Perspectives of Integrated “Next Industrial Revolution” Clusters in Poland and Siberia

Rozdział z: Functioning of the Local Production Systems in Central and Eastern European Countries and Siberia. Case Studies and Comparative Studies, ed. Mariusz E. Sokołowicz.The paper presents the mapping of potential next industrial revolution clusters in Poland and Siberia. Deindustrialization of the cities and struggles with its consequences are one of the fundamental economic problems in current global economy. Some hope to find an answer to that problem is associated with the idea of next industrial revolution and reindustrialization initiatives. In the paper, projects aimed at developing next industrial revolution clusters are analyzed. The objective of the research was to examine new industrial revolution paradigm as a platform for establishing university-based trans-border industry clusters in Poland and Siberia47 and to raise awareness of next industry revolution initiatives.Monograph financed under a contract of execution of the international scientific project within 7th Framework Programme of the European Union, co-financed by Polish Ministry of Science and Higher Education (title: “Functioning of the Local Production Systems in the Conditions of Economic Crisis (Comparative Analysis and Benchmarking for the EU and Beyond”)). Monografia sfinansowana w oparciu o umowę o wykonanie projektu między narodowego w ramach 7. Programu Ramowego UE, współfinansowanego ze środków Ministerstwa Nauki i Szkolnictwa Wyższego (tytuł projektu: „Funkcjonowanie lokalnych systemów produkcyjnych w warunkach kryzysu gospodarczego (analiza porównawcza i benchmarking w wybranych krajach UE oraz krajach trzecich”))

Learning roadmaps for Higher Education

An integrated platform for the support of teaching activities as been developed and deployed at the Aveiro Norte Polytechnic School of the University of Aveiro. In this paper we present an approach to Learning Roadmaps for Higher Education based on this platform. The aprend.e platform – Electronic Integrated System for Learning and Training - has at its core a Learning Management System with a number of plugins. It represents a new challenge for the University of Aveiro for higher education and is already being at its core is the concept of learning roadmaps that act upon two fundamental axes: education and learning. For the teachers, it aims at becoming a self-supporting tool that stimulates the organization and management of the course materials (lectures, presentations, multimedia content, and evaluation materials, amongst others). For the students, the learning roadmap aims at promoting self-study and supervised study, endowing the pupil with the capabilities to find the relevant information and to capture the concepts in the study materials. The outcome will be a stimulating learning process together with an organized management of those materials

Methodology for Designing Decision Support Systems for Visualising and Mitigating Supply Chain Cyber Risk from IoT Technologies

This paper proposes a methodology for designing decision support systems for visualising and mitigating the Internet of Things cyber risks. Digital technologies present new cyber risk in the supply chain which are often not visible to companies participating in the supply chains. This study investigates how the Internet of Things cyber risks can be visualised and mitigated in the process of designing business and supply chain strategies. The emerging DSS methodology present new findings on how digital technologies affect business and supply chain systems. Through epistemological analysis, the article derives with a decision support system for visualising supply chain cyber risk from Internet of Things digital technologies. Such methods do not exist at present and this represents the first attempt to devise a decision support system that would enable practitioners to develop a step by step process for visualising, assessing and mitigating the emerging cyber risk from IoT technologies on shared infrastructure in legacy supply chain systems

CHORUS Deliverable 4.5: Report of the 3rd CHORUS Conference

The third and last CHORUS conference on Multimedia Search Engines took place from the 26th to the 27th of May 2009 in Brussels, Belgium. About 100 participants from 15 European countries, the US, Japan and Australia learned about the latest developments in the domain. An exhibition of 13 stands presented 16 research projects currently ongoing around the world

New Hampshire University Research and Industry Plan: A Roadmap for Collaboration and Innovation

This University Research and Industry plan for New Hampshire is focused on accelerating innovation-led development in the state by partnering academia’s strengths with the state’s substantial base of existing and emerging advanced industries. These advanced industries are defined by their deep investment and connections to research and development and the high-quality jobs they generate across production, new product development and administrative positions involving skills in science, technology, engineering and math (STEM)

