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{{Short description|Activity of representing processes of an enterprise}}[[File:BPMN-AProcessWithNormalFlow.svg|alt=|thumb|400x400px|Example of business process modeling of a process with a normal flow with the [[Business Process Model and Notation]]]]
'''Business process modeling''' ('''BPM'''), mainly used in [[business process management]]; [[software development]] or [[systems engineering]], is the action of capturing and
▲'''Business process modeling''' ('''BPM'''), mainly used in [[business process management]]; [[software development]] or [[systems engineering]], is the action of capturing and [[#Representation type and notation|representing]] [[business processes|processes]] of an enterprise (i.e. [[modeling]] them), so that the current business processes may be analyzed, applied securely and consistently, improved, and automated. BPM is typically performed by business analysts, who provide expertise in the modeling discipline; by subject matter experts, who have specialized knowledge of the processes being modeled; or more commonly by a team comprising both. Alternatively, the process model can be derived directly from digital traces in IT systems (such as events' logs) using [[process mining]] tools.
== Overview ==
[[File:Fife-Disciplines-Of-The-BPM.png|thumb|The five disciplines of business process management and their relationships]]
According to the
*
*
*
*
*
However, a completely separate consideration of the disciplines is not possible: ''Business process modeling'' always requires a ''business process analysis'' for modeling the as-is processes (see section [[#Analysis of business activities|Analysis of business activities]]) or specifications from ''process design'' for modeling the to-be processes (see sections [[#Business process re-engineering (BPR)|Business process reengineering]] and [[#Business process optimization|Business process optimization]]).
The focus of business process modeling is on the [[#Representation type and notation|representation]] of the flow of [[Action (philosophy)|actions (activities)]], according to
But also other [[Quality (philosophy)|qualities]] (facts) such as [[data]] and [[business object]]s (as [[Input output|inputs]] /
The more of these characteristics are incorporated into the business process modeling, the better the abstraction of the business process models reflects reality - and the more complex the business process models become. «To reduce complexity and improve the comprehensibility and transparency of the models, the use of a view concept is recommended.»<ref name="GADATSCH">Andreas Gadatsch: ''Management von Geschäftsprozessen / Methoden und Werkzeuge für die IT-Praxis: Eine Einführung für Studenten und Praktiker'', 2nd revised and expanded edition, Vieweg, Braunschweig/Wiesbaden 2002, ISBN 978-3-528-15759-3</ref><sup>(Chapter 2.4 Views of process modeling) ← automatic translation from German</sup> There is also a brief comparison of the view concepts of five relevant German-speaking schools of [[business informatics]]: 1)
The term ''
According to
Business process modeling is also a central aspect of holistic
[[File:Core_process_(quality_management).gif|thumb|Typical breakdown of a '''process map''' into management, core and support processes]]
According to the
*
*
*
These three process types can be identified in every company and are used in practice almost without exception as the top level for structuring business process models.<ref>Knowledge database: [https://der-prozessmanager.de/aktuell/wissensdatenbank/prozesslandkarte ''In 6 einfachen Schritten zur Prozesslandkarte''], DER PROZESSMANAGER GmbH (last accessed: January 25, 2024)</ref> Instead the term ''leadership processes'' the term ''[[management process]]es'' is typically used. Instead of the term ''execution processes'' the term ''[[Business processes|core process]]es'' has become widely accepted.