Autor: Herfried M. Schneider

Special Software Systems for Detailed Production Planning MES or APS Systems

Special Software Systems for Detailed Production Planning MES or APS Systems

Support the Operational Production Planning and Control in Industrial Companies
Ronny-Alexander Koch, Thomas Rücker, Herfried M. Schneider, Sören Stodt
The large number of systems offered on the market makes a well-founded selection process necessary from the requirement survey to the final system selection. A comprehensive model that systematically supports and simplifies this process is the subject of this two-part article. The methodology goes beyond a questionnaire-based query and verifies system capabilities using structured case studies. The first part of the article [1] describes the process steps from the survey and collection of requirements of the customer to the system to their structuring in customer specifications. The present second part outlines the process steps of the system rough selection up to its fine selection. The individual selection steps are methodically supported by practical references as well as by the use of concrete tools. Using the described methodology selected systems can be objectively compared - a prerequisite for effective and efficient system selection for industrial companies.
Industrie 4.0 Management | Volume 34 | 2018 | Edition 4 | Pages 57-61 | DOI 10.30844/I40M_18-4_57-61
Special Software Systems for Detailed Production Planning

Special Software Systems for Detailed Production Planning

MES or APS Systems - Support the Operative Production Planning and Control in Industrial Plants.
Ronny-Alexander Koch, Thomas Rücker, Herfried M. Schneider, Sören Stodt
The large number of systems offered on the market makes a well-founded selection process from requirement collection to final selection necessary. A comprehensive model that systematically supports and simplifies this process is the subject of the following article. The methodo-logy goes beyond a questionnaire-based query and validates system capabilities using structured case studies. The first part of the article describes the process steps from the survey of the requirements of the system to their structuring in customer specifications. The second part of the system selection process is described in detail in the second part of the article.
Industrie 4.0 Management | Volume 34 | 2018 | Edition 3 | Pages 55-58
Supply Concepts in the Supply Industry under Total Cost of Ownership Aspects

Supply Concepts in the Supply Industry under Total Cost of Ownership Aspects

Part 3: Selection of an Optimal Supply Concept
Holm Fischäder, Philipp Halbig, Herfried M. Schneider
In the two previous issues (Industrie 4.0 Management 5/2016 and 6/2016) the features and characteristics of supply concepts, the fundamentals of the Total Cost of Ownership (TCO) concept as well as all supply related logistics processes, referring to specifics of the TCO concept and the ne-cessary and appropriate instruments for the evalu-ation as a basis for the selection of an optimal supply concept were explained. With the third and final part to the structuring of the methodology and an example for the practical application, a holistic view of this topic complex is available for the selection of effective and efficient supply concepts ranging from the theoretical basis to the practical application of the methodology.
Industrie 4.0 Management | Volume 33 | 2017 | Edition 2 | Pages 61-65
Supply Concepts in the Supply Industry

Supply Concepts in the Supply Industry

Part 2: Evaluation of supply-related logistics processes
Holm Fischäder, Philipp Halbig, Herfried M. Schneider
In the previous issue (Industrie 4.0 Management 5/2016) the features and characteristics of supply concepts and the fundamentals of the Total cost of ownership (TCO) concept were explained. The present article addresses all supply related logistics processes and refers to specifics of the TCO concept.
Industrie 4.0 Management | Volume 32 | 2016 | Edition 6 | Pages 42-46
Supply Concepts in the Supply Industry Part 1: Fundamentals

Supply Concepts in the Supply Industry Part 1: Fundamentals

Holm Fischäder, Philipp Halbig, Herfried M. Schneider
The importance of efficient logistics as a key success factor for companies is well known. Efficient logistics processes can help to gain competitive advantage and to secure market positions of companies. The supplier industry is not exempt from this trend taking responsibility of diverse activities for Original Equipment Manufacturers (OEM) in providing ready modules and systems. However, complex supply chains cause high logistics costs. As various supply concepts are possible for parts and materials produced in upstream stages of the supply chain, each of these concepts entail differing costs. The identification of an economically optimal supply concept through comparison and evaluation of alternatives is therefore of strategic importance. The article demonstrates the use of the Total Cost of Ownership (TCO) concept for this purpose.
Industrie 4.0 Management | Volume 32 | 2016 | Edition 5 | Pages 37-42
Supply Chain Event Management in Pro-duction Control

Supply Chain Event Management in Pro-duction Control

an Event-based Approach
Herfried M. Schneider, Thomas Rücker, Daniel Nägelein
Despite increasing networking and electronic data interchange for many companies future demand curves are unstable. Resulting from demand fluctuations and deviations from planned processes, high requirements exist for production planning and control. The necessary flexibility to respond to such variations can be created by supply chain event management (SCEM). Based on the example of an automotive supplier process chain SCEM is defined and then implemented in an Advanced Planning and Scheduling System.
Industrie Management | Volume 31 | 2015 | Edition 5 | Pages 17-21
Business Administration Knowledge Laboratory

Business Administration Knowledge Laboratory

Eine Lehr-, Lern- und Kommunikationsumgebung für die universitäre und betriebliche Aus- und Weiterbildung
Axel Braßler, Christoph Grau, Herfried M. Schneider
The internet-based teaching, learning and communication system “Business Administration Knowledge Laboratory” (WiLabBW) is developed and continuously expanded within a cooperation project of Thuringian universities. The paper gives a survey of the basic goals and explains its architecture and business model.
Industrie Management | Volume 21 | 2005 | Edition 1 | Pages 9-12