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Monday, July 23, 2018

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A workflow consists of an orchestrated and repeatable pattern of business activity enabled by the systematic organization of resources into processes that transform materials, provide services, or process information. It can be depicted as a sequence of operations, the work of a person or group, the work of an organization of staff, or one or more simple or complex mechanisms.

From a more abstract or higher-level perspective, workflow may be considered a view or representation of real work. The flow being described may refer to a document, service, or product that is being transferred from one step to another.

Workflows may be viewed as one fundamental building block to be combined with other parts of an organization's structure such as information technology, teams, projects and hierarchies.


Video Workflow



Historical development

The development of the concept of workflow occurred above a series of loosely defined, overlapping eras.

Beginnings in manufacturing

The modern history of workflows can be traced to Frederick Taylor and Henry Gantt, although the term "workflow" was not in usage as such during their lifetimes. One of the earliest usages of the term "work flow" was in a railway engineering journal from 1921.

Taylor and Gantt launched the study of the deliberate, rational organization of work, primarily in the context of manufacturing. This gave rise to time and motion studies. Related concepts include job shops and queuing systems (Markov chains).

The 1948 book Cheaper by the Dozen introduced the emerging concepts to the context of family life.

Maturation and growth

The invention of the typewriter and the copier helped spread the study of the rational organization of labor from the manufacturing shop floor to the office. Filing systems and other sophisticated systems for managing physical information flows evolved. Several events likely contributed to the development of formalized information workflows. First, the field of optimization theory matured and developed mathematical optimization techniques. For example, Soviet mathematician and economist Leonid Kantorovich developed the seeds of linear programming in 1939 through efforts to solve a plywood manufacturer's production optimization issues. Second, World War II and the Apollo program drove process improvement forward with their demands for the rational organization of work.

Quality era

In the post-war era, the work of W. Edwards Deming and Joseph M. Juran led to a focus on quality, initially in Japanese companies, and from the 1980s on a more global level, giving rise to a variety of movements ranging from total quality management to Six Sigma, then to more qualitative notions of business process re-engineering. Under the influence of the quality movement, workflows, in knowledge economy sectors as well as in manufacturing, became the subject of further scrutiny and optimization efforts. Acknowledgement of the dynamic and changing nature of the demands on workflows came in the form of recognition of the phenomena associated with critical paths and moving bottlenecks.


Maps Workflow



Workflow management system

A workflow management system (WfMS) is a software system for setting up, performing, and monitoring of a defined sequence of processes and tasks, with the broad goals of increasing productivity, reducing costs, becoming more agile, and improving information exchange within an organization. These systems may be process-centric or data-centric, and they may represent the workflow as graphical maps. The workflow management system may also include an extensible interface so that external software applications can be integrated and provide support for wide area workflows that provide faster response times and improved productivity.


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Related concepts

The concept of workflow is closely related to several fields in operations research and other areas that study the nature of work, either quantitatively or qualitatively, such as artificial intelligence (in particular, the sub-discipline of AI planning) and ethnography. The term "workflow" is more commonly used in particular industries, such as in printing or professional domains such as clinical laboratories, where it may have particular specialized meanings.

  1. Processes: A process is a more general notion than workflow and can apply to, for example, physical or biological processes, whereas a workflow is typically a process or collection of processes described in the context of work, such as all processes occurring in a machine shop.
  2. Planning and scheduling: A plan is a description of the logically necessary, partially ordered set of activities required to accomplish a specific goal given certain starting conditions. A plan, when augmented with a schedule and resource allocation calculations, completely defines a particular instance of systematic processing in pursuit of a goal. A workflow may be viewed as an often optimal or near-optimal realization of the mechanisms required to execute the same plan repeatedly.
  3. Flow control: This is a control concept applied to workflows, to distinguish from static control of buffers of material or orders, to mean a more dynamic control of flow speed and flow volumes in motion and in process. Such orientation to dynamic aspects is the basic foundation to prepare for more advanced job shop controls, such as just-in-time or just-in-sequence.
  4. In-transit visibility: This monitoring concept applies to transported material as well as to work in process or work in progress, i.e., workflows.

