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Das Ziel dieser Forschungsarbeit war es, ein Werkzeug zu entwickeln, das einem Unternehmen die Ermittlung des in der Instandhaltung mindestens erforderlichen Personalbedarfs ermöglicht. Zunächst wurden wichtige Einflußgrößen der Ermittlung des Personalbedarfs in der Instandhaltung erhoben und analysiert.Die Einflußgrößen werden gegliedert, quantifiziert und ihre Auswirkungen auf den Instandhaltungsbedarf identifiziert. Als Ergebnis dieses Arbeitsschritts liegt ein quantitatives Modell vor. Anhand dieses Modells wurde ein Simulationsmodell zur Ermittlung des Personalbedarfs in der Instandhaltung entwickelt. Das entwickelte Simulationsmodell wurde mit der objektorientierten Simulationssprache SIMPLE++ umgesetzt
In most European countries a structural change from a production dominated towards a service oriented society is progressing. Companies increasingly consider services as means to gain competitive advantages in a global competition. In order to provide holistic, value-adding solutions while simultaneously guaranteeing high quality standards, production companies increasingly join forces with external services‘ providers. Models, methods and tools for service development are rare and in most cases immature. In the context of virtual services‘ development this leads to a dual set of simultaneous chal-lenges: an alignment of systematic services‘ and product development and the coordination of distributed R&D partners. The objective is to provide a meta-process that identifies all steps and decision points necessary to successfully develop innovative services. It is a result of combined service development and virtual enterprises‘/ networks‘ research.
[Conference paper]High Resolution Supply Chain Management – Enabling adaptable planning processes
(2007)
Increased competition has continuously led to a shift of production locations from high-wage to low-wage countries. To counteract this development the manufacturing of customized goods at the costs of mass production is necessary. This goal can be reached by solving the polylemma of production. High Resolution Supply Chain Management provides an approach to achieve higher planning efficiency and production profitability by increased flexibility and value orientation of inter- and in-company production planning and control systems. High Resolution Supply Chain Management aims for the establishment of information transparency within supply chains which does not exist in today's production networks. This will assure the availability of goods by local, self-optimizing control loops. Prerequisite is the creation of communication interfaces and data standards. By assuring the information flow and defined control loops High Resolution Supply Chain Management leads to an adaptive and self-optimized production system. In the last few years globalization led to a higher stress of competition of producing companies in high-wage countries. Cost advantages in production, like lower wages and social contributions, result in a relocation of production plants from countries as e.g. the United States or Germany to low-wage countries. Besides the lower wages the higher profitability is due to cost-effective mass production through economies of scale. At the same time customers ask for more individualized and lower priced products lined up with the wish of shorter lead times. Thus, companies have to gain the capability to adapt rapidly to customers requests. Short customer response times, high flexibility in production planning and -control (PPC) and manufacturing are necessary. Thereby, one frequently neglected competitive advantage of production locations in high-wage countries is the customer proximity. Industry now realizes this advantage and strengthens its efforts towards individualized production. A competitive advantage for high-wage countries can therefore be gained if individualized products are produced at nearly the costs of mass production. Thus, the resolution of the polylemma of production is underlying condition for saving labor in high-wage countries.
The Aim of this article is to provide a framework which enhances the existing scope of manufacturing asset management by specifically addressing industrial services provided by external suppliers as an integral part of today’s manufacturing structures. Existing research shows that sourcing industrial services from specialized service organizations establishes complex and unique interdependencies and links total production efficiency to the performance of the external service suppliers. Within the context of the EU-Project InCoCo-S - “Innovation, Coordination and Collaboration in Service Driven Manufacturing Supply Chains” a standard business reference model with key focus on operation and integration of business related services (BRS) in the supply chain has been developed. Based on the service type retrofit this paper aims on the one hand to present the modules of the reference model and on the other hand to explain how the model can be used to enhance the retrofit business.
In saturated markets companies have to produce individualized products at low costs. In order to produce the high-variety of products efficiently and to be able to react effectively to order-variations, the production process structures must be most flexible and sustainable. Therefore adaptability of planning processes within the company and the supply chain is a precondition. Moreover an adaptive, decentralized control is necessary, which ensures a synchronized process by a flexible information network across all sub-processes. High Resolution Supply Chain Management aims at designing the production system according to the needs of the company’s supply chain environment.
To reach this goal a consistent research methodology has been elaborated. Based on the Viable System Model (VSM) developed by Stafford Beer current production systems are analyzed preliminary in terms of integrity.
With the gained knowledge a complete recursive model of a Viable Production System is developed. The recursive character of the approach allows identifying independent units within production systems on a detailed level. These units are meant to be self-optimizing control units, whereas the purpose of a unit is to independently optimize its part of the production system or production planning process. The architecture allows modelling a decentralized production system that meets all requirements of a flexible, adaptable production system. Thereupon, research focuses on the development of process and control loops for each of the identified units.
