Title :
Managing collaboration in the nanoManipulator
Author :
Hudson, Thomas C. ; Helser, Aron T. ; Sonnenwald, Diane H. ; Whitton, Mary C.
Author_Institution :
North Carolina Univ., Wilmington, NC, USA
Abstract :
We designed, developed, deployed, and evaluated the Collaborative nanoManipulator (CnM), a system supporting remote collaboration between users of the nanoManipulator interface to atomic force microscopes. To be accepted by users, the shared nanoManipulator application had to have the same high level of interactivity as the single user system and the application had to support a user´s ability to interleave working privately and working collaboratively. The paper describes the entire collaboration system, but focuses on the shared nanoManipulator application. Based on our experience developing the CnM, we present: a method of analyzing applications to characterize the requirements for sharing data between collaborating sites, examples of data structures that support collaboration, and guidelines for selecting appropriate synchronization and concurrency control schemes.
Keywords :
atomic force microscopy; concurrency control; groupware; manipulators; natural sciences computing; peripheral interfaces; virtual reality; CnM; Collaborative nanoManipulator; atomic force microscopes; collaboration management; collaborative working; concurrency control schemes; data structures; interactivity; nanoManipulator interface; private working; remote collaboration; shared nanoManipulator application; synchronization; Application software; Collaboration; Collaborative software; Collaborative work; Concurrency control; Control systems; Guidelines; Identity-based encryption; Microscopy; Virtual environment;
Conference_Titel :
Virtual Reality, 2003. Proceedings. IEEE
Print_ISBN :
0-7695-1882-6
DOI :
10.1109/VR.2003.1191137
