publication . Doctoral thesis . 2015

A framework for digitisation of manual manufacturing task knowledge using gaming interface technology

Prabhu, Vinayak Ashok;
Open Access English
  • Published: 01 Oct 2015
  • Publisher: Cranfield University
  • Country: United Kingdom
Abstract
Intense market competition and the global skill supply crunch are hurting the manufacturing industry, which is heavily dependent on skilled labour. Companies must look for innovative ways to acquire manufacturing skills from their experts and transfer them to novices and eventually to machines to remain competitive. There is a lack of systematic processes in the manufacturing industry and research for cost-effective capture and transfer of human skills. Therefore, the aim of this research is to develop a framework for digitisation of manual manufacturing task knowledge, a major constituent of which is human skill. The proposed digitisation framework is based on ...
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Doctoral thesis . 2015

1. Prabhu, V. A., Song, B., Thrower, J., Tiwari, A., & Webb, P. (2015). Digitisation of a Moving Assembly Operation using Multiple Depth Imaging Sensors. International Journal of Advanced Manufacturing Technology. (Published)

2. Prabhu, V. A., Tiwari, A., Hutabarat, W., & Turner, C. (2015). Capture, Digitisation and Segmentation of Human-Workpiece Interactions in a Manual Assembly Operation using Kinect. International Journal of Design Engineering. (In press)

3. Prabhu, V. A., Muhandri, N., Song, B., & Tiwari, A. (2015). Decision Support System Enabled by Depth Imaging Sensor Data for Intelligent Automation of Moving Assemblies. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. (Revision under review)

4. Prabhu, V. A., Elkington, M., Crowley, D., Tiwari, A. & Ward, C. (2015). A Framework for Digitisation of Manual Manufacturing Task Knowledge using Gaming Interface Technology. IEEE Transactions on Industrial Informatics. (Under review)

5. Prabhu V. A., Tiwari, A. (2015). Survey of Methods for Digitisation of Human Skills. IEEE Robotics and Automation Magazine. (Under review)

1. Prabhu, V. A., Tiwari, A., Hutabarat, W., & Turner, C. (2014). Monitoring and Digitising Human-Workpiece Interactions during a Manual Manufacturing Assembly Operation Using Kinect. Proceedings of the 5th International Conference on Advanced Design and Manufacture (ADM 2013), 609-612, 25 - 28 September 2013, Valencia, Spain. (Published)

2. Prabhu, V. A., Tiwari, A., Hutabarat, W., Thrower, J., & Turner, C. (2014). Dynamic Alignment Control Using Depth Imagery for Automated Wheel

3. Prabhu, V. A., Oyekan, J., Tiwari, A., Advikolanu, Y., Burgess, M., & McNally, R. (2015). Remote Real-Time Collaboration Platform Enabled by Capture, Digitisation and Transfer of Human-Workpiece Interactions. Proceedings of the Sustainable Design and Manufacturing Conference 2015, 12 - 14 April 2015, Seville, Spain. (Published)

4 HUMAN-WORKPIECE INTERACTION THEORY...................................................................... 59 4.1 BASIC HUMAN-WORKPIECE INTERACTION THEORY ..........................................................................60 4.2 ADVANCEMENT OF THE HWI THEORY ..........................................................................................61 4.2.1 Application of the Rasmussen's S-R-K framework to advance the HWI theory............62 4.2.2 Application of the Rasmussen's Decision Ladder to advance the HWI theory .............65 4.2.3 Application of Gibson's concept of object affordances to advance the HWI theory ....67 4.2.4 Application of HWI theory for human task analysis .....................................................70 4.3 CHAPTER SUMMARY..................................................................................................................71

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