Business models for sustained ehealth implementation: lessons from two continents

There is general consensus that Computers and Information Technology have the potential to enhance health systems applications, and many good examples of such applications exist all over the world. Unfortunately, with respect to eHealth and telemedicine, there is much disillusionment and scepticism. This paper describes two models that were developed separately, but had the same purpose, namely to facilitate a holistic approach to the development and implementation of eHealth solutions. The roadmap of the Centre for eHealth Research (CeHRes roadmap) was developed in the Netherlands, and the Telemedicine Maturity Model (TMMM) was developed in South Africa. The purpose of this paper is to analyse the commonalities and differences of these approaches, and to explore how they can be used to complement each other. The first part of this paper comprises of a comparison of these models in terms of origin, research domain and design principles. Case comparisons are then presented to illustrate how these models complement one another

Towards the development of the framework for inter sensing enterprise architecture

[EN] Inter-enterprise architecture (IEA) is a new concept that seeks to apply the tools and methodologies of enterprise architecture (EA) in a collaborative context, in order to model collaborative organizations in an inclusive manner. According to the main enterprise architectures proposed to this point, an EA should be conformed at least for a framework, a methodology and a modelling language. Sensing enterprise (SE) is an attribute of an enterprise or a network that allows it to react to business stimuli originating on the Internet. These fields have come into focus recently, and there is not evidence of the use of IEA for modelling a SE, while finding an interesting gap to work on. Thus, this paper proposes an initial framework for inter sensing enterprise architecture (FISEA), which seeks to classify, organize, store and communicate, at the conceptual level, all the elements for inter-sensing enterprise architectures and their relationships, ensuring their consistency and integrity. This FISEA provides a clear idea about the elements and views that create collaborative network and their inter-relationships, based on the support of Future Internet.This work was supported by the European Commission FP7 UNITE Project, through its Secondment Programme and the Universitat Politecnica de Valencia ADENPRO-PJP project (ref. SP20120703).Vargas, A.; Cuenca, L.; Boza, A.; Sacala, I.; Moisescu, M. (2016). Towards the development of the framework for inter sensing enterprise architecture. Journal of Intelligent Manufacturing. 27(1):55-72. https://doi.org/10.1007/s10845-014-0901-zS5572271Adaba, G., Rusu, L., & Mekawy, M. (2010). Business-IT alignment in trade facilitation: A case study. In organizational, business, and technological aspects of the knowledge society. Communications in Computer and Information. Science, 44(112), 146–154.Afsarmanesh, H., & Msanjila, S. (2008). Inter-organizational trust in VBEs. In L. Camarinha-Matos, H. Afsarmanesh, & M. Ollus (Eds.), Methods and tools for collaborative networked organizations (pp. 91–118). New York: Springer.Afsarmanesh, H., Camarinha-Matos, L., & Ermilova, E. (2008). VBE reference framework. In L. Camarinha-Matos, H. Afsarmanesh, & M. Ollus (Eds.), Methods and tools for collaborative networked organizations (pp. 35–68). New York: Springer.Arango, M., Londoño, J., & Zapata, J. (2010). Arquitectura empresarial- Una visión general. Revista Ingenierías Universidad de Medellín, 9(16), 101–111.Audy, J., Lehoux, N., & D’Amours, S. (2012). A framework for an efficient implementation of logistics collaborations. International Transactions in Operational Research, 19(5), 633–657.Boza, A., Cuenca, L., Poler, R., Michaelides, Z., & Systems, Enterprise Information. (2014). The interoperability force in the ERP field. Enterprise