P L Teoh scite author profile

Fettling is the process of removing excess material from castings. This excess material is often formed at the die’s parting lines during the casting process as molten material is injected into the die at high pressure. By using a robot as a positioning tool for the fettling operation, the process can be carried out safely and with consistent results. This paper proposes a computer‐assisted robotic fettling technique using visual feedback. In particular, emphasis is placed on the establishment of a technique and investigating its performance for the determination of the casting profile. Also examines the process parameters associated with high‐speed fettling operations. Further, the experimental set‐up employed and the results obtained are also presented.

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Dual-position sensitive diode-based orientation measurement in laser-interferometry-based sensing and measurement technique

Shirinzadeh

Teoh

2001

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A strategy for accurate guidance of a manipulator using laser interferometry‐based sensing technique

Shirinzadeh

Teoh²,

Foong³

et al. 1999

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Laser interferometry‐based sensing (LIS) technique has been proposed and established recently to track and perform dynamic measurements on a moving end‐effector of a robot manipulator. In this paper, a technique using LIS system to perform guidance of a manipulator is proposed. The LIS system is used as a sensor to guide the end‐effector of a robot manipulator. This is to be accomplished through the implementation of guidance error determination and compensation, and path generation in the control algorithm. This technique can be used to accurately guide the manipulator’s end‐effector to a specified location or along a specified path with a high level of accuracy. The structure and various components within the system and the control strategy are also presented.

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P L Teoh

Laser interferometry-based guidance methodology for high precision positioning of mechanisms and robots

The measurement uncertainties in the laser interferometry-based sensing and tracking technique

Robotic fettling and automated path acquisition

Dual-position sensitive diode-based orientation measurement in laser-interferometry-based sensing and measurement technique

A strategy for accurate guidance of a manipulator using laser interferometry‐based sensing technique

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