, [...]


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