Workflow Future Plans

ACS Documentation : Workflow : Workflow Future Plans

All the existing features and UIs will be continually improved to better serve users' needs. But there are also entirely new areas that we're planning to explore. These are:

• Extension with color. By letting tokens carry values themselves, we can implement parallel routing without a predetermined number of concurrent threads of execution. Color is a standard extension of Petri Nets, and thus straight-forward to implement in that all the hard work of defining the semantics have already been done by others. The most likely implementation is to have each token carry a XML document, the places carry a DTD, which must be the DTD of tokens residing in that place, and arcs perform XSLT transformations on the tokens.

• Extension with hierarchy. Hierarchy is another one of the standard Petri Net extensions that make excellent sense for workflow nets. Each task can consist of a number of sub-tasks. The interface between the levels are well-defined, in the form of places that exist on both levels. The hierarchy can be arbitrarily deep.

• Analysis of workflows. At a minimum we'll want a way to ensure that a workflow net is well-constructed, i.e. no deadlocks, we can't end up in inconsistent states, such as "workflow is not finished but there are no tasks to perform either", etc. But more importantly, the underlying model we're using (Petri nets) lends itself very easily to simulation and analysis of performance and throughput, discover bottlenecks, and lots of other interesting features of workflows. The analysis can both be on simulated data and on historic data.

• Cooperation with other systems. The workflow package should integrate with other software, including other workflow management systems. We're investigaing and evaluating the existing standards in the field, especially WfMC.

• Separate task manager package. It makes sense to separate the task list into its own PIM-style task manager package, so we're expecting to do that.

• Engine written in Java. The next-generation workflow engine will probably be written in Java, to run inside a Java application server or perhaps an EJB container. Thus, actions and other forms of callbacks can be implemented as JavaBeans or EJBs, providing for a much cleaner environment. We're currently investigating the technology options.

• Process and Callback Repository As the workflow package gains in popularity, we'll host a process and callback repository, so you can share and get access to processes and callbacks without having to write them yourself. This will be facilitated by an XML representation of a process, as well as by callbacks written as JavaBeans or EJBs rather than PL/SQL functions/packages.

• Manually manipulate the state of a case. We're planning on providing a web-based interface for manually manipulating the state of a case. The simplest form is undoing actions on a case. The more advanced form is to let an administrator put the case into any valid state.

• Leverage an automated form-builder system. Once the ACS has a fully functional automated form-generating subsystem in place, we'll want to use it for generating more complex forms to fill in workflow attributes or, when that time comes, values to be carried by the tokens.