A goal-oriented approach for safety requirements specification

Robotic systems are developed to execute tasks with several types of risks associated. The possible damages that can affect both the working environment and the self-system lead us to consider that these systems are safety critical, i.e., systems where the strict management of safety aspects is vital. In this work, we introduce our proposal for the consideration of safety related requirements and their consequent trace to the desired final system architecture. For this reason, this paper gives a procedure for the identification and specification of safety requirements based on a goal oriented framework. Moreover, in this work other approaches have been considered and integrated to deal with well known safety standard recommendations. By means of an industrial case study, we show how this proposal can be used to consider safety requirements in tele-operated robotic systems and, by extrapolation, in other critical domainsThis work has been validated in the context of the EFTCoR project funded by the European Union

A BPM Lifecycle Plug-in for Modeling Methods Agility

Business Process Management literature has proposed several BPM lifecycles on a level of abstraction that is modeling method -agnostic, i.e. they consider the modeling language and tool support an underlying invariant or technological concern. While remaining on the same abstraction layer, we highlight a method agility requirement observed in commercial BPM consulting projects - concretely, it manifests as change requests for the modeling language or tool, from one lifecycle iteration to the next, leading to situations of model value co-creation as customer demands are assimilated in the modeling method. Based on a conceptualization of such situations, a lifecycle plug-in is proposed in the form of a methodology and associated tool support, allowing for responsive evolution of the adopted modeling method with impact on several lifecycle phases. Historical examples from the evolution of a BPM product are provided to illustrate and classify the demands that motivate the existence of this lifecycle plug-in

A Proposal for Deploying Hybrid Knowledge Bases: the ADOxx-to-GraphDB Interoperability Case

Graph Database Management Systems brought data model abstractions closer to how humans are used to handle knowledge - i.e., driven by inferences across complex relationship networks rather than by encapsulating tuples under rigid schemata. Another discipline that commonly employs graph-like structures is diagrammatic Conceptual Modeling, where intuitive, graphical means of explicating knowledge are systematically studied and formalized. Considering the common ground of graph databases, the paper proposes an integration of OWL ontologies with diagrammatic representations as enabled by the ADOxx metamodeling platform. The proposal is based on the RDF-semantics variant of OWL and leads to a particular type of hybrid knowledge bases hosted, for proof-of-concept purposes, by the GraphDB system due to its inferencing capabilities. The approach aims for complementarity and integration, providing agile diagrammatic means of creating semantic networks that are amenable to ontology-based reasoning

Towards Principles for Structuring and Managing Very Large Semantic Multidimensional Data Models

The management of semantic multidimensional data models plays an important role during the phases of development and maintenance of data warehouse systems. Unfortunately, this is not done with the necessary stress by now. Reasons might be seen in the plethora of semantic notations or the insufficient tool support for multidimensional modeling. The paper on hand provides experiences gained within a project with an industry partner of the telecommunications industry. Their problem is a very huge data warehouse with more than 400 data cubes and several hundred key performance indicators. We developed a repository-based solution for managing the semantic data models. Our lessons learned show that especially for very large data models there has to be a repository based solution as well as a clear concept on how to break them up into their component pars. The aim of our principles is to increase the understandability as well as the maintainability of semantic multidimensional data models

Engaged Scholarship in IS Research

Engaged scholarship (Van de Ven 2007) offers a grand opportunity to address key challenges within the Information Systems (IS) discipline in a novel and constructive way. To explore this opportunity, we adapt the principles of engaged scholarship and apply them to analyze Scandinavian IS research through the lens of Scandinavian Journal of Information Systems (SJIS). We consider the Scandinavian tradition based on review papers in SJIS; we review all research papers published in SJIS over the past 20 years; finally, we discuss the possible role of engaged scholarship in shaping the future of Scandinavian IS research. We conclude with implications of engaged scholarship for IS research and practice in general

A User Centric View of Lyee Requirements

National audienceThe paper deals with the modelling of Lyee user requirements and guidelines to support their capture. The Sorbonne contribution to the Lyee collaborative project aims to reduce the software development cycle to two explicit steps, requirements engineering and code generation by coupling the code generation features of LyeeALL with an interface to capture user requirements. The paper presents a 2-layer meta-model relating the set of concepts to capture user requirements to the set of concepts for the formulation of software requirements that are the input of the LyeeALL generation mechanism. It exemplifies the concepts with example and introduces the guidance support for capturing these user centric requirements