Modeling and Simulation Methodologies for Digital Twin in Industry 4.0

The concept of Industry 4.0 represents an innovative vision of what will be the factory of the future. The principles of this new paradigm are based on interoperability and data exchange between dierent industrial equipment. In this context, Cyber- Physical Systems (CPSs) cover one of the main roles in this revolution. The combination of models and the integration of real data coming from the field allows to obtain the virtual copy of the real plant, also called Digital Twin. The entire factory can be seen as a set of CPSs and the resulting system is also called Cyber-Physical Production System (CPPS). This CPPS represents the Digital Twin of the factory with which it would be possible analyze the real factory. The interoperability between the real industrial equipment and the Digital Twin allows to make predictions concerning the quality of the products. More in details, these analyses are related to the variability of production quality, prediction of the maintenance cycle, the accurate estimation of energy consumption and other extra-functional properties of the system. Several tools [2] allow to model a production line, considering dierent aspects of the factory (i.e. geometrical properties, the information flows etc.) However, these simulators do not provide natively any solution for the design integration of CPSs, making impossible to have precise analysis concerning the real factory. Furthermore, for the best of our knowledge, there are no solution regarding a clear integration of data coming from real equipment into CPS models that composes the entire production line. In this context, the goal of this thesis aims to define an unified methodology to design and simulate the Digital Twin of a plant, integrating data coming from real equipment. In detail, the presented methodologies focus mainly on: integration of heterogeneous models in production line simulators; Integration of heterogeneous models with ad-hoc simulation strategies; Multi-level simulation approach of CPS and integration of real data coming from sensors into models. All the presented contributions produce an environment that allows to perform simulation of the plant based not only on synthetic data, but also on real data coming from equipments

Developing an Organisational Framework for Sustaining Virtual City Models

This research thesis presents an organisational framework for the management of virtual cities for hosts to adopt when seeking to produce and maintain a virtual city for use as a tool for urban planning related activities. The framework functions as an over-arching business model or structure, a general methodology for defining the organisational processes of virtual city enterprises. In achieving this aim, the research outlines standards and protocols for its creation, legal issues for its distribution and suggested processes for the update of 3D data. The diverse issues and needs of various stakeholders are addressed (Horne et al., 2006) in order to challenge the organisational issues and common concepts involved in creating, hosting and managing a city model (Voigt et al., 2004). Preliminary investigations showed that extensive research has been carried out on 3D and virtual city modelling techniques and their application, but the theoretical organisational and management issues for hosting 3D virtual city models needs to be addressed (Hamilton et al., 2005; Dokonal and Martens, 2001) through a ‘guiding source book’ for the creation and use of 3D city models(Bourdakis, 2004). This thesis explores the current state of virtual city modelling and its origins through literature research as well as an investigation into suitable business modelling practice. Pilot studies and an interview process with current virtual city hosts informed the research of current practice in the field. An organisational framework is subsequently put forward that combines elements from each of these investigations using a business model ‘canvas’ that can be adopted by current or prospective hosts and adapted to suit their circumstances, applications and users. The framework addresses the technical aspects of establishing a virtual city model, such as 3D data capture methods, spatial data infrastructure and modelling protocols in order to present a roadmap for virtual city enterprises. This correspondingly outlines a development from traditional and static datasets of geometry in ‘3D city models’ to more serviceable and user-centric ‘virtual city enterprises’. The organisational framework introduces 7 key areas that virtual city hosts should address for sustaining their enterprise that encompasses the technologies and expertise. Hence, this research makes significant contribution to knowledge by bringing together the many considerations that virtual city hosts must consider when creating a sustainable process to support urban planning

Transforming the museum-community nexus with technology : a virtual museum infrastructure for participatory engagement and management

Museums play an important role in society as the custodians of heritage, and advances in technology have brought about opportunities for curating, preserving and disseminating heritage through virtual museums. However, this is not matched by an understanding of how these technologies can support these functions, especially given the varying levels of resources that museums have at their disposal. To address this problem, a hybrid methodology which combines underpinning theory and practice has been adopted. Initial investigation of the problem takes place through a contextualisation of museology and heritage studies, followed by exploratory case studies that yield design objectives for a Virtual Museum Infrastructure (VMI). A design of the VMI is proposed based on these objectives, and the VMI is instantiated, deployed and evaluated in real-world scenarios using a combination of quantitative and qualitative techniques. The findings of this investigation demonstrate that the use of technology provides new opportunities for engagement with heritage, as experts and community members alike can create, curate and preserve content, which can then be disseminated in engaging ways using immersive, yet affordable technologies. This work therefore demonstrates how technology can be used to: (1) support museums in the creation, curation, preservation and dissemination of heritage, through a VMI that provides support for all the stages of the media life cycle, (2) facilitate active use, so that content that is created once can be reused on multiple platforms (for example on the web, on mobile apps and in on-site installations), and (3) encourage connectivity by linking up local museums using a location-aware interface and facilitates the consumption content using digital literacies available to the public. The aforementioned points, coupled with the system instantiations that demonstrate them, represent the contributions of this thesis

Advances in Computer Science and Engineering

The book Advances in Computer Science and Engineering constitutes the revised selection of 23 chapters written by scientists and researchers from all over the world. The chapters cover topics in the scientific fields of Applied Computing Techniques, Innovations in Mechanical Engineering, Electrical Engineering and Applications and Advances in Applied Modeling

Proceedings of the 10th international conference on disability, virtual reality and associated technologies (ICDVRAT 2014)

The proceedings of the conferenc