Enterprise integration explained

Enterprise integration is a technical field of enterprise architecture, which is focused on the study of topics such as system interconnection, electronic data interchange, product data exchange and distributed computing environments.[1]

It is a concept in enterprise engineering to provide the relevant information and thereby enable communication between people, machines and computers and their efficient co-operation and co-ordination.[2]

Overview

Requirements and principles deal with determining the business drivers and guiding principles that help in the development of the enterprise architecture. Each functional and non-functional requirement should be traceable to one or more business drivers. Organizations are beginning to become more aware of the need for capturing and managing requirements. Use-case modeling is one of the techniques that is used for doing this. Enterprise Integration, according to Brosey et al. (2001), "aims to connect and combines people, processes, systems, and technologies to ensure that the right people and the right processes have the right information and the right resources at the right time".[3]

Enterprise Integration is focused on optimizing operations in a world which could be considered full of continuous and largely unpredictable change. Changes occur in single manufacturing companies just as well as in an "everchanging set of extended or virtual enterprises". It enables the actors to make "quick and accurate decisions and adaptation of operations to respond to emerging threats and opportunities".[3]

History

In the 1990s enterprise integration and enterprise engineering became a focal point of discussions with active contribution of many disciplines. The state of the art in enterprise engineering and integration by the end of the 1990s has been rather confusing, according to Jim Nell and Kurt Kosanke (1997):

Workflow modelling, business process modelling, business process reengineering (BPR), and concurrent engineering all aim toward identifying and providing the information needed in the enterprise operation. In addition, numerous integrating-platforms concepts are promoted with only marginal or no recognition or support of information identification. Tools claiming to support enterprise modelling exist in very large numbers, but the support is rather marginal, especially if models are to be used by the end user, for instance, in decision support.

Enterprise integration topics

Enterprise modeling

In his 1996 book "Enterprise Modeling and Integration: Principles and Applications" François Vernadat states, that "enterprise modeling is concerned with assessing various aspects of an enterprise in order to better understand, restructure or design enterprise operations. It is the basis of business process reengineering and the first step to achieving enterprise integration. Enterprise integration according to Vernadat is a rapidly developing technical field which has already shown proven solutions for system interconnection, electronic data interchange, product data exchange and distributed computing environments. His book combines these two methodologies and advocates a systematic engineering approach called Enterprise Engineering, for modeling, analysing, designing and implementing integrated enterprise systems".[5]

Enterprise integration needs

With this understanding the different needs in enterprise integration can be identified:[4]

Identification and use of information

Explicit knowledge on information needs during the operation of the enterprise can be provided by a model of the operational processes. A model which identifies the operational tasks, their required information supply and removal needs as well as the point in time of required information transactions. In order to enable consistent modelling of the enterprise operation the modelling process has to be guided and supported by a reference architecture, a methodology and IT based tools.[6]

The Generalised Enterprise Reference Architecture and Methodology (GERAM) framework defined by the IFAC/IFIP Task Force provides the necessary guidance of the modelling process, see figure, and enables semantic unification of the model contents as well. The framework identifies the set of components necessary and helpful for enterprise modelling. The general concepts identified and defined in the reference architecture consist of life cycle, life history, model views among others. These concept help the user to create and maintain the process models of the operation and use them in her/his daily work. The modelling tools will support both model engineering and model use by providing an appropriate methodology and language for guiding the user and model representation, respectively.[6]

Transfer of information

To enable an integrated real time support of the operation, both the process descriptions and the actual information have to be available in real time for decision support, operation monitoring and control, and model maintenance.[6]

The figure illustrates the concept of an integrating infrastructure linking the enterprise model to the real world systems. Integrating services act as a harmonising platform across the heterogeneous system environments (IT and others) and provide the necessary execution support for the model. The process dynamics captured in the enterprise model act as the control flow for model enactment. Therefore, access to information and its transfer to and from the location of use is controlled by the model and supported by the integrating infrastructure. The harmonising characteristics of the integrating infrastructure enables transfer of information across and beyond the organisation. Through the semantic unification of the modelling framework interoperability of enterprise models is assured as well.[6]

Enterprise Integration Act of 2002

The Public Law 107-277 (116 Stat. 1936-1938), known as the Enterprise Integration Act of 2002, authorizes the National Institute of Standards and Technology to work with major manufacturing industries on an initiative of standards development and implementation for electronic enterprise integration, etc. It requires the Director of the National Institute of Standards and Technology (NIST) to establish an initiative for advancing enterprise integration within the United States which shall:[7]

See also

Further reading

External links

Notes and References

  1. [François Vernadat]
  2. http://www.cimosa.de/CoAssoc/NewWebS/Frame1/About_us.htm CIMOSA Association e.V., About us
  3. W. D. Brosey et al. (2001). Grand Challenges of Enterprise Integration
  4. [J.G. Nell]
  5. http://cimosa.cnt.pl/Docs/emi-book.htm Announcing the first textbook on Enterprise Modelling and Integration
  6. NIST (1997) Issues in Enterprise Integration
  7. http://www.glin.gov/view.action?glinID=85531 Enterprise Integration Act of 2002