<ref name="SCHMELZER"/> <sup>(Chapter 6.2.1 Objectives and concept) ← automatic translation from German,</sup> <ref name="BECKER-KAHN">Jörg Becker and Dieter Kahn: ''Der Prozess im Fokus'' in Jörg Becker, Martin Kugler and Michael Rosemamm (publisher): ''Prozessmanagement: Ein Leitfaden zur prozessorientierten Organisationsgestaltung'', 2nd corrected and expanded edition, Springer, Berlin/Heidelberg/New York 2002, ISBN 3-540-00107-7</ref> <sup>(Chapter 1.3 The concept of process) ← automatic translation from German,</sup> <ref name="BECKER-MEISE">Jörg Becker and Volker Meise: ''Strategie und Organisationsrahmen'' in Jörg Becker, Martin Kugler and Michael Rosemamm (publisher): ''Prozessmanagement: Ein Leitfaden zur prozessorientierten Organisationsgestaltung'', 2nd corrected and expanded edition, Springer, Berlin/Heidelberg/New York 2002, ISBN 3-540-00107-7</ref> <sup>(Chapter 4.12.2 Differentiation between core and support objectives) ← automatic translation from German,</sup> <ref name="SPECK-SCHNETT">Mario Speck and Norbert Schnetgöke: ''Sollmodellierung und Prozessoptimierung'' in Jörg Becker, Martin Kugler and Michael Rosemamm (publisher): ''Prozessmanagement: Ein Leitfaden zur prozessorientierten Organisationsgestaltung'', 2nd corrected and expanded edition, Springer, Berlin/Heidelberg/New York 2002, ISBN 3-540-00107-7</ref> <sup>(Chapter 6.2.2 Identification and rough draft) ← automatic translation from German</sup>
If the ''
== History ==
Techniques to model business process such as the [[flow chart]], [[functional flow block diagram]], [[control flow diagram]], [[Gantt chart]], [[PERT]] diagram, and [[IDEF]] have emerged since the beginning of the 20th century. The Gantt charts were among the first to arrive around 1899, the flow charts in the 1920s, Functional Flow Block Diagram and PERT in the 1950s, Data Flow Diagrams and IDEF in the 1970s. Among the modern methods are [[Unified Modeling Language]] and [[Business Process Model and Notation]]. Still, these represent just a fraction of the methodologies used over the years to document business processes.<ref name="TD03">Thomas Dufresne & James Martin (2003). [https://web.archive.org/web/20061220024049/http://mason.gmu.edu/~tdufresn/paper.doc "Process Modeling for E-Business"]. INFS 770 Methods for Information Systems Engineering: Knowledge Management and E-Business. Spring 2003 {{dead link|date=October 2010}}</ref> The term 'business process modeling' was coined in the 1960s in the field of [[systems engineering]] by S. Williams in his 1967 article 'Business Process Modelling Improves Administrative Control'.<ref>Williams, S. (1967) "Business Process Modeling Improves Administrative Control," In: ''Automation''. December, 1967, pp. 44 - 50.</ref> His idea was that techniques for obtaining a better understanding of physical control systems could be used in a similar way for [[business process]]es. It was not until the 1990s that the term became popular.
In the 1990s the term '[[business process|process]]' became a new productivity paradigm.<ref name="Rol95">Asbjørn Rolstadås (1995). "Business process modeling and re-engineering". in: ''Performance Management: A Business Process Benchmarking Approach''. p. 148-150.</ref> Companies were encouraged to think in ''processes'' instead of ''functions'' and ''procedures''. Process thinking looks at the chain of events in the company from purchase to supply, from order retrieval to sales, etc. The traditional modeling tools were developed to illustrate time and cost, while modern tools focus on cross-functional activities. These cross-functional activities have increased significantly in number and importance, due to the growth of complexity and dependence. New methodologies include [[business process redesign]], business process innovation,
In the field of [[software engineering]], the term 'business process modeling' opposed the common [[software process]] modeling, aiming to focus more on the state of the practice during [[software development]].<ref>Brian C. Warboys (1994). ''Software Process Technology: Third European Workshop EWSPT'94'', Villard de Lans, France, February 7–9, 1994: Proceedings. p. 252.</ref> In that time (the early 1990s) all existing and new modeling techniques to illustrate business processes were consolidated as 'business process [[modeling language]]s'{{Citation needed|date = April 2014}}. In the [[Object Oriented]] approach, it was considered to be an essential step in the specification of business application systems. Business process modeling became the base of new methodologies, for instance, those that supported [[data collection]], data flow analysis, process flow diagrams, and reporting facilities. Around 1995, the first visually oriented tools for business process modeling and implementation were being presented.
