Investigating business process elements: a journey from the field of Business Process Management to ontological analysis, and back

Business process modelling languages (BPMLs) typically enable the representation of business processes via the creation of process models, which are constructed using the elements and graphical symbols of the BPML itself. Despite the wide literature on business process modelling languages, on the comparison between graphical components of different languages, on the development and enrichment of new and existing notations, and the numerous definitions of what a business process is, the BPM community still lacks a robust (ontological) characterisation of the elements involved in business process models and, even more importantly, of the very notion of business process. While some efforts have been done towards this direction, the majority of works in this area focuses on the analysis of the behavioural (control flow) aspects of process models only, thus neglecting other central modelling elements, such as those denoting process participants (e.g., data objects, actors), relationships among activities, goals, values, and so on. The overall purpose of this PhD thesis is to provide a systematic study of the elements that constitute a business process, based on ontological analysis, and to apply these results back to the Business Process Management field. The major contributions that were achieved in pursuing our overall purpose are: (i) a first comprehensive and systematic investigation of what constitutes a business process meta-model in literature, and a definition of what we call a literature-based business process meta-model starting from the different business process meta-models proposed in the literature; (ii) the ontological analysis of four business process elements (event, participant, relationship among activities, and goal), which were identified as missing or problematic in the literature and in the literature-based meta-model; (iii) the revision of the literature-based business process meta-model that incorporates the analysis of the four investigated business process elements - event, participant, relationship among activities and goal; and (iv) the definition and evaluation of a notation that enriches the relationships between activities by including the notions of occurrence dependences and rationales

Alignment of Partnering with Construction IT: Exploration and Synthesis of network strategies to integrate BIM-enabled Supply Chains

Supply Chain Management (SCM) and Building Information Modelling (BIM) are seen as innovations that can manage complexities in construction by focusing on integrating processes and products respectively. Whereas these two innovations have been considered compatible, their practical combi-nation has been mainly anecdotal. The Netherlands was the locale of this study, where both SCM and BIM have been popular approaches. The research objective is to explore their real-world combination and propose strategies for the alignment of SCM and BIM, by viewing Supply Chain (SC) partnering as the inter-organisational proxy of SCM. The main question is: “How to align the SCM philosophy with BIM technologies to achieve integration in the construction industry? What aspects contribute to this alignment?â€. The methodology was mixed and both qualitative and quantitative data were analysed. The overarching method was case study research and the unit of analysis was the firm, also referred to as ‘actor’. After a semi-chronological review of the relevant literature, the two constructs of SCM and BIM were found interdependent in product-, process-, and actor-related (P/P/A) dimensions. The study consisted of four other consecutive studies. First, empirical insights into the practical implementation of SC partnering and BIM were obtained via the exploration of five cases. Second, a conceptual model for the quantitative analysis of the product-, process-, and actor-related dimensions was designed. Third, this model and mixed methods were applied to two polar (ex-treme) cases to analyse the contractual (typically SC-related), digital (typically BIM-related), and informal interactions among the involved actors. Fourth, an additional theoretical exploration of the BIM-enabled SC partnerships took place with focusing also on intra-organisational relations within the involved firms. After the four studies, the findings were systematically combined to cre-ate the theoretical synthesis, i.e. generate theory. Three consecutive steps of ‘construct’, ‘internal’, and ‘external’ validity took place after the synthesis, to define the transferability of findings. The systematic combination of findings deduced two routes to achieve SC integration in construction: (a) product-related (emphasis on BIM tools), and (b) actor-related (emphasis on SCM philosophy). The two observed routes to SC integration emerged from the data of the polar cases. Two com-plementary sets of strategies for SC integration were derived afterwards. These strategies could ease the identification of which route is the ‘closest fit’ to SC integration, and then support the decision-making of how to pursue it. As the concept of BIM is currently a hot topic, it might be wise to undertake a ‘product-related’ route to integration and gradually introduce strategies from the ‘actor-related’ route. However, the ‘actor-related’ route could attain long-term integration and thus, long-lasting relations among the multi-actor networks. The key aspects of the alignment of partnering with construction IT for BIM-enabled SC partnerships are: - The identification of whether the SC complexity is of process-, product- or actor-related nature;- The deployed BIM collaboration patterns, i.e. ad-hoc, linear or distributed;- The SC coordination mechanisms, e.g. centralised or decentralised;- The relation between formal and informal aspects, e.g. symmetric or asymmetric;- The emerging intra-organisational relations due to BIM and SCM implementation;- The hierarchical level that BIM-enabled SC partnership decision-making pertains. As the construction industry evolves into an information-driven sector, the alignment of construc-tion IT with inter-organisational management is preeminent for managing the inherent com-plexities of the industry. In parallel, embracing inter-organisational approaches for information management such as BIM is a promisingway forward for SCM and construction management

Secure*BPMN - a graphical extension for BPMN 2.0 based on a reference model of information assurance & security

The main contribution of this thesis is Secure*BPMN, a graphical security modelling extension for the de-facto industry standard business process modelling language BPMN 2.0.1. Secure*BPMN enables a cognitively effective representation of security concerns in business process models. It facilitates the engagement of experts with different backgrounds, including non-security and nontechnical experts, in the discussion of security concerns and in security decision-making. The strength and novelty of Secure*BPMN lie in its comprehensive semantics based on a Reference Model of Information Assurance & Security (RMIAS) and in its cognitively effective syntax. The RMIAS, which was developed in this project, is a synthesis of the existing knowledge of the Information Assurance & Security domain. The RMIAS helps to build an agreed-upon understanding of Information Assurance & Security, which experts with different backgrounds require before they may proceed with the discussion of security issues. The development process of the RMIAS, which was made explicit, and the multiphase evaluation carried out confirmed the completeness and accuracy of the RMIAS, and its suitability as a foundation for the semantics of Secure*BPMN. The RMIAS, which has multiple implications for research, education and practice is a secondary contribution of this thesis, and is a contribution to the Information Assurance & Security domain in its own right. The syntax of Secure*BPMN complies with the BPMN extensibility rules and with the scientific principles of cognitively effective notation design. The analytical and empirical evaluations corroborated the ontological completeness, cognitive effectiveness, ease of use and usefulness of Secure*BPMN. It was verified that Secure*BPMN has a potential to be adopted in practice

Safety and Reliability - Safe Societies in a Changing World

The contributions cover a wide range of methodologies and application areas for safety and reliability that contribute to safe societies in a changing world. These methodologies and applications include: - foundations of risk and reliability assessment and management - mathematical methods in reliability and safety - risk assessment - risk management - system reliability - uncertainty analysis - digitalization and big data - prognostics and system health management - occupational safety - accident and incident modeling - maintenance modeling and applications - simulation for safety and reliability analysis - dynamic risk and barrier management - organizational factors and safety culture - human factors and human reliability - resilience engineering - structural reliability - natural hazards - security - economic analysis in risk managemen