Workflow - Petraware Technologies
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Examples

The following examples illustrate the variety of workflows seen in various contexts:

  1. In machine shops, particularly job shops and flow shops, the flow of a part through the various processing stations is a workflow.
  2. Insurance claims processing is an example of an information-intensive, document-driven workflow.
  3. Wikipedia editing can be modeled as a stochastic workflow.
  4. The Getting Things Done system is a model of personal workflow management for information workers.
  5. In software development, support and other industries, the concept of follow-the-sun describes a process of passing unfinished work across time zones.
  6. In traditional offset and digital printing, the concept of workflow represents the process, people, and usually software technology (RIPs raster image processors or DFE digital front end) controllers that play a part in pre/post processing of print-related files, e.g., PDF pre-flight checking to make certain that fonts are embedded or that the imaging output to plate or digital press will be able to render the document intent properly for the image-output capabilities of the press that will print the final image.
  7. In scientific experiments, the overall process (tasks and data flow) can be described as a directed acyclic graph (DAG). This DAG is referred to as a workflow, e.g., Brain Imaging workflows.
  8. In healthcare data analysis, a workflow can be used to represent a sequence of steps which compose a complex data analysis (data-search and data-manipulation steps).
  9. In service-oriented architectures an application can be represented through an executable workflow, where different, possibly geographically distributed, service components interact to provide the corresponding functionality under the control of a workflow management system.

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Features and phenomenology

  1. Modeling: Workflow problems can be modeled and analyzed using graph-based formalisms like Petri nets.
  2. Measurement: Many of the concepts used to measure scheduling systems in operations research are useful for measuring general workflows. These include throughput, processing time, and other regular metrics.
  3. Specialized connotations: The term "workflow" has specialized connotations in information technology, document management, and imaging. Since 1993, one trade consortium specifically focused on workflow management and the interoperability of workflow management systems, the Workflow Management Coalition.
  4. Scientific workflow systems: Have found wide acceptance in the fields of bioinformatics and cheminformatics in the early 2000s, where they successfully meet the need for multiple interconnected tools that handle multiple data formats and large data quantities. Also, the paradigm of scientific workflows resembles the well-established tradition of Perl programming in life science research organizations, making this adoption a natural step towards more structured infrastructure setup.
  5. Human-machine interaction: Several conceptualizations of mixed-initiative workflows have been studied, particularly in the military, where automated agents play roles just as humans do. For innovative, adaptive, and collaborative human work, the techniques of human interaction management are required.
  6. Workflow analysis: Workflow systems allow users to develop executable processes with no familiarity with formal programming concepts. Automated workflow analysis techniques can help users analyze the properties of user workflows to conduct verification of certain properties before executing them, e.g., analyzing flow control or data flow. Examples of tools based on formal analysis frameworks have been developed and used for the analysis of scientific workflows and can be extended to the analysis of other types of workflows.

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Workflow improvement theories

Several workflow improvement theories have been proposed and implemented in the modern workplace. These include:

  1. Six Sigma
  2. Total Quality Management
  3. Business Process Reengineering
  4. Lean systems
  5. Theory of Constraints

Evaluation of resources, both physical and human, is essential to evaluate hand-off points and potential to create smoother transitions between tasks.


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Components

A workflow can usually be described using formal or informal flow diagramming techniques, showing directed flows between processing steps. Single processing steps or components of a workflow can basically be defined by three parameters:

  1. input description: the information, material and energy required to complete the step
  2. transformation rules: algorithms which may be carried out by people or machines, or both
  3. output description: the information, material, and energy produced by the step and provided as input to downstream steps

Components can only be plugged together if the output of one previous (set of) component(s) is equal to the mandatory input requirements of the following component(s). Thus, the essential description of a component actually comprises only input and output that are described fully in terms of data types and their meaning (semantics). The algorithms' or rules' descriptions need only be included when there are several alternative ways to transform one type of input into one type of output - possibly with different accuracy, speed, etc.

When the components are non-local services that are invoked remotely via a computer network, such as Web services, additional descriptors (such as QoS and availability) also must be considered.


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Applications

Many software systems exist to support workflows in particular domains. Such systems manage tasks such as automatic routing, partially automated processing, and integration between different functional software applications and hardware systems that contribute to the value-addition process underlying the workflow. There are also software suppliers using the technology process driven messaging service based upon three elements:

  • Standard Objects
  • Workflow Objects
  • Workflow

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See also

  • Bioinformatics workflow management systems
  • Business process automation
  • Business process management
  • Business process modeling
  • Computer-supported collaboration
  • DRAKON visual language for business process modeling
  • Enterprise content management
  • Process architecture
  • Process-driven application
  • Workforce automation
  • Workflow engine
  • Workforce modeling

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References


Innowera Easy Workflow | Workflow for SAP using Server Based Excel ...
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Further reading