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[[File:Influencing-factors-on-the-business-process-model.png|thumb|Influencing factors on the business process model]]
The objective of business process modelling is a - usually graphical -
Business process modeling typically begins with determining the environmental requirements: First, the [[goal]] of the modeling ([[#Applications of business process modeling|applications of business process modeling]]) must be determined. Business process models are now often used in a multifunctional way (see above). Second the model addressees must be determined, as the properties of the model to be created must meet their requirements. This is followed by the determination of the business processes to be modeled.
The qualities of the business process that are to be
In detail, the objectives of business process modeling can include (compare: Association of Business Process Management Professionals (ABPMP)<ref name="EABPM"/> <sup>(Chapter 3.1.2 Process characteristics and properties) ← automatic translation from German</sup>):
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** to avoid loss of knowledge (e.g. due to staff leaving)
** to support quality and environmental management
* definition of process
** to increase process speed
** to reduce cycle time
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* [[Knowledge management]] with the «aim of increasing transparency about the company's knowledge resource in order to improve the process of identifying, acquiring, utilizing, developing and distributing knowledge»<ref name="ROSEMANN" /> <sup>(Chapter 3.2.1 Relevant perspectives on process models) ← automatic translation from German</sup>
* ''Selection'' of [[Enterprise resource planning|ERP]] software, which «often documents its functionality in the form of (software-specific) reference models, so that it makes sense to also use a comparison of the company-specific process models with these software-specific models for software selection»<ref name="ROSEMANN" /> <sup>(Chapter 3.2.1 Relevant perspectives on process models) ← automatic translation from German, </sup><<ref name="GADATSCH"/> <sup>(Chapter 2.5.4 Areas of application for process modeling in practice) ← automatic translation from German</sup>
* Model-based ''customization'', i.e. «the configuration of
*
*
*
=== Business process re-engineering (BPR) ===
Within an extensive research program initiated in 1984 titled "Management in the 1990s" at [[Massachusetts Institute of Technology|MIT]], the approach of ''process re-engineering'' emerged in the early 1990s. The research program was designed to explore the impact of information technology on the way organizations would be able to survive and thrive in the competitive environment of the 1990s and beyond. In the final report, N. Venkat Venkatraman<ref>N. Venkat Venkatraman: ''IT-Induced Business Reconfiguration'' in M. S. Scott Morton (publisher): ''The Corporation of the 1990s: Information Technology and Organizational Transformation'', 1st edition, Oxford University Press 1991, ISBN 978-0-19-506358-5</ref> summarizes the result as follows: The greatest increases in productivity can be achieved when new processes are planned in parallel with information technologies.
This approach was taken up by [[Thomas H. Davenport]]<ref name="DAVENPORT">[[Thomas H. Davenport]]: ''Process Innovation: Reengineering Work through Information Technology'', Harvard Business Press, Boston 1993, ISBN 978-0-87584-366-7</ref> <sup>(Part I: A Framework For Process Innovation, Chapter: Introduction)</sup> as well as [[Michael Martin Hammer|Michael M. Hammer]] and [[James A. Champy]]<ref name="HAMMER-CHAMPY">[[Michael Martin Hammer|Michael M. Hammer]], [[James A. Champy]]: ''Reengineering the Corporation: A Manifesto for Business Revolution'', Harper Business, New York 1993, ISBN 978-0-88730-640-2</ref> and developed it into
Business process re-engineering has been criticized in part for starting from a "green field" and therefore not being directly implementable for established companies. ''Hermann J. Schmelzer and Wolfgang Sesselmann'' assess this as follows: «The criticism of BPR has an academic character in many respects. … Some of the points of criticism raised are justified from a practical perspective. This includes pointing out that an overly radical approach carries the risk of failure. It is particularly problematic if the organization and employees are not adequately prepared for BPR.»<ref name="SCHMELZER" /> <sup>(Chapter 6.2.1 Objectives and concept) ← automatic translation from German</sup>
The high-level approach to BPR according to
