摘要:
An architecture, system, and method are provided for a commitment loop solution for on demand business activity management. A Business Performance Management (BPM) loop is defined as a set of nodes each relating to different tasks for processing performance management trigger data generated by a business entity in real time, where the beginning or sensing element of the loop is triggered by a token (representing a business event from a business process) and the ending or executing element provides a business action to be implemented by the business entity. The token is passed from node to node sequentially in a particular order around the loop. Processing of the data represented by the token is governed by policies, which can be changed dynamically and follow a life cycle. On demand business activity management of larger aggregates of business entities (i.e. enterprises and value chains) is achieved by extending this architecture by building upon the BPM loops of the component entities to form a BPM net, adding nodes as necessary. This architecture, system and method can be implemented at multiple levels of granularity from operational or tactical business activities to enterprise wide strategic activities.
摘要:
An architecture, system, and method are provided for a commitment loop solution for on demand business activity management. A Business Performance Management (BPM) loop is defined as a set of nodes each relating to different tasks for processing performance management trigger data generated by a business entity in real time, where the beginning or sensing element of the loop is triggered by a token (representing a business event from a business process) and the ending or executing element provides a business action to be implemented by the business entity. The token is passed from node to node sequentially in a particular order around the loop. Processing of the data represented by the token is governed by policies, which can be changed dynamically and follow a life cycle. On demand business activity management of larger aggregates of business entities (i.e. enterprises and value chains) is achieved by extending this architecture by building upon the BPM loops of the component entities to form a BPM net, adding nodes as necessary. This architecture, system and method can be implemented at multiple levels of granularity from operational or tactical business activities to enterprise wide strategic activities.
摘要:
An architecture, system, and method are provided for a commitment loop solution for on demand business activity management. A Business Performance Management (BPM) loop includes nodes each relating to different tasks for processing performance management trigger data generated by a business entity in real time. The beginning or sensing element of the loop is triggered by a token (representing a business event from a business process). The ending or executing element provides a business action to be implemented by the business entity. The token is passed from node to node sequentially in a particular order around the loop. Processing of the data represented by the token is governed by policies, which can be changed dynamically and follow a life cycle.
摘要:
An architecture, system, and method are provided for a commitment loop solution for on demand business activity management. A Business Performance Management (BPM) loop includes nodes each relating to different tasks for processing performance management trigger data generated by a business entity in real time. The beginning or sensing element of the loop is triggered by a token (representing a business event from a business process). The ending or executing element provides a business action to be implemented by the business entity. The token is passed from node to node sequentially in a particular order around the loop. Processing of the data represented by the token is governed by policies, which can be changed dynamically and follow a life cycle.
摘要:
An architecture, system, and method are provided for a commitment loop solution for on demand business activity management. A Business Performance Management (BPM) loop is defined as a set of nodes each relating to different tasks for processing performance management trigger data generated by a business entity in real time, where the beginning or sensing element of the loop is triggered by a token (representing a business event from a business process) and the ending or executing element provides a business action to be implemented by the business entity. The token is passed from node to node sequentially in a particular order around the loop. Processing of the data represented by the token is governed by policies, which can be changed dynamically and follow a life cycle. On demand business activity management of larger aggregates of business entities (i.e. enterprises and value chains) is achieved by extending this architecture by building upon the BPM loops of the component entities to form a BPM net, adding nodes as necessary. This architecture, system and method can be implemented at multiple levels of granularity from operational or tactical business activities to enterprise wide strategic activities.
摘要:
A managed policy driven virtual data space for managing artifacts relationships and sharing artifacts among services. A policy model is used to represent business artifacts, sharing of the artifacts, and subscription of other artifacts that is of interest to current artifact and, to represent the various state of the artifact. An active shared space provides support functionality for the policy model, such as artifact lifecycle management. The active shared space also provides the support of sharing of such artifact with external/internal services and other artifacts. The active shared space also controls the artifacts storage in the relational database for archiving purposes. Active shared space also provides the mechanism of subscribing to various artifacts and publishing the availability of artifact for services and other artifacts itself. Active shared space also makes the artifact aware of the context within which the said artifact operates and allows subscribing to appropriate artifacts to support the context needs. Active shared space also provides the mechanism to trace through the various states of an artifact and facility to query the artifact data content.
摘要:
A method and apparatus are disclosed for correlating structured event data, comprising the steps of selecting aggregation elements and creating a structured template utilizing the selected aggregation elements. The structured event data is then translated to name-value pair sets based on the structured template. In one exemplary embodiment, the structured template is created by searching the structured event data for repeatable node-value pairs. In one aspect of the invention, a region tree is created, wherein intermediate nodes represent shared fragments, leaf nodes represent regions, and wherein regions are a unique set of nodes whose sub-tree can have multiple occurrences. In another aspect of the invention, the translation of the structured event data comprises the steps of parsing the structured event data in depth first search order; and forming regions based on an aggregation element set. The translation may also require the steps of obtaining a region tree; selecting one instance from each region; and joining the selected instances to form a target that conforms to a translation rule syntax.
摘要:
A managed policy driven virtual data space for managing artifacts relationships and sharing artifacts among services. A policy model is used to represent business artifacts, sharing of the artifacts, and subscription of other artifacts that is of interest to current artifact and, to represent the various state of the artifact. An active shared space provides support functionality for the policy model, such as artifact lifecycle management. The active shared space also provides the support of sharing of such artifact with external/internal services and other artifacts. The active shared space also controls the artifacts storage in the relational database for archiving purposes. Active shared space also provides the mechanism of subscribing to various artifacts and publishing the availability of artifact for services and other artifacts itself. Active shared space also makes the artifact aware of the context within which the said artifact operates and allows subscribing to appropriate artifacts to support the context needs. Active shared space also provides the mechanism to trace through the various states of an artifact and facility to query the artifact data content.
摘要:
A model-driven and QoS-aware infrastructure facilitates the scalable composition of Web services in highly dynamic environments. An exception management framework supports two modes of exception management for business processes, providing a novel policy-driven approach to exception management implemented in the system infrastructure. Exception management is implemented in the system infrastructure, with exception handling policies supplied by individual business processes. Using the exception management framework, developers define exception policies in a declarative manner. Before a business process is executed, the service composition middleware integrates the exception policies with normal business logic to generate a complete process schema. This policy driven-approach can significantly reduce the development time of business processes through its separation of the development of the business logic and the exception handling policies.
摘要:
A model-driven and QoS-aware infrastructure facilitates the scalable composition of Web services in highly dynamic environments. An exception management framework supports two modes of exception management for business processes, providing a novel policy-driven approach to exception management implemented in the system infrastructure. Exception management is implemented in the system infrastructure, with exception handling policies supplied by individual business processes. Using the exception management framework, developers define exception policies in a declarative manner. Before a business process is executed, the service composition middleware integrates the exception policies with normal business logic to generate a complete process schema. This policy driven-approach can significantly reduce the development time of business processes through its separation of the development of the business logic and the exception handling policies.