Each unit requires specific input information to be able to achieve a maximum degree of planning accuracy within its boundaries. For the communication of different units a flexible information flow has to be secured. Consequently an additional hierarchical and consistent set of objectives is necessary. Only consistent superior objectives can secure local optimization which yields to something like an overall optimum.
By integrating all results into a complete model of a Viable Production System, the adaptability of planning processes is reached due to the decentralized control of the different units, the consistent set of objectives and flexible information network.
One of the major tasks of operations managers is to boost uptime while simultaneously keeping budget. To meet this challenge they discover reliability-based management as strategic factor to improve performance. But which parameters are the key to “reliability excellence” and drive a company’s performance? What are the relevant levers to pull in reliability-based management?
To answer these questions McKinsey & Company partnered with Aachen University to launch a global reliability survey in process industries. Objective of the initiative is to provide a statistically proven picture of key factors that drive maintenance and reliability excellence. Furthermore benchmarks and best practices concerning overall operational performance will be identified. The study is based on a questionnaire-based approach which addresses all relevant departments within a company, complemented by best practice analyses.
This paper provides results of the survey. The results demonstrate that reliability pays off. Some unproven beliefs have been confirmed (e.g. a good reliability performance results in a low spare part inventory) but also surprises like a correlation between safety and performance were identified. The analysis also shows that structural differences like company size or geography do not influence reliability performance.
Supply Chain Management delivers a considerable amount of ideas and methods to design the value stream. Each of these concepts may lead to significant cost reduction and higher service levels. But the same concept does not work for different customers and their diverse needs. Thus, a “one size fits it all” supply chain cannot lead to success. The key to overcome this obstacle is the hybrid supply chain. This paper outlines the application of hybrid system theory to supply chains. After a comprehensive overview of existing methods for the design of supply chains is given, a methodology for a customer-to-customer oriented supply chain design is presented. This approach adopts the hybrid system theory to supply chains which is in a nutshell that hybrid systems use the advantages of its subsystems to reach a superior result to one system alone. Concluding a case study illustrates the application of the methodology.
Viable Production System for adaptable and flexible production planning and control processes
(2009)
High Resolution Supply Chain Management (HRSCM) aims at designing adaptable and flexible production planning and control (PPC) processes according to the needs of the company’s supply chain environment. To reach this goal a model for a Viable Production System (VPS) has been elaborated and is presented in this paper. Based on the Viable System Model (VSM) developed by Stafford Beer current production systems are analyzed in terms of integrity. With the gained knowledge a complete recursive framework of a VPS is developed. The framework allows the design of a decentralized production system that meets all requirements of a dynamic environment. Flexible and adaptable PPC processes can be developed for each identified subsystem of the VPS. Hence, further research focuses on the development of process and control loops in order to assure the application of the framework. Exemplarily the decentralised control loop for inventory management is elaborated in a case study.
In the near future, tooling companies will offer their customers not just maintenance services, but complex remote service packages for their engineering asset management, which is the total management of physical – not financial – assets. The overall goal is to enhance the efficiency of the engineering asset, e.g. to reduce TCO, on the customers´ site by means of value creating partnerships. These partnerships may be, e.g. the classical output or reliability partnership, but also process optimizing partnerships or lifecycle partnerships. The process optimizing partnership offers, e.g. the optimization of the system’s performance or the output quality, an optimized ramp-up and restart procedure or optimization of the production process parameters. The lifecycle partnership, on the other hand, accompanies the intelligent tool-machine-system throughout the whole lifecycle, which includes, e.g. provision of spare parts during the entire usage phase, storing, refurbishment, recycling and even the support of relocation of production facilities. Intelligent remote services have great potential for realizing all these partnerships.
To realize such engineering asset-related partnerships, two major tasks have to be done. First, there has to be the intelligent tool-machine system, which delivers the information that is required for these services. And furthermore, this information has to be integrated into the maintenance processes, so that it is delivered at the right place and time and in the required form. Second, the activities and processes that are combined to the engineering asset-related partnerships have to be configured out of standardized service and process modules. Therefore configuration logic is essential.
The House of Maintenance
(2009)
In order to guarantee an efficient and effective employment of production equipment, it is essential to identify any possible potential for improving performance, not only in the production process, but also in supporting areas such as maintenance. One of the major tasks in increasing maintenance performance consists of systematically identifying the company’s most significant weaknesses in maintenance organisation and thus being able to implement improvements there where they are most needed.
But how is a company to tackle this important task? To answer this question, this paper describes an assessment and improvement approach, based on a capability maturity model (CMM). By means of this approach, the status-quo of a maintenance organisation can be analysed and its individual improvement opportunities identified.