# Identifying Process for Innovation
# Identifying Change Levers
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=== Certification of the management system according to ISO ===
[[File:ISO_Logo_(Red_square).svg|thumb|International Organization for Standardization (''ISO'' and official logo are registered trademarks)]]
With
==== General standard requirements for management systems with regard to processes ====
In the
{| class="wikitable"
! ISO/IEC 9001:2015
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Each of these standards requires the organization to establish, implement, maintain and continually improve an appropriate management system «including the processes needed and their interactions».<ref name="ISO-9001">ISO 9001:2015: ''Quality management systems - Requirements'', Fifth edition 2015-09, [https://www.iso.org/standard/62085.html ISO, the International Organization for Standardization] 2015</ref><sup>, </sup><ref>ISO 14001:2015: ''Environmental management systems - Requirements with guidance for use'', Third edition 2015-09, [https://www.iso.org/standard/60857.html ISO, the International Organization for Standardization] 2015</ref><sup>, </sup><ref>ISO 27001:2022: ''Information security, cybersecurity and privacy protection Information security management systems - Requirements'', Third edition 2022-10, [https://www.iso.org/standard/27001 ISO, the International Organization for Standardization] 2022</ref>
In the definition of the standard requirements for the ''processes needed and their interactions'',
* determine the inputs required and the outputs expected
* determine the sequence and interaction
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* evaluate these processes and implement any changes needed for effective operation and control
* improve
In addition, clause 4.4.2 of the
detailed requirements with regard to processes:
* maintain documented information
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==== Specific standard requirements for management systems with regard to documented information ====
In the standards
The standard requirements of ISO/IEC 9001 used here as an example ''include'' in clause "7.5.1. General"
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=== Business process optimization ===
For the '''total cycle time (TCT)''', ''Hermann J. Schmelzer and Wolfgang Sesselmann'' list the following key features:<ref name="SCHMELZER"/> <sup>(Chapter 6.3.2 Total Cycle Time (TCT)) ← automatic translation from German</sup>
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Consequently, business process modeling for TCT must support adequate documentation of barriers, barrier handling and measurement.
Looking at the
=== Inter-company business process modeling ===
The aim of inter-company business process modeling is to include the influences of external [[Stakeholder (corporate)|stakeholders]] in the analysis or to achieve inter-company comparability of business processes, e.g. to enable
''Martin Kugler'' lists the following requirements for business process modeling in this context:<ref name="KUGLER">Martin Kugler: ''Supply Chain Management und Customer Relationship Management - Prozessmodellierung für Extended Enterprises'' in Jörg Becker, Martin Kugler and Michael Rosemamm (publisher): ''Prozessmanagement: Ein Leitfaden zur prozessorientierten Organisationsgestaltung'', 2. corrected and expanded edition, Springer, Berlin/Heidelberg/New York 2002, ISBN 3-540-00107-7</ref> <sup>(Chapter 14.2.1 Requirements for inter-company business process modeling) ← automatic translation from German</sup>
* Employees from different companies must understand the business process models, which is why the degree of familiarity with the
* Acceptance of business process modeling increases with the simplicity of the representation; it must be clear, easy to understand and as self-explanatory as possible.
* The presentation of inter-company business process models must be standardized in the various companies in order to achieve consistent comprehensibility and acceptance, especially since different representations are used within the various companies.
* An industry-neutral modelling technique (
== Topics ==
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==== Define framework conditions ====
The analysis of business activities determines and defines the framework conditions for successful business process modeling. This is where the company should start,
* define the relevant ''
* derive the ''strategy for the long-term success of business process modeling'' from the [[business strategy]] and
develop an approach for structuring the business process models. Both the relevant ''purposes'' and the ''strategy'' directly influence the [[process map]].