  • Ryan K. L. Ko, Stephen S. G. Lee, Eng Wah Lee (2009) Business Process Management (BPM) Standards: A Survey. In: Business Process Management Journal, Emerald Group Publishing Limited. Volume 15 Issue 5. ISSN 1463-7154. PDF
  • Khalid Belhajjame, Christine Collet, Genoveva Vargas-Solar: A Flexible Workflow Model for Process-Oriented Applications. WISE (1) 2001, IEEE CS, 2001.
  • Marlon Dumas, Wil van der Aalst, Arthur ter Hofstede: Process-Aware Information Systems, Wiley, ISBN 0-471-66306-9
  • Layna Fischer (ed.): 2007 BPM and Workflow Handbook, Future Strategies Inc., ISBN 978-0-9777527-1-3
  • Layna Fischer: Workflow Handbook 2005, Future Strategies, ISBN 0-9703509-8-8
  • Layna Fischer: Excellence in Practice, Volume V: Innovation and Excellence in Workflow and Business Process Management, ISBN 0-9703509-5-3
  • Thomas L. Friedman: The World Is Flat: A Brief History of the Twenty-first Century, Farrar, Straus and Giroux, ISBN 0-374-29288-4
  • Keith Harrison-Broninski. Human Interactions: The Heart and Soul of Business Process Management. ISBN 0-929652-44-4
  • Holly Yu: Content and Work Flow Management for Library Websites: Case Studies, Information Science Publishing, ISBN 1-59140-534-3
  • Wil van der Aalst, Kees van Hee: Workflow Management: Models, Methods, and Systems, B&T, ISBN 0-262-72046-9
  • Setrag Khoshafian, Marek Buckiewicz: Introduction to Groupware, Workflow and Workgroup Computing, John Wiley & Sons, ISBN 0-471-02946-7
  • Rashid N. Kahn: Understanding Workflow Automation: A Guide to Enhancing Customer Loyalty, Prentice Hall, ISBN 0-13-061918-3
  • Dan C. Marinescu: Internet-Based Workflow Management: Towards a Semantic Web, John Wiley & Sons, ISBN 0-471-43962-2
  • Frank Leymann, Dieter Roller: Production Workflow: Concepts and Techniques, Prentice Hall, ISBN 0-13-021753-0
  • Michael Jackson, Graham Twaddle: Business Process Implementation: Building Workflow Systems, Addison-Wesley, ISBN 0-201-17768-4
  • Alec Sharp, Patrick McDermott: Workflow Modeling, Artech House Publishers, ISBN 1-58053-021-4
  • Toni Hupp: Designing Work Groups, Jobs, and Work Flow, Pfeiffer & Company, ISBN 0-7879-0063-X
  • Gary Poyssick, Steve Hannaford: Workflow Reengineering, Adobe, ISBN 1-56830-265-7
  • Dave Chaffey: Groupware, Workflow and Intranets: Reengineering the Enterprise with Collaborative Software, Digital Press, ISBN 1-55558-184-6
  • Wolfgang Gruber: Modeling and Transformation of Workflows With Temporal Constraints, IOS Press, ISBN 1-58603-416-2
  • Andrzej Cichocki, Marek Rusinkiewicz, Darrell Woelk: Workflow and Process Automation Concepts and Technology, Kluwer Academic Publishers, ISBN 0-7923-8099-1
  • Alan R. Simon, William Marion: Workgroup Computing: Workflow, Groupware, and Messaging, McGraw-Hill, ISBN 0-07-057628-9
  • Penny Ann Dolin: Exploring Digital Workflow, Delmar Thomson Learning, ISBN 1-4018-9654-5
  • Gary Poyssick: Managing Digital Workflow, Prentice Hall, ISBN 0-13-010911-8
  • Frank J. Romano: PDF Printing & Workflow, Prentice Hall, ISBN 0-13-020837-X
  • James G. Kobielus: Workflow Strategies, Hungry Minds, ISBN 0-7645-3012-7
  • Alan Rickayzen, Jocelyn Dart, Carsten Brennecke: Practical Workflow for SAP, Galileo, ISBN 1-59229-006-X
  • Alan Pelz-Sharpe, Angela Ashenden: E-process: Workflow for the E-business, Ovum, ISBN 1-902566-65-3
  • Stanislaw Wrycza: Systems Development Methods for Databases, Enterprise Modeling, and Workflow Management, Kluwer Academic/Plenum Publishers, ISBN 0-306-46299-0
  • Database Support for Workflow Management, Kluwer Academic Publishers, ISBN 0-7923-8414-8
  • Matthew Searle: Developing With Oracle Workflow
  • V. Curcin and M. Ghanem Scientific workflow systems - can one size fit all? paper in CIBEC'08 comparing scientific workflow systems.

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External links

  • Workflow Patterns
  • Workflow Management Coalition

Source of article : Wikipedia