Semantic Trajectory Planning for Industrial Robotics

Zhou Li; Gengming Xie; Varsha Arya; Varsha Arya; Kwok Tai Chui

doi:10.4018/IJSWIS.334556

Semantic Trajectory Planning for Industrial Robotics

Zhou Li, Gengming Xie, Varsha Arya, Varsha Arya, Kwok Tai Chui

Electronic Engineering and Computer Science

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

The implementation of industrial robots across various sectors has ushered in unparalleled advancements in efficiency, productivity, and safety. This paper explores the domain of semantic trajectory planning in the area of industrial robotics. By adeptly merging physical constraints and semantic knowledge of environments, the proposed methodology enables robots to navigate complex surroundings with utmost precision and efficiency. In a landscape marked by dynamic challenges, the research positions semantic trajectory planning as a linchpin in fostering adaptability. It ensures robots interact safely with their surroundings, providing vital object detection and recognition capabilities. The proposed ResNet model exhibits remarkable classification performance, bolstering overall productivity. The study underscores the significance of this approach in addressing real-world industrial applications while emphasizing accuracy, precision, and enhanced productivity.

Original language	English
Pages (from-to)	1-10
Number of pages	10
Journal	International Journal on Semantic Web and Information Systems
Volume	20
Issue number	1
DOIs	https://doi.org/10.4018/IJSWIS.334556
Publication status	Published - 2023

Keywords

Industrial Robotics
Object Detection ResNet Model
Precision and Productivity
Semantic Trajectory Planning

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10.4018/IJSWIS.334556

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abstract = "The implementation of industrial robots across various sectors has ushered in unparalleled advancements in efficiency, productivity, and safety. This paper explores the domain of semantic trajectory planning in the area of industrial robotics. By adeptly merging physical constraints and semantic knowledge of environments, the proposed methodology enables robots to navigate complex surroundings with utmost precision and efficiency. In a landscape marked by dynamic challenges, the research positions semantic trajectory planning as a linchpin in fostering adaptability. It ensures robots interact safely with their surroundings, providing vital object detection and recognition capabilities. The proposed ResNet model exhibits remarkable classification performance, bolstering overall productivity. The study underscores the significance of this approach in addressing real-world industrial applications while emphasizing accuracy, precision, and enhanced productivity.",

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author = "Zhou Li and Gengming Xie and Varsha Arya and Varsha Arya and Chui, {Kwok Tai}",

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AU - Li, Zhou

AU - Xie, Gengming

AU - Arya, Varsha

AU - Chui, Kwok Tai

PY - 2023

Y1 - 2023

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AB - The implementation of industrial robots across various sectors has ushered in unparalleled advancements in efficiency, productivity, and safety. This paper explores the domain of semantic trajectory planning in the area of industrial robotics. By adeptly merging physical constraints and semantic knowledge of environments, the proposed methodology enables robots to navigate complex surroundings with utmost precision and efficiency. In a landscape marked by dynamic challenges, the research positions semantic trajectory planning as a linchpin in fostering adaptability. It ensures robots interact safely with their surroundings, providing vital object detection and recognition capabilities. The proposed ResNet model exhibits remarkable classification performance, bolstering overall productivity. The study underscores the significance of this approach in addressing real-world industrial applications while emphasizing accuracy, precision, and enhanced productivity.

KW - Industrial Robotics

KW - Object Detection ResNet Model

KW - Precision and Productivity

KW - Semantic Trajectory Planning

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Semantic Trajectory Planning for Industrial Robotics

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Keywords

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