摘要:
A software framework provides building blocks for developing event handlers (typically XML-based or data object based) and a mechanism for dynamically deploying and managing them within an online community having roles and places defined for users and groups. The complex data to be sent/received among users and applications can be described in XML or actual Java™ objects. The software framework is composed of the following principal components: Awarelet base, Awarelet Container, Awarelet Application Adapter, Awarelet Event, Awarelet Configuration, and Awarelet Repository. Awarelet Technology is designed to enhanced the prior art of Instant Messaging in order to facilitate more robust interactions between members of the online community. This invention considers not only users as members, but in addition, business applications and processes as well. The present invention aims to solve the problems stemming from lack of support for business related collaborations in the prior art, as well as enhance the ability to send and receive complex informational events. This Awarelet Technology allows for the creation of real-time business related collaborations in order for the members of an online community to exchange business events and context. Awarelet Technology brings the notion of context and structure to the members of online communities and can be used to construct powerful real-time business related collaborations.
摘要:
An active collaboration technology in an open architectural framework that delivers information and decision support tools in a timely, contextual and role sensitive manner to present a collaborative dynamic decision making capability to a community of role players within a supply chain process. Such a comprehensive collaborative dynamic decision making capability is made possible through the integration of the business process, the organization of role players and relevant business applications.
摘要:
The invention provides a system adapted to enable contextual collaboration within a computer network. The invention provides a collaboration manager that supports manipulation of collaboration spaces. The collaboration spaces contain one or more collaboration elements that have potentially different collaboration modalities. The context manager maintains resources and resource interrelationships within contexts. The resources can include collaboration elements, processes, tasks, business objects, users, and/or roles. A view generator selects a set of the resources to be displayed to a user of the computer network. The invention also includes an interface adapted to allow applications to specify commands to manipulate collaboration spaces, commands to maintain resources and resource interrelationships within contexts, and queries for context-sensitive views.
摘要:
An enterprise system includes a plurality of artifacts (e.g., persons, objects, databases, autonomous elements, intelligent agents, information systems, etc), and a smart distance (e.g., a distance which may optimize the performance of the enterprise system) between the plurality of artifacts.
摘要:
Techniques for generating and executing a performance-aware enterprise component (PAEC) are provided. The techniques include creating a performance-aware enterprise component definition, wherein an enterprise component is a component with defined behavior and data models that represent an enterprise capability and provide a service to a client through a defined interface, and wherein the definition comprises an extensible markup language file comprising process component lifecycle information, one or more data items to be used in the component lifecycle, and one or more performance metrics, and executing the performance-aware enterprise component, wherein executing the performance-aware enterprise component comprises reading the performance-aware enterprise component definition and one or more relationships with the one or more data items, and operating the component lifecycle, wherein operating the component lifecycle comprises using the one or more performance metrics within the component lifecycle to enable one or more localized changes to be made within the enterprise component.
摘要:
Process management techniques using a representation state transfer architecture that manages a given process in a data-centric manner are disclosed. By way of one example, a method of managing a given process in a data-centric manner in a client/server environment, comprising at least one client and at least one server, comprises the following steps. The server obtains from the client at least one request associated with the given process. In response to the request obtained from the client, the server generates an entity, wherein the generated entity is represented in terms of a data model and a lifecycle model associated therewith, wherein the lifecycle model comprises states and state transitions with each transition caused by one or more activities in the given process, and wherein the given process is represented as a collection of communicating entities. The server sends a response to the at least one request to the client, wherein the response is based at least in part on the generated entity.
摘要:
Techniques for generating and executing a performance-aware enterprise component (PAEC) are provided. The techniques include creating a performance-aware enterprise component definition, wherein an enterprise component is a component with defined behavior and data models that represent an enterprise capability and provide a service to a client through a defined interface, and wherein the definition comprises an extensible markup language file comprising process component lifecycle information, one or more data items to be used in the component lifecycle, and one or more performance metrics, and executing the performance-aware enterprise component, wherein executing the performance-aware enterprise component comprises reading the performance-aware enterprise component definition and one or more relationships with the one or more data items, and operating the component lifecycle, wherein operating the component lifecycle comprises using the one or more performance metrics within the component lifecycle to enable one or more localized changes to be made within the enterprise component.
摘要:
Standardized support for management of contextual relationships, which includes specification of the context hierarchy, association of relationships with a particular context, and derivation of transitive dependencies, is provided with a Context Manager service. The Context Manager provides a programmatic interface for defining contexts and the relationships therein. The Context Manager saves the relationship facts in one or more context stores, which are organized by contexts. The Context Manager interfaces with the Ontology Manager that processes queries on relationships with respect to a given set of contexts. The Context Manager provides a high-level abstraction for relationship management in a context. Developers of business solutions can then focus on the core business logic, without worrying about the details of storing and inferencing relationships.
摘要:
Process management techniques using a representation state transfer architecture include, for example, a method of managing a given process in a data-centric manner in a client/server environment, comprising at least one client and at least one server. In an exemplary method, the server obtains from the client at least one request associated with the given process. In response to the request obtained from the client, the server generates an entity, wherein the generated entity is represented in terms of a data model and a lifecycle model associated therewith, wherein the lifecycle model comprises states and state transitions with each transition caused by one or more activities in the given process, and wherein the given process is represented as a collection of communicating entities. The server sends a response to the at least one request to the client, wherein the response is based at least in part on the generated entity.
摘要:
Execution of flexible workflows using artifacts is described. A workflow execution engine is configured to instantiate a process execution (PE) artifact. The PE artifact includes one or more transitions. The workflow execution engine is further configured to execute the one or more transitions and determine if any of the one or more transitions are new or modified. The workflow execution engine is additionally configured to load and execute new or modified transitions, without reinstantiating the PE artifact, responsive to determining that at least one new or modified transitions exist.