Craig Sayers scite author profile

In the teleprogramming system an operator is presented with a virtual reality representation of a remote environment. The operator's interaction within that virtual environment is observed and translated into a sequence of robot program instructions for transmission to, and execution by, a robot at the remote site. In this paper we focus on operator interaction with the master station of the teleprogramming system. The use of synthetic fixtures to provide force and visual clues to assist the operator in performing tasks with speed and precision is discussed. It is suggested that, at least in some situations, it is both necessary and desirable to trade off realism for improved task performance. The difficulty of coping with exceptional conditions and, in particular, uncertainty in the world model used to generate the virtual environment is described and the operator interface for diagnosing and resolving errors is presented. An overview is also given of both the hardware and software used to implement master station for the teleprogramming system.

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Teleprogramming for subsea teleoperation using acoustic communication

Sayers

Paul²,

Whitcomb³

et al. 1998

IEEE J. Oceanic Eng.

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This paper considers the performance of subsea intervention tasks from an unmanned untethered submersible while using acoustic communications. It is argued that the low bandwidth and high delay imposed by acoustic modems makes it unwise to adopt conventional teleoperation techniques and a system is presented which permits subsea teleoperative tasks to be carried out using such limited communication resources. The described implementation employs active techniques to assist the operator both in performing actions and in recovering from those problems which will inevitably occur during realworld interaction. It provides the operator with both simulated and real visual imagery and is designed to adapt dynamically to changing bandwidth and computational resources. Experiments are described in which an operator in Philadelphia, PA, controlled a robot manipulator mounted on the JASON underwater vehicle submerged off the Massachusetts coast. All communication over this 500-km distance was via a combination of internet and a simulated acoustic link. Analysis of the bandwidth requirements showed them to be consistent with those from acoustic subsea networks.

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Remote Control

Sayers¹

1999

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Creating Context-Aware Software Agents

Chen

Tolia

Sayers

et al. 2003

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Craig Sayers

Remote Control Robotics

An Operator Interface for Teleprogramming Employing Synthetic Fixtures

Teleprogramming for subsea teleoperation using acoustic communication

Remote Control

Creating Context-Aware Software Agents

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