J
James Millar Ritchie
Researcher at Heriot-Watt University
Publications - 123
Citations - 1784
James Millar Ritchie is an academic researcher from Heriot-Watt University. The author has contributed to research in topics: Machining & Haptic technology. The author has an hindex of 24, co-authored 123 publications receiving 1554 citations.
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Review: Engineering design using game-enhanced CAD: The potential to augment the user experience with game elements
TL;DR: Fundamental activity of engineering using CAD systems with particular attention on CAD graphical user interfaces (GUIs) and how they can be potentially enhanced using game mechanics to provide more engaging and intuitive environments is reviewed.
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Investigation of microstructured milling tool for deferring tool wear
TL;DR: In this paper, three different microstructure patterns, i.e., horizontal (0°), perpendicular (90°) and sloping at 45° to the cutting edge of the rake face, are generated by focused ion beam on three identical end mill cutters.
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A framework for purchasing transport services in small and medium size enterprises
TL;DR: In this article, a framework for purchasing transport services to enable small and medium size enterprises (SMEs) to improve relationships with logistics service providers (LSPs) and enhance their own competitive advantage and profitability is presented.
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Technology-based reading intervention programs for elementary grades: An analytical review
TL;DR: An extensive and informative review of the current state of the art in reading interventions for elementary grades, between 2000 and 2017 is provided, which identifies the current knowledge gaps and defines future research directions to develop effective reading programs.
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The development of a physics and constraint-based haptic virtual assembly system
Germanico Gonzalez-Badillo,Hugo I. Medellín-Castillo,Theodore Lim,James Millar Ritchie,Samir Garbaya +4 more
TL;DR: The Haptic Assembly and Manufacturing System (HAMS) as mentioned in this paper uses the physics-based modeling (PBM) to perform assembly in virtual environments and dynamic assembly constrains have been considered to reduce the degrees of freedom of virtual objects and enhance the virtual assembly performance.