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Article citations


Abu Bakar, N. and Juri, A.H. (2008) Recognition of Cylindrical Based Features Using Edge Boundary Technique for Integrated Manufacturing. Robotics and Computer Integrated Manufacturing, 10, 41-62.

has been cited by the following article:

  • TITLE: An Integrated Geometric Modeling Methodology for 2.5D Cylindrical Prismatic Part for Computer Aided Process Planning

    AUTHORS: Viswa Mohan Pedagopu, Manish Kumar

    KEYWORDS: Modeling, Feature, Computer Aided Manufacturing, Design, Prismatic Part

    JOURNAL NAME: Intelligent Control and Automation, Vol.5 No.4, October 15, 2014

    ABSTRACT: The field of solid modeling has created numerous techniques for unambiguous computer representations of three-dimensional objects. Its data structures and algorithms have been used in a broad range of applications: Computer-Aided Design and Computer-Aided Manufacturing (CAD/ CAM), robotics, computer vision, computer graphics and visualization, virtual reality, etc. This research paper is used to generate process plan from feature-based modeling, based on an integrated geometric modeling system that supports both feature-based modeling and information storage. Present system is developed only for milling components and limited to selective machining features for prismatic components and further implemented for more machining features to develop algorithms for modeling the components through the input of machining features. As a result, feature information is directly available to downstream activities, and feature extraction is no longer needed. The various systematic steps involved in this approach are study of Design, identification of Features, selection of Processes, Tools and Machines, Machining and Inspection [DFPTMMI]. Machining features generated in the design stage are recognized and stored under the Visual Basic control of CATIA software ActiveX interface. Algorithms are developed for individual features and these algorithms are embedded in Visual Basic forms. This system is discussed and suited for 2.5 Dimensional part approach, however, that can be extended to 3 dimensional prismatic part and complex features machining. Finally a process planning chart has been presented as a model process planning.