Towards Configurable Process Visualizations with Proviado

Visualizing complex business processes is an important task of process-aware information systems (PAIS). Current PAIS, however, fail in providing adequate mechanisms for visualizing and monitoring business processes. In particular, PAIS do not support personalized or adaptable process drawings, which is particularly important for large processes. In the Proviado project we are developing a comprehensive framework for this purpose. It allows for flexible process visualization along three dimensions: process views, process notations, and process representation forms. In this paper we summarize selected concepts and features of the Proviado demonstrator

On the Context-aware, Personalized Delivery of Process Information: Viewpoints, Problems, and Requirements

Enterprises are confronted with an increasing amount of data. This data overload makes it difficult to provide knowledge-workers and decision-makers with the needed information. Particularly challenging in this context is the integrated provision of both structured and unstructured information depending on the current process context and user, i.e., the context-aware, personalized delivery of process information. Examples of unstructured process information include all kinds of office documents or e-mails. Examples of structured process information are business process models or data from enterprise information systems. Picking up the need for a context-aware, personalized delivery of process information, this paper presents results from three empirical studies: two exploratory case studies from the automotive domain and the healthcare sector, and an online survey among 219 participants. In a first step, we identify and describe problems with respect to process-oriented information management in general and the personalized provision of process information in particular. In a second step, we derive requirements on the user-adequate handling of process information

Navigating in Complex Process Model Collections

The increasing adoption of process-aware information systems (PAIS) has led to the emergence of large process model collections. In the automotive and healthcare domains, for example, such collections may comprise hundreds or thousands of process models, each consisting of numerous process elements (e.g., process tasks or data objects). In existing modeling environments, process models are presented to users in a rather static manner; i.e., as image maps not allowing for any context-specific user interactions. As process participants have different needs and thus require specific presentations of available process information, such static approaches are usually not sufficient to assist them in their daily work. For example, a business manager only requires an abstract overview of a process model collection, whereas a knowledge worker (e.g., a requirements engineer) needs detailed information on specific process tasks. In general, a more flexible navigation and visualization approach is needed, which allows process participants to flexibly interact with process model collections in order to navigate from a standard (i.e., default) visualization of a process model collection to a context-specific one. With the Process Navigation and Visualization (ProNaVis) framework, this thesis provides such a flexible navigation approach for large and complex process model collections. Specifically, ProNaVis enables the flexible navigation within process model collections along three navigation dimensions. First, the geographic dimension allows zooming in and out of the process models. Second, the semantic dimension may be utilized to increase or decrease the level of detail. Third, the view dimension allows switching between different visualizations. All three navigation dimensions have been addressed in an isolated fashion in existing navigation approaches so far, but only ProNaVis provides an integrated support for all three dimensions. The concepts developed in this thesis were validated using various methods. First, they were implemented in the process navigation tool Compass, which has been used by several departments of an automotive OEM (Original Equipment Manufacturer). Second, ProNaVis concepts were evaluated in two experiments, investigating both navigation and visualization aspects. Third, the developed concepts were successfully applied to process-oriented information logistics (POIL). Experimental as well as empirical results have provided evidence that ProNaVis will enable a much more flexible navigation in process model repositories compared to existing approaches