An investigation into inputs and outputs of collaborative business process (CBP) tasks
In this era of globalization, companies collaborate with one another to pool their resources as well as to remain in the competition. In the collaboration, some business processes of each of the organizations are linked together, these are identified as collaborative Business Processes (cBPs). So...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
2010
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/39847 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | In this era of globalization, companies collaborate with one another to pool their
resources as well as to remain in the competition. In the collaboration, some business processes of each of the organizations are linked together, these are identified as collaborative Business Processes (cBPs). Some Business Process Management (BPM) and Business-to-Business (B2B) systems have been introduced but these
systems are often costly to implement and rigid, leading to a lack of adoption. On top
of that, no system has been able to dynamically formulate business processes from a given set of business goals and constraints.
The Genesis methodology, created by the team in A*STAR Integrated Manufacturing Services and Systems (IMSS), is one that has been successful in formulating dynamic cBP by decomposing high level B2B business goals, criteria,and compound tasks into operational level, granular tasks ideal for direct Web
service execution. This is done by dynamic sequencing of primitive tasks through
Hierarchical Task Network (HTN) planning algorithm and a Web ontology (BOWL)
that supports the hierarchical decompositions and ordering of cBP tasks. However, the Genesis + BOWL system’s lack of description of the tasks’ inputs and outputs
makes it impossible to match and invoke the right Web Service to execute each task.
In this report, the author presents TIBOD, short for Task Input-Behaviour-Output
Description, a method which provides a rich description of each executable BOWL
task in terms of inputs, outputs, and its behaviour. TIBOD is modelled as a Web
ontology, a machine readable format that can be merged with BOWL, and be used to
scope down to matching Web services to realize the dynamically generated task
sequence. |
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