Lesson of Industrial Engineering ONLINE Course.
Computers & Industrial Engineering
Volume 2, Issue 1, 1978, Pages 1-6
Abstract
Industrial engineering techniques can increase productivity in computer center operations and user activities by as much as 50–100%.
https://www.sciencedirect.com/science/article/abs/pii/0360835278900025
The lean model of industrial engineering that focused on reducing inventory through solving issues that give rise to delays in job processing was implemented in software development from 1990s.
Peter Middleton, James Sutton
CRC Press, 06-Mar-2020 (Original 2005 - now eEdition) - Business & Economics - 464 pages
Lean production, which has radically benefited traditional manufacturing, can greatly improve the software industry with similar methods and results. This transformation is possible because the same overarching principles that apply in other industries work equally well in software development. The software industry follows the same industrial concepts of production as those applied in manufacturing; however, the software industry perceives itself as being fundamentally different and has largely ignored what other industries have gained through the application of lean techniques.
https://books.google.co.in/books?id=HFDVDwAAQBAJ
Bibliography
Biblography
Fagan, M.E. 1976. Design and code inspections to reduce errors in program development, IBM Systems J. 15(3): 182-211.
Boehm, B. 1981. Software Engineering Economics, Englewood Cliffs, New York, Prentice-Hall.
Schonberger, R.J. 1986. World Class Manufacturing, New York, The Free Press.
Gilb, T. 1988. Principles of Software Engineering Management, Wokingham, England, Addison-Wesley.
Ohno, T. 1988. Toyota Production System: Beyond Large-Scale Production, Cambridge, MA Productivity Press.
Schulmeyer, G. 1990. Zero Defect Software, New York, McGraw-Hill.
Womack, J.P., Jones D.T., and Ross, D. 1990. The Machine that Changed the World, New York, Rawson Associates.
Paulk, M.C., Curtis, B., Chrissis, M.B., and Weber, C.V. 1993. Capability maturity model, version 1.1, IEEE Software 10(4): 18-27.
Gilb, T. and Graham, D. 1993. Software Inspection, Wokingham, England, Addison-Wesley.
Tierney, J. 1993. Eradicating mistakes from your software process through Poka Yoke, Proc. 6th Inte. Software Quality Week, Software Research Institute, San Francisco, CA, May, pp. 300-307.
Hou, A.C. 1995. Toward Lean Hardware/Software System Development: Evaluation of Selected Complex Electronic System Development Methodologies, Report—Lean 95-01, Lean Aircraft Initiative, Center for Technology, Policy and Industrial Development, Massachusetts Institute of Technology. http://lean.mit.edu/public/index.html.
Sutton, J.M. 1996. Lean software for lean aircraft, 15th Digital Avionics Systems Conference, New York, IEEE, pp. 49-54.
Morgan, T. 1998. Lean Manufacturing Techniques Applied to Software Development, MSc Thesis, Massachusetts Institute of Technology.
Raman, S. 1998. Lean software development: Is it feasible? 17th Digital Avionics Systems Conf., New York, IEEE, pp. 13-18.
Robinson, A.G. and Stern, S. 1998. Corporate Creativity: How Innovation and Improvement Actually Happen, San Francisco, CA, Berrett-Koehler.
Hamilton, T. 1999. A Lean Software Engineering System for the Department of Defense, Massachusetts Institute of Technology, MSc Thesis.
Womack, J.P. and Jones, D.T. 1997. Lean Thinking, London, Touchstone Books.
Womack, J.P. and Jones, D.T. 1994. From lean production to the lean enterprise, Harvard Business Rev. 72(2): 93-103.
Industrial Engineering and Information Systems
Larry E.LongComputers & Industrial Engineering
Volume 2, Issue 1, 1978, Pages 1-6
Abstract
Industrial engineering techniques can increase productivity in computer center operations and user activities by as much as 50–100%.
https://www.sciencedirect.com/science/article/abs/pii/0360835278900025
The lean model of industrial engineering that focused on reducing inventory through solving issues that give rise to delays in job processing was implemented in software development from 1990s.
Lean Software Strategies: Proven Techniques for Managers and Developers
Peter Middleton, James Sutton
CRC Press, 06-Mar-2020 (Original 2005 - now eEdition) - Business & Economics - 464 pages
Lean production, which has radically benefited traditional manufacturing, can greatly improve the software industry with similar methods and results. This transformation is possible because the same overarching principles that apply in other industries work equally well in software development. The software industry follows the same industrial concepts of production as those applied in manufacturing; however, the software industry perceives itself as being fundamentally different and has largely ignored what other industries have gained through the application of lean techniques.
https://books.google.co.in/books?id=HFDVDwAAQBAJ
Bibliography
Biblography
Fagan, M.E. 1976. Design and code inspections to reduce errors in program development, IBM Systems J. 15(3): 182-211.
Boehm, B. 1981. Software Engineering Economics, Englewood Cliffs, New York, Prentice-Hall.
Schonberger, R.J. 1986. World Class Manufacturing, New York, The Free Press.
Gilb, T. 1988. Principles of Software Engineering Management, Wokingham, England, Addison-Wesley.
Ohno, T. 1988. Toyota Production System: Beyond Large-Scale Production, Cambridge, MA Productivity Press.
Schulmeyer, G. 1990. Zero Defect Software, New York, McGraw-Hill.
Womack, J.P., Jones D.T., and Ross, D. 1990. The Machine that Changed the World, New York, Rawson Associates.
Paulk, M.C., Curtis, B., Chrissis, M.B., and Weber, C.V. 1993. Capability maturity model, version 1.1, IEEE Software 10(4): 18-27.
Gilb, T. and Graham, D. 1993. Software Inspection, Wokingham, England, Addison-Wesley.
Tierney, J. 1993. Eradicating mistakes from your software process through Poka Yoke, Proc. 6th Inte. Software Quality Week, Software Research Institute, San Francisco, CA, May, pp. 300-307.
Hou, A.C. 1995. Toward Lean Hardware/Software System Development: Evaluation of Selected Complex Electronic System Development Methodologies, Report—Lean 95-01, Lean Aircraft Initiative, Center for Technology, Policy and Industrial Development, Massachusetts Institute of Technology. http://lean.mit.edu/public/index.html.
Sutton, J.M. 1996. Lean software for lean aircraft, 15th Digital Avionics Systems Conference, New York, IEEE, pp. 49-54.
Morgan, T. 1998. Lean Manufacturing Techniques Applied to Software Development, MSc Thesis, Massachusetts Institute of Technology.
Raman, S. 1998. Lean software development: Is it feasible? 17th Digital Avionics Systems Conf., New York, IEEE, pp. 13-18.
Robinson, A.G. and Stern, S. 1998. Corporate Creativity: How Innovation and Improvement Actually Happen, San Francisco, CA, Berrett-Koehler.
Hamilton, T. 1999. A Lean Software Engineering System for the Department of Defense, Massachusetts Institute of Technology, MSc Thesis.
Womack, J.P. and Jones, D.T. 1997. Lean Thinking, London, Touchstone Books.
Womack, J.P. and Jones, D.T. 1994. From lean production to the lean enterprise, Harvard Business Rev. 72(2): 93-103.
No comments:
Post a Comment