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==== Identify business processes ====
Afterwards a company's
The ''European Association of Business Process Management EABPM'' states: «As a first step in process design or reengineering, a common understanding of the current process and its alignment with the objectives should be established.»<ref name="EABPM" /> <sup>(Chapter 4 Process analysis) ← automatic translation from German</sup>
The effort involved in analysing the as-is processes is repeatedly criticised in the literature, especially by proponents of
''Hermann J. Schmelzer and Wolfgang Sesselmann'', on the other hand, discuss and evaluate the criticism levelled at the radical approach of business process re-engineering (BPR) in the literature and «recommend carrying out as-is analyses. A reorganisation must know the current weak points in order to be able to eliminate them. The results of the analyses also provide arguments as to why a process re-engineering is necessary. It is also important to know the initial situation for the transition from the current to the target state. However, the analysis effort should be kept within narrow limits. The results of the analyses should also not influence the redesign too strongly.»<ref name="SCHMELZER"/> <sup>(Chapter 6.2.2 Critical assessment of the BPR) ← automatic translation from German</sup>
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* Determining the political and cultural significance of the process»<ref name="BECKER-MEISE"/> <sup>(Chapter 4.10 Defining the process structure) ← automatic translation from German</sup>
The structuring of business processes generally begins with a distinction between
* ''Management processes'' govern the operation of a company. Typical management processes include
* ''Core processes'' constitute the [[core business]] and create the primary value stream. Typical operational processes are [[purchasing]], [[manufacturing]], [[marketing]], and [[sales]]. They generate visible, direct customer benefits.
* ''Support processes'' provide and manage operational resources. They support the core and management processes by ensuring the smooth running of business operations. Examples include [[accounting]], [[recruitment]], and [[technical support]].
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==== Structure core processes based on the strategy for the long-term success of business process modeling ====
As the ''core business processes'' clearly make up the majority of a company's identified business processes, it has become common practice to subdivide the core processes once again. There are different approaches to this depending on the type of company and business activity. These approaches are significantly influenced by the defined ''
In the case of a primarily market-based strategy, end-to-end core business processes are often defined from the customer or supplier to the retailer or customer (e.g. "From offer to order", "From order to invoice", "From order to delivery", "From idea to product", etc.). In the case of a strategy based on resources, the core business processes are often defined on the basis of the central corporate functions ("Gaining orders", "Procuring and providing materials", "Developing products", "Providing services", etc.).
In a differentiated view without a clear focus on the market view or the resource view, the core business processes are typically divided into CRM, PLM and SCM.
* CRM (
* PLM ([[Product Lifecycle Management]]) describes the business processes from product portfolio planning, product planning, product development and product maintenance to product discontinuation and individual developments
* SCM ([[Supply Chain Management]]) describes the business processes from supplier management through purchasing and all [[Production (economics)|production stages]] to delivery to the customer, including installation and commissioning where applicable
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* have a strong external impact,
* can be easily differentiated from other business processes and
* offer the greatest potential for
[[File:VAC CRM Sales order-processing-and-project management.png|thumb|Example of a definition of the business process ''Customer Relationship Management'']]
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''Jörg Becker and Volker Meise'' state the following about individual process identification: «In individual or singular process identification, it is assumed that the processes in each company are different according to customer needs and the competitive situation and can be identified inductively based on the individual problem situation.»<ref name="BECKER-MEISE"/> <sup>(Chapter 4.12 Individual process identification) ← automatic translation from German</sup>
The result of the definition of the business processes is usually a rough structure of the business processes as a
=== Further structuring of business processes ===
[[File:VAC-production-company4.png|thumb|Example of the decomposition of a business process into sub-processes - supplemented by milestones, business units, data objects and IT-systems]]
The rough structure of the business processes created so far will now be decomposed - by breaking it down into sub-processes that have their own attributes but also contribute to achieving the goal of the business process. This decomposition should be significantly influenced by the ''
A sub-process created in this way uses a [[Scientific modelling|model]] to describe the way in which procedures are carried out in order to achieve the intended operating goals of the company. The model is an abstraction of reality (or a target state) and its concrete form depends on the intended use (application).
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A further decomposition of the sub-processes can then take place during [[#Modeling business process|business process modeling]] if necessary. If the business process can be represented as a sequence of phases, separated by [[Milestone (project management)|milestones]], the decomposition into phases is common. Where possible, the transfer of milestones to the next level of decomposition contributes to general understanding.