Information Systems,. doi: 10.1080/17517575.2013.866697Camarinha-Matos, L., & Afsarmanesh, H. (2005). Collaborative networks: A new scientific discipline. Journal of Intelligent Manufacturing, 16(4–5), 439–452.Camarinha-Matos, L., & Afsarmanesh, H. (2008). Collaborative networks: Reference modeling. New York: Springer.Camarinha-Matos, L., Afsarmanesh, H., & Ollus, M. (2008). ECOLEAD and CNO base concepts. In L. M. Camarinha-Matos, H. Afsarmanesh, & M. Ollus (Eds.), Methods and tools for collaborative networked organizations (pp. 35–68). New York: Springer.Chalmeta, R., & Grangel, R. (2003). ARDIN extension for virtual enterprise integration. The Journal of Systems and Software, 67(3), 141–152.Chen, D., Vallespir, B., & Doumeingts, G. (1997). GRAI integrated methodology and its mapping onto generic enterprise reference architecture and methodology. Computers in Industry, 33(2), 387–394.Choi, Y., Kang, D., Chae, H., & Kim, K. (2008). An enterprise architecture framework for collaboration of virtual enterprise chains. The International Journal of Advanced Manufacturing Technology, 35(11–12), 1065–1078.CIMOSA Asociation. (1996). CIMOSA Primer on key concepts, purpose and business value.Council of Supply Chain Management Professionals CSCMP. (2010). CSCMP. Glosary of terms. from http://cscmp.org/resources-research/glossary-terms . Accessed 9 February 2013Coutinho, C., Cretan, A., Ferreira, C., Ghodous, P., & Jardim-Goncalves, R. (2014). Service-based negotiation for advanced collaboration in enterprise networks. Journal of Intelligent Manufacturing,. doi: 10.1007/s10845-013-0857-4Cuenca, L. (2009). Marco arquitectónico para la propuesta IE-GIP. Extensión de la arquitectura CIMOSA. Aplicación a una empresa del sector cerámico. Tesis Doctoral Universidad Politecnica de Valencia.Cuenca, L., Boza, A., & Ortiz, A. (2011). An enterprise engineering approach for the alignment of business and information technology strategy. International Journal of Computer Integrated Manufacturing, 24(11), 974–992.Cuenca, L., Ortiz, A., & Boza, A. (2005). Arquitectura de Empresa. Visión General. Gijón: IX Congreso de Ingeniería de Organización.Dong, X., Liu, Q., & Yin, D. (2008). Business performance, business strategy, and information system strategic alignment: An empirical study on Chinese firms. Tsinghua Science and Technology, 13(3), 348–354.Ermilova, E., & Afsarmanesh, H. (2007). Modeling and management of profiles and competencies in VBEs. Journal of Intelligent Manufacturing, 18(5), 561–586.Estimali, H., Gardesh, H., & Sikari, S. (2010). Validating ITIL maturity to strategic business-IT alignment. In 2nd International conference on computer technology and development (ICCTD 2010).European Commission European Society and Media. (2007). Dygital Business Ecosystems. In F. Nachira, P. Dini, A. Nicolai, M. Le Louarn, & L. Rivera (Eds.). http://www.digital-ecosystems.org/book/ . Luxembourg: Office for Official Publications of the European Communities. Accessed 15 October 2012Executive Branch of the U.S. Federal Government. (2012). A Common Approach to Federal Enterprise Architecture. The White House. http://www.whitehouse.gov/sites/default/files/omb/assets/egov_docs/common_approach_to_federal_ea.pdf . Accessed 13 August 2013Franco, R., Gomez, P., Ortiz, A., & Navarro, R. (2012). Integrated approach for interoperability in collaborative networs and service-based ecosystems. In R. Poler, G. Doumeingts, B. Katzy, & R. Chalmeta (Eds.), Enterpise interoperability V (pp. 329–339). London: Springer.Force, I. F. I. P.