Abstract
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, such as the master and slave robots and the visualization engine, form a distributed environment that requires an efficient inter-process communication (IPC) mechanism. This paper describes the extension of the component-based framework provided by the cisst libraries, on which the SAW depends, from a multi-threaded (local) to a multi-process (networked) environment. The current implementation uses the Internet Communication Engine (ICE) middleware package, but the design does not depend on ICE and can accomodate other middleware choices. A telesurgical robot system based on the da Vinci hardware platform is used as a test case, with a research application that requires coordination between the left and right robot arms (a bimanual knot tying task). Performance measurements on this platform indicate minimal overhead due to the networking.
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