The result of the further structuring of business processes is usually a hierarchy of sub-processes,
=== Assigning the process responsibility ===
[[File:Pyramid-of-process-responsibility.png|thumb|Sample for a pyramid of process responsibility]]
Complete, self-contained processes are summarized and handed over to a responsible person or team. The ''[[Ownership|process owner]]'' is responsible for success, creates the framework conditions and coordinates his or her approach with that of the other process owners
=== Modeling business process ===
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;''As is'' modeling and ''to be'' modeling
The question of whether the business process model should be created through ''as is modeling'' or ''to be modeling'' is significantly influenced by the defined ''
;''As-is'' modeling
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* the creativity of those involved in the project to develop optimal target processes is stifled, as old structures and processes may be adopted without reflection in downstream target modeling and
* the creation of detailed ''as is'' models represents a considerable effort, also influenced by the effort required to reach a consensus between the project participants at interfaces and responsibility transitions
These arguments weigh particularly heavily if
* Modeling the current situation is the basis for identifying weaknesses and potential for improvement
* Knowledge of the current state is a prerequisite for developing migration strategies to the target state
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* The ''as is'' model is suitable for supporting certification of the management system
* The ''as is'' model can serve as a basis for organizational documentation (written rules, specifications and regulations of the organization, ...)
* The requirements for
* Key figures can be collected on the basis of the ''as is'' model in order to be compared with the key figures achieved after a reorganization and to measure the success of the measures.
;''To be'' modeling
)</sup>
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[[File:VAC Process sales pipeline.png|thumb|Breakdown of the business process ''Process sales pipeline'' into sub-processes based on phases]]
In addition, some German-speaking schools of
[[File:FT-Excerpt-of-company-functions.png|thumb|Function tree with a excerpt of typical company actions, ''sales pipeline'' relevant functions marked]]
For example, in
The first image shows as a value chain diagram how the business process ''Edit sales pipeline'' has been broken down into ''sub-processes'' (in the sense of
The second image shows an excerpt of typical ''functions'' (in the sense of delimited ''corporate function''/
;Utilization
A business process can be decomposed into sub-processes until further decomposition is no longer meaningful/possible (smallest meaningful sub-process = ''elementary process''). Usually, all levels of decomposition of a business process are documented in the same methodology: Process symbols. The process symbols used when modeling one level of decomposition then usually refer to the sub-processes of the next level until the level of ''elementary processes'' is reached. Value chain diagrams are often used to
;Workflow
A [[workflow]] is a
==== Functions (''Tasks'') ====
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;Delimitation
The term ''functions'' is often used synonymously for a delimited ''corporate function''/
;Utilization
The graphical elements used at the level of elementary processes then describe the (temporal-logical) sequence with the help of functions (''tasks''). The sequence of the functions (''tasks'') within the ''elementary processes'' is determined by their logical linking with each other (by [[Logical connective|logical operators]] or [[Business Process Model and Notation#Gateway|Gateways]]), provided it is not already specified by input/output relationships or
[[File:FAD-with-input-output-resources-and-regulations.png|thumb|Sample of a '''F'''unction '''A'''llocation '''D'''iagram (FAD) for outsourcing master data to a separate view in order to keep the readability of the process model]]
Furthermore, the functions (''tasks'') can be supplemented with graphical elements to describe inputs, outputs, systems, roles, etc. with the aim of improving the accuracy of the description and/or increasing the number of details. However, these additions quickly make the ''model'' confusing. To resolve the contradiction between accuracy of description and clarity, there are two main solutions: Outsourcing the additional graphical elements for describing inputs, outputs, systems, roles, etc. to a [[Function Allocation Diagram]] (FAD) or selectively showing/hiding these elements depending on the question/application.
The ''function allocation diagram'' shown in the image illustrates the addition of graphical elements for the description of inputs, outputs, systems, roles, etc. to functions (''tasks'') very well.
==== Master data (Artifacts) ====
The term
For
For
For
Master data can be, for example:
* the [[Organizational structure|business unit]] in whose area of responsibility a process takes place
* the
* the [[product (business)|product]] that is produced by the process
* the [[policy]] to be observed when executing the process
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* the measure that is carried out to increase the process capability
* the [[Control (management)|control]] that is performed to ensure the governance of the process
* the
* the
* etc.
By adding master data to the business process modeling, the same business process model can be used for different ''
Depending on how much value is given to master data in business process modeling, it is still possible to embed the master data in the process model without negatively affecting the readability of the model or the master data should be outsourced to a separate view, e.g. [[Function Allocation Diagram]]s.