-I. F. A. C. Task. (1998). GERAM: Generalised enterprise reference architecture and methodology. International Federation for Information Processing, 1(2), 30.Future Internet Enterprise Systems (FInES) Cluster. (2012). FInES Research Roadmap 2025. From http://cordis.europa.eu/fp7/ict/enet/documents/fines-research-roadmap-v30_en.pdf . Accessed 13 October 2013Henderson, J., & Venkatraman, N. (1993). Strategic alignment: Leveraging information technology for transforming organizations. IBM Systems Journal, 32(1), 472–484.Hu, Q., & Huang, D. (2006). Using the balanced scorecard to achieve sustained IT-business alignment: A case study. Communications of the Association for Information Systems, 17, 181–204.ISO 15704. (2000). Industrial automation systems–Requirements for enterprise-reference architectures and methodologies.ISO/CEN 19439. (2006). Enterprise integration–Framework for enterprise modelling.Kilger, C., Reuter, B., & Stadtler, H. (2008). Collaborative planning. In H. Stadtler & C. Kilger (Eds.), Supply chain management and advanced planning-concepts, models software and case studies (pp. 263–284). Berlin, Heidelberg: Springer.Kosanke, K., Vernadat, F., & Zelm, M. (1999). CIMOSA: Enterprise engineering and integration. Computers in Industry, 40(2), 83– 97.Lankhorst, M. (2009). Enterprise architecture at work: Modelling, communication and analysis. New York: Springer.Luftman, J. (2004). Assessing business-IT alignment maturity. Communications of the Association for Information Systems, 4, 99.Maes, R. (1999). Reconsidering information management through a generic framework. Amsterdam: Universiteit van Amsterdam, Department of Accountancy & Information Management.Mehandjiev, N., & Grefen, P. (2010). Dynamic business process formation for instant virtual enterprises. London.Mekawy, M., Rusu, L., & Ahmed, N. (2009). Business and IT alignment: An evaluation of strategic alignment models. In best practices for the knowledge society. Knowledge, Learning, Development and Technology for All, 49, 447–455.Moisescu, M., Sacala, I., Stanescu, A., & Serbanescu, C. (2012). Towards integration of knowledge extraction form process interoperability in future internet enterprise systems. Information Control Problems in Manufacturing, 14(1), 1458–1463.Ortiz, A. (1998). Propuesta para el Desarrollo de Programas de Integración Empresarial en Empresas Industriales. Aplicación a una Empresa del Sector Cerámico: Tesis Doctoral Universidad Politécnica de Valencia.Palmer, C., Harding, J., Swarnkar, R., Das, B., & Young, R. (2013). Generating rules from data mining for collaboration moderator services. Journal of Intelligent Manufacturing, 24, 313–330.Pijpers, V., Gordijn, J., & Akkermans, H. (2009). Aligning information system design and business strategy–A starting internet company. In the practice of enterprise modeling. Lecture Notes in Business Information Processing, 15, 47–61.Plaza, J., Burgos, J., & Carmona, E. (2010). Measuring stakeholder integration: Knowledge, interaction and adaptational behavior dimensions. Journal of Business Ethics, 93, 419–442.Romero, D., Galeano, N., & Molina, A. (2010). Virtual organisation breeding environments value system and its elements. Journal of Intelligent Manufacturing, 21(3), 267–286.Sacala, I., Moisescu, M., & Repta, D. (2013). Towards the development of the future internet based enterprise in the context of cyber-physical systems. In 2013 19th International conference on control systems and computer science (CSCS), (pp. 405–412).Santana, R., Daneva, M., van Eck, P., & Wieringa, R. (2008). Towards a business-IT aligned maturity model for collaborative networked organizations. In 12th International conference on advanced information systems engineering.Schekkerman, J. (2004). Enterprise architecture validation. Achieving business-aligned and validated entreprise architectures. Institute For Enterprise Architecture Developments (IFEAD). http://enterprise-architecture.info/Images/Extended%20Enterprise/Extended%20Enterprise%20Architecture2.htm . Accessed 10 October 2011Schekkerman, J. (2006). Extended enterprise architecture framework essentials guide. Retrieved 2012 from Institute For Enterprise Architecture Developments (IFEAD). http://enterprise-architecture.info/Images/E2AF/Extended%20Enterprise%20Architecture%20Framework%20Essentials%20Guide%20v1.5.pdf . Accessed 23 September 2012Stadtler, H. (2009). A framework for collaborative planning and