Abstract
The High-Tech Strategy which was developed by the German Federal Government in 2011 including the future project Industry 4.0 was initiated to promote informatization of manufacturing technology and to pave the way for intelligent production and thus intelligent factories. The goal of Industry 4.0 is to ensure the future viability of the German manufacturing economy through digitization, so that this economy plays a leading role in the international environment in the future [1].
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Federal Ministry of Education and Research: Project of the Future: Industry 4.0 (2015), http://www.bmbf.de/en/19955.php
Arbeitskreis Smart Service Welt: Smart Service Welt, Berlin (2014)
Acatech: Cyber-Physical Systems, München, Berlin (2011)
Geisberger, E., Broy, M.: Integrierte Forschungsagenda Cyber-Physical Systems, Berlin (2012)
Heuser, L., Wahlster, W.: Internet der Dienste, Berlin (2011)
Communication Promoters Group of the Industry-Science Research Alliance: Recommendations for implementing the strategic initiative INDUSTRIE 4.0, Berlin (2013)
Taisch, M., Majumdar, A.: ICT for Manufacturing, Milan, Dresden (2013)
Güntner, G., Eckhoff, R., Markus, M.: Instandhaltung 4.0, o.O (2014)
European Committee for Standardization: EN 13306:2010 - Maintenance - Maintenance terminology, Berlin (2010)
Mustakerov, I., Borissova, D.: An intelligent approach to optimal predictive maintenance strategy defining. In: Proceedings 2013 IEEE International Symposium (2013)
Isermann, R.: Fault-Diagnosis Systems, Berlin, Heidelberg (2006)
Weiss, H.: Predictive Maintenance (2012), http://www.ingenieur.de/Themen/Forschung/Predictive-Maintenance-Vorhersagemodelle-krempeln-Wartung-um
N.N.: Condition Based Maintenance (2015), http://www.maintenanceassistant.com/condition-based-maintenance/
Bengtsson, M., Olsson, E., Funk, P., Jackson, M.: Technical Design of Condition Based Maintenance System. In: Proceedings 8th Conference of Maintenance and Reliability, Marcon, pp. 95–106 (2004)
Petticrew, M., Roberts, H.: Systematic Reviews in the Social Science, Malden, Oxford, Victoria (2006)
Peine, K.: Situative Gestaltung des IT-Produktmanagements, Lohmar, Köln (2014)
Rowley, J., Slack, F.: Conducting a literature review. Management Research News 27(6), 31–39 (2004)
Kitchenham, B., Charters, S.: Guidelines for performing Systematic Literature Reviews in Software Engineering (2007)
Vom Brocke, J., Simons, A., Niehaves, B., Riemer, K., Plattfaut, R., Cleven, A.: Reconstructing the giant: on the importance of rigour in documenting the literature search process, Verona (2009)
Andree, U.: Wirtschaftlichkeitsanalyse öffentlicher Investitionsprojekte, Freiburg (2011)
Kruschwitz, L.: Investitionsrechnung, Berlin (2014)
Verein Deutscher Ingenieure: VDI 3780 - Technology Assessment Concepts and Foundations, Berlin (2000)
Badri, M.A., Davis, D., Davis, D.: A comprehensive 0–1 goal programming model for project selection. Journal of Project Management 19(4), 243–252 (2001)
Karat, C.-M.: A Business Case Approach to Usability Cost Justification for the Web (2005)
Taudes, A., Feurstein, M., Mild, A.: Options Analysis of Software Platform Decisions: A Case Study. MIS Quarterly 24(2), 227–243 (2000)
Ioannou, G., Sullivan, W.G.: Use of activity-based costing and economic value analysis for the justification of capital investments in automated material handling systems (2010)
Röthing, P.: Empfehlung zur Durchführung von Wirtschaftlichkeitsbetrachtungen in der Bundesverwaltung, insbesondere beim Einsatz der IT, Berlin (2007)
Wolf, P., Krcmar, H.: Prozessorientierte Wirtschaftlichkeitsuntersuchung für E-Government Wirtschaftsinformatik 47(5), 337–346 (2005)
Bernroider, E., Koch, S.: Entscheidungsfindung bei der Auswahl betriebswirtschaftlicher Standardsoftware. Wirtschaftsinformatik 42(4), 329–339 (2000)
Kohonen, T.: CAD-Handbuch. Auswahl und Einführung von CAD-Systemen, Berlin, Heidelberg, New York, Tokyo (1984)
Kazman, R., Asundi, J., Klein, M.: Quantifying the costs and benefits of architectural decisions. In: Proceedings 23rd International Conference on Software, May 12-19, pp. 297–306 (2001)
Soares, J.O., Fernandes, A.V.: Economic evaluation of software projects - A systematic approach. Computers & Industrial Engineering 37(1-2), 169–172 (1999)
Lee, T., Baik, D., In, H.P.: Cost Benefit Analysis of Personal Software Process Training Program (2008)
Harmsen, F., Brinkkemper, S., Oei, H.: Situational Method Engineering for Information System Project Approaches, In: Verrijn, Olle (hg.) 1994 – Methods and Associated Tools, pp. 169–194 (1994)
Brinkkemper, S., Lyytinen, K., Welke, R.J.: Method Engineering, London, New York (1996)
Mayer, R.J., Crump, J.W., Fernandes, R., Keen, A., Painter, M.K.: Information Integration for Concurrent Engineering (IICE) Compendum of Methods Report, Ohio (1995)
Ralyté, J., Mirbel, I., Deneckère, R.: Engineering Methods in the Service-Oriented Context, Heidelberg (2011)
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer International Publishing Switzerland
About this paper
Cite this paper
Tauterat, T. (2015). Development of a Method for the Economic Evaluation of Predictive Maintenance. In: Fernandes, J., Machado, R., Wnuk, K. (eds) Software Business. ICSOB 2015. Lecture Notes in Business Information Processing, vol 210. Springer, Cham. https://doi.org/10.1007/978-3-319-19593-3_16
Download citation
DOI: https://doi.org/10.1007/978-3-319-19593-3_16
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-19592-6
Online ISBN: 978-3-319-19593-3
eBook Packages: Computer ScienceComputer Science (R0)