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====Integration of external documents and IT-systems====
The integration of external [[document]]s and
For or example, direct access to objects in a [[knowledge database]] or documents in a [[Business rule|rule framework]] can significantly increase the benefits of the business process model in everyday life and thus the acceptance of business process modeling. All IT-systems involved can exploit their specific advantages and cross-fertilize each other (e.g. link to each other or standardize the filing structure):
* short response times of the
* Legally compliant documents of the
* Integrating graphical
If all relevant objects of the ''knowledge database'' and / or documents of the ''rule framework'' are connected to the processes, the end users have
The direct connection of external systems can also be used to integrate current measurement results or system statuses into the processes (and, for example, to display the current operating status of the processes), to display [[Software widget|widget]]s and show output from external systems or to jump to external systems and initiate a transaction there with a preconfigured dialog.
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=== Process chaining and control flow patterns ===
[[File:BPMN-Modale-Prozessverkettung AND.png|thumb|Modal chaining (''necessary'' finalization of sub-processes 1a, 1b and 1c before the start of sub-process 2) in an example using BPMN tools]]
The chaining of the sub-processes with each other and the chaining of the functions (''tasks'') in the sub-processes is modeled using
Material details of the chaining (What does the predecessor deliver to the successor?) are specified in the process interfaces, if intended.
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Interfaces can be defined by:
* transfer of responsibility/accountability from one
* transfer of data from one
* original
* transfer of intermediate results between sub-processes (
* final
In real terms, the transferred inputs/outputs are often data or information, but any other
=== Business process management ===
See article
In order to put improved business processes into practice, [[change management]] programs are usually required. With advances in software design, the vision of BPM models being fully executable (enabling simulations and round-trip engineering) is getting closer to reality.
==== Adaptation of process models ====
In
== Representation type and notation ==
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=== Modelling techniques ===
There are various standards for notations; the most common are:
*
* [[Event-driven process chain]] (EPC), proposed in 1992 by a working group under the leadership of
* ''Value-added chain diagram'' ([https://de.wikipedia.org/wiki/Wertsch%C3%B6pfungskettendiagramm VAD]), for visualizing processes mainly at a high level of abstraction
* [[Petri net]], developed by [[Carl Adam Petri]] in 1962
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* [[Subject-oriented business process management]] (S-BPM)
* [[Cognition enhanced Natural language Information Analysis Method]] (CogNIAM)
*
* [[Unified Modelling Language]] (UML), proposed in 1996 by [[Grady Booch]], [[Ivar Jacobson]], and [[James Rumbaugh]], continuously revised under the aegis of the
*
* [[Formalized Administrative Notation (FAN)]], created by Pablo Iacub and Leonardo Mayo in the 1990s
* [[Harbarian process modeling]] (HPM)
* [[BPEL|Business Process Execution Language]] (BPEL), an XML-based language developed in 2002 by [[Organization for the Advancement of Structured Information Standards|OASIS]] for the description and automation of business processes
*
Furthermore:
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* [https://de.wikipedia.org/wiki/PICTURE-Methode PICTURE-Methode] for the documentation and modeling of business processes in public administration
* [[Data-flow diagram]], a way of representing a flow of data through a process or a system
* [[Swimlane]] technique, mainly known through [[BPMN]] but also
* [https://de.wikipedia.org/wiki/ProMet ProMet], a method set for business engineering
* [[State diagram]], used to describe the behavior of systems
In addition, representation types from [[software architecture]] can also be used:
*
* [[Nassi-Shneiderman diagram]] or structure diagram, proposed in 1972/73 by [[Isaac Nassi]] and [[Ben Shneiderman]], standardized in DIN 66261.
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Programming languages that are being introduced for BPM include:<ref name="bpmfaq">{{cite web |title=Business Process Modelling FAQ |url=http://www.BPModeling.com/faq/ |access-date=2008-11-02 |url-status=dead |archive-url=https://web.archive.org/web/20081109082206/http://www.bpmodeling.com/faq/ |archive-date=2008-11-09 }}</ref>
* [[Business Process Execution Language]] (
* [[Web Services Choreography Description Language]] ([[WS-CDL]]).