state-of-the-art. OR Spectrum, 31, 5–30.Stelzer, D. (2010). Enterprise architecture principles: Literature review and research directions. Service-Oriented Computing. Lecture Notes in Computer Science, pp. 12–21.Swarnkar, R., Choudhary, A., Harding, J., Das, B., & Young, R. (2012). A framework for collaboration moderator services to support knowledge based collaboration. Journal of Intelligent Manufacturing, 23, 2003–2023.The, OPEN GROUP. (2011). TOGAF. http://www.opengroup.org/togaf/ . Accessed 18 November 2011U.S. Department of the Treasury. (2000). Treasury enterprise architecture framework. http://www.treasury.gov/Pages/default.aspx . Accessed 23 November 2011United States Department of Defense. (2010). Department of defense architecture framework. http://dodcio.defense.gov/dodaf20/dodaf20_capability.aspx . Accessed 28 November 2011Vargas, A., Boza, A., & Cuenca, L. (2011). Towards interoperability through Inter-enterprise collaboration architectures. In R. Meersman, T. Dillon, & P. Herrero (Eds.), On the move to meaningful internet systems: OTM 2011 workshops. Lecture Notes in Computer Science, Vol. 7046, pp. 102–111.Vargas, A., Boza, A., Cuenca, L., & Sacala, I. (2013a). Inter-enterprise architecture and internet of the future. Technological Innovation for the Internet of Things, 394, 25–32.Vargas, A., Boza, A., Cuenca, A., & Ortiz, A. (2013b). Towards a framework for inter-enterprise architecture to boost collaborative networks. In On the move to meaningful internet systems: OTM 2013 workshops. Lecture Notes in Computer Science, 8186, 179–188.Vargas, A., Boza, A., Cuenca, L., & Ortiz, A. (2014). The importance of strategic alignment in enterprise collaboration. In J. C. Prado-Prado & J. García-Arca (Eds.), Annals of industrial engineering 2012 (pp. 71–78). London: Springer.Vernadat, F. (2003). Enterprise modelling and integration: From fact modelling to enterprise interoperability. Enterprise inter- and intra-organizational integration: Building international consensus. Series: IFIP Advances in Information and Communication Technology, 108.Vesterager, J., Tølle, M., & Bernus, P. (2002). VERA: Virtual enterprise reference. GLOBEMEN final plenary: In GMNBook.Wang, X., Zhou, X., & Jiang, L. (2008). A method of business and IT alignment based on enterprise architecture. In IEEE international conference on service operations and logistics, and informatics, pp. 740–745.Zachman, J. (1997). Enterprise architecture: The issue of the century. Database Programming and Design, 1–13

Dynamic real-time risk analytics of uncontrollable states in complex internet of things systems, cyber risk at the edge

The Internet of Things (IoT) triggers new types of cyber risks. Therefore, the integration of new IoT devices and services requires a self-assessment of IoT cyber security posture. By security posture this article refers to the cybersecurity strength of an organisation to predict, prevent and respond to cyberthreats. At present, there is a gap in the state of the art, because there are no self-assessment methods for quantifying IoT cyber risk posture. To address this gap, an empirical analysis is performed of 12 cyber risk assessment approaches. The results and the main findings from the analysis is presented as the current and a target risk state for IoT systems, followed by conclusions and recommendations on a transformation roadmap, describing how IoT systems can achieve the target state with a new goal-oriented dependency model. By target state, we refer to the cyber security target that matches the generic security requirements of an organisation. The research paper studies and adapts four alternatives for IoT risk assessment and identifies the goal-oriented dependency modelling as a dominant approach among the risk assessment models studied. The new goal-oriented dependency model in this article enables the assessment of uncontrollable risk states in complex IoT systems and can be used for a quantitative self-assessment of IoT cyber risk posture