Many organizations use business process management to manage and model their processes. Currently, flow-based process formalisms, such as BPMN, are considered the standard for modeling processes. However, recent literature describes several limitations of this type of formalism that can be solved by adopting a constraint-based formalism. To preserve economic investments in existing process models, transformation activities needed to be limited. This paper presents a methodical approach for performing the tedious parts of process model transformation. Executing the method results in correctly transformed process models and reduces the effort required for converting the process models.
DOCUMENT
Over the past forty years, the use of process models in practice has grown extensively. Until twenty years ago, remarkably little was known about the factors that contribute to the human understandability of process models in practice. Since then, research has, indeed, been conducted on this important topic, by e.g. creating guidelines. Unfortunately, the suggested modelling guidelines often fail to achieve the desired effects, because they are not tied to actual experimental findings. The need arises for knowledge on what kind of visualisation of process models is perceived as understandable, in order to improve the understanding of different stakeholders. Therefore the objective of this study is to answer the question: How can process models be visually enhanced so that they facilitate a common understanding by different stakeholders? Consequently, five subresearch questions (SRQ) will be discussed, covering three studies. By combining social psychology and process models we can work towards a more human-centred and empirical-based solution to enhance the understanding of process models by the different stakeholders with visualisation.
MULTIFILE
This paper frames the process of designing a level in a game as a series of model transformations. The transformations correspond to the application of particular design principles, such as the use of locks and keys to transform a linear mission into a branching space. It shows that by using rewrite systems, these transformations can be formalized and automated. The resulting automated process is highly controllable: it is a perfect match for a mixed-initiative approach to level generation where human and computer collaborate in designing levels. An experimental prototype that implements these ideas is presented.
DOCUMENT
The scientific publishing industry is rapidly transitioning towards information analytics. This shift is disproportionately benefiting large companies. These can afford to deploy digital technologies like knowledge graphs that can index their contents and create advanced search engines. Small and medium publishing enterprises, instead, often lack the resources to fully embrace such digital transformations. This divide is acutely felt in the arts, humanities and social sciences. Scholars from these disciplines are largely unable to benefit from modern scientific search engines, because their publishing ecosystem is made of many specialized businesses which cannot, individually, develop comparable services. We propose to start bridging this gap by democratizing access to knowledge graphs – the technology underpinning modern scientific search engines – for small and medium publishers in the arts, humanities and social sciences. Their contents, largely made of books, already contain rich, structured information – such as references and indexes – which can be automatically mined and interlinked. We plan to develop a framework for extracting structured information and create knowledge graphs from it. We will as much as possible consolidate existing proven technologies into a single codebase, instead of reinventing the wheel. Our consortium is a collaboration of researchers in scientific information mining, Odoma, an AI consulting company, and the publisher Brill, sharing its data and expertise. Brill will be able to immediately put to use the project results to improve its internal processes and services. Furthermore, our results will be published in open source with a commercial-friendly license, in order to foster the adoption and future development of the framework by other publishers. Ultimately, our proposal is an example of industry innovation where, instead of scaling-up, we scale wide by creating a common resource which many small players can then use and expand upon.
Various studies suggest that the fashion and textile industry need to move away from traditional, extractive leadership models. Dreier et al. (2019) show how traditional top-down, hierarchical leadership approaches are not effective in fostering sustainability, and argued that a more collaborative, participative approach is needed to implement true and long-standing change. Moreover, research also shows how fashion and textile designers don’t see themselves as leaders but instead as ‘creators’ who employ others to manage their business and lead the team. This change in leadership is also necessary to achieve the European vision for Industry 5.0 (2022), which places the wellbeing of the worker at the centre of the production process. If we want to find solutions to the problems we face today, we need to change the way we think, lead, and do business. This calls for regenerative leadership which involves not only minimising negative impacts, but also actively working to restore and enhance the social ecological systems in which an industry operates. And since technology has become ubiquitous in every aspect of our lives (including business), it is important to explore its role in helping us become better regenerative leaders. With ReLead, The Hague University of Applied Sciences (THUAS) aims to amplify consortium partner i-did’s social and environmental impact. Since its inception in 2009, i-did has helped more than 400 people become gainfully employed while helping recycle almost 60.000 kgs of textile waste. This has been possible due to the transformation of i-did’s founder (Mireille Geijsen) from a creative designer, into a collaborative and mindful leader. The intended outcome of this project is to create a tech-enabled leadership transformation toolkit and leadership academy that helps creative designers transform into regenerative leaders.
Breda University of Applied Sciences, Master Imagineering programme students and FHGR, University of Graubuenden, Chur, students from the Digital Business Management, Bachelor programme follow a joint module that has three specific virtual components of interaction: the Experience Design Course, he Ideation Block (Design Hackathon) and the Sustainability and Impact generation (Implementation phase). Further on the joint interaction consists of: joint online lectures and workshops (on a weekly basis); joint online assignments (on a bi-weekly basis) supported by meet-up’s and consultancy sessions and joint online collaborative creative sessions and presentations (regularly).The content that the International Virtual Collaboration encompasses is: The VUCA world we are currently living in (Volatile, Uncertain, Complex and Ambiguous). Tools to innovate and flourish within and beyond VUCA; Experience and Transformation design through business and social canvas modeling; Innovation games and Appreciative Inquiry and Social and business impact generation and assessment.The final joint output that the students (in groups) create (the project is running until mid-January 2023 and then analysis and data processing until March 2023) will be a design concept/model for a specific case/organization with strategic implementation plan and recommendation report.