* [[XML Process Definition Language]] ([[XPDL]]),
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=== Simulation ===
The simulation functionality of such tools allows for pre-execution "what-if" modelling (which has particular requirements for this application) and simulation. Post-execution optimization is available based on the analysis of actual as-performed metrics.<ref name="NIH07" />
* [[Use case diagram]]s created by
*
== Related concepts ==
=== Business reference model ===
[[File:Government Business Reference Model.svg|thumb|360px|Example of the US Federal Government Business Reference Model<ref>FEA (2005) [https://www.archives.gov/records-mgmt/pdf/rm-profile.pdf FEA Records Management Profile, Version 1.0]. December 15, 2005.</ref>]]
A [[business reference model]] is a reference model, concentrating on the functional and organizational aspects of an [[Business|enterprise]], [[Tertiary sector of the economy|service organization]] or [[government agency]]. In general a [[reference model]] is a model of something that embodies the basic goal or idea of something and can then be looked at as a reference for various purposes. A business reference model is a means to describe the business operations of an organization, independent of the organizational structure that perform them. Other types of business reference model can also depict the relationship between the business processes, business functions, and the business area's business reference model. These
The most familiar business reference model is the Business Reference Model of the US federal government. That model is a [[function model|function-driven]] framework for describing the business operations of the federal government independent of the agencies that perform them. The Business Reference Model provides an organized, hierarchical construct for describing the day-to-day business operations of the federal government. While many models exist for describing organizations – [[organizational chart]]s, ___location maps, etc. – this model presents the business using a functionally driven approach.<ref>[https://obamawhitehouse.archives.gov/sites/default/files/omb/assets/fea_docs/FEA_CRM_v23_Final_Oct_2007_Revised.pdf FEA Consolidated Reference Model Document] {{Webarchive|url=https://web.archive.org/web/20101011082020/http://www.whitehouse.gov/sites/default/files/omb/assets/fea_docs/FEA_CRM_v23_Final_Oct_2007_Revised.pdf |date=2010-10-11 }}. Oct 2007.</ref>
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=== Business process integration ===
[[File:Process and data modeling.svg|thumb|320px|Example of the interaction between business process and data models<ref name="SS93"/>]]
A
Usually a business model is created after conducting an interview, which is part of the [[business analysis]] process. The interview consists of a facilitator asking a series of questions to extract information about the subject business process. The interviewer is referred to as a facilitator to emphasize that it is the participants, not the facilitator, who provide the business process information. Although the facilitator should have some knowledge of the subject business process, but this is not as important as the mastery of a pragmatic and rigorous method interviewing business experts. The method is important because for most enterprises a team of facilitators is needed to collect information across the enterprise, and the findings of all the interviewers must be compiled and integrated once completed.<ref name="SS93"/>
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[[File:Business Process Reengineering Cycle.svg|thumb|Diagram of the business process reengineering cycle]]
[[Business process reengineering]] (BPR) aims to improve the [[Business efficiency|efficiency]] and effectiveness of the
Business process re-engineering (BPR) began as a private sector technique to help organizations fundamentally rethink how they do their work. A key stimulus for re-engineering has been the development and deployment of sophisticated information systems and networks. Leading organizations use this technology to support innovative business processes, rather than refining current ways of doing work.<ref name="GAO97">[https://govinfo.library.unt.edu/npr/library/gao/bprag.pdf Business Process Reengineering Assessment Guide] {{Webarchive|url=https://web.archive.org/web/20170218131136/http://www.gao.gov/special.pubs/bprag/bprag.pdf |date=2017-02-18 }}, United States General Accounting Office, May 1997.</ref>
===Business process management===
▲[[Change management]] programs are typically involved to put any improved business processes into practice. With advances in software design, the vision of BPM models becoming fully executable (and capable of simulations and round-trip engineering) is coming closer to reality.
====Adaptation of process models====
In
== See also ==
{{Portal|Business and economics}}
* [[Business architecture]]
* [[Business Model Canvas]]
* [[Business plan]]
* [[Business process mapping]]
* [[Capability Maturity Model Integration]]
* [[DRAKON|Drakon-chart]]
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