ISEP – CISTER – Livro, parte de livro, ou capítulo de livro
Permanent URI for this collection
Browse
Browsing ISEP – CISTER – Livro, parte de livro, ou capítulo de livro by Author "Albano, Michele"
Now showing 1 - 6 of 6
Results Per Page
Sort Options
- An Energy Flexibility Framework on The Internet of ThingsPublication . Le Guilly, Thibaut; Siksnys, Laurynas; Albano, Michele; Pedersen, Per; Stluka, Petr; Lino Ferreira, Luis; Skou, Arne; Pedersen, Torben; Olsen, PeturThis paper presents a framework for management of flexible energy loads in the context of the Internet of Things and the Smart Grid. The framework takes place in the European project Arrowhead, and aims at taking advantage of the flexibility (in time and power) of energy production and consumption offered by sets of devices, appliances or buildings, to help at solving the issue of fluctuating energy production of renewable energies. The underlying concepts are explained, the actors involved in the framework, their incentives and interactions are detailed, and a technical overview is provided. An implementation of the framework is presented, as well as the expected results of the pilots.
- Application system and services: design and implementation - a cook bookPublication . Delsing, Jerker; Albano, Michele; Ferreira, Luís Lino; Blomstedt, Frederik; Olovsson, Per; Varga, PalIn previous chapters local automation clouds and a SOA based architecture supporting the design and implementation of IoT based automation systems. This chapter is devoted to design and implement of application services. The ambition is to discuss: • Design of an Arrowhead Framework system • Implementation of such system and its services • Interoperability test
- Application system design – energy optimizationPublication . Albano, Michele; Castiñeira, Rodrigo; Desdouits, Chloé; Lino Ferreira, Luis; Le Guilly, Thibaut; Isasa, Inge; Jokinen, Jani; Kondratjevs, Kaspars; Kunicina, Nadezhda; Manero, Lorenzo; Milo, Aitor; Monge, Javier; Le Pape, Claude; Pedersen, Per; Pedersen, Torben; Olsen, Petur; Siksnys, Laurynas; Skou, Arne; Stluka, Petr; Zabasta, AnatolijsIn this chapter, we present a number of applications of the Arrowhead Framework with special attention to services related to awareness and optimization of energy consumption. First, we present the notion of FlexOffers as a general mechanism for describing energy flexibility. FlexOffers can be aggregated into larger flexibility units to be used as an Arrowhead service in the virtual market of energy [1]. This is followed by two examples on how to exploit such a flexibility service in the energy management of heatpumps and a campus building. Then we present two examples on how to exploit renewable energy to provide elevator services. Next, two examples of context aware services are described – smart lighting and smart car heating, and finally it is described how the Arrowhead Framework can play a role in the optimization of municipal service systems. In the final section, we indicate future work.
- Arrowhead Framework core systems and servicesPublication . Delsing, Jerker; Eliasson, Jens; Albano, Michele; Varga, Pal; Ferreira, Luís Lino; Derhamy, Hasan; Hegedus, Csaba; Puñal Pereira, Pablo; Carlsson, OscarIn chapter 2 local clouds was discussed followed by a local cloud automation architecture in chapter 3. The automation architecture supports the implementation of local automation clouds. Such implementation is supported by the Arrowhead Framework and its core Systems and Services. The Arrowhead Framework core systems enables the creation and operation of local clouds. First implementation of these systems and their services are described in detail in this chapter. There currently are two types of core services within the Arrowhead Framework: - Mandatory core systems - needed to establish the minimal local cloud - Automation support core systems – extending local cloud capabilities intending to provide support for the design and operation of local automation clouds an interaction between local clouds.
- The Arrowhead Framework architecturePublication . Delsing, Jerker; Varga, Pal; Ferreira, Luís Lino; Albano, Michele; Puñal Pereira, Pablo; Eliasson, Jens; Carlsson, Oscar; Derhamy, HasanThe objective of Arrowhead Framework architecture is to facilitate the creation of local automation clouds. Thus enabling local real time performance and security. Paired with simple and cheap engineering. While simultaneously enabling scalability through multi cloud interaction. The architecture addresses the move from large monolithic organisations towards multi-stakeholder cooperations where cooperation are fostered by market requirements. This is to support the high level topics in today’s society such as sustainability, flexibility, efficiency and competitiveness in production.
- The MANTIS book: Cyber Physical System Based Proactive Collaborative MaintenancePublication . Albano, Michele; Jantunen, Erkki; Papa, Gregor; Zurutuza, UrkoIn recent years, a considerable amount of effort has been devoted, both in industry and academia, to improving maintenance. Time is a critical factor in maintenance, and efforts are placed to monitor, analyze, and visualize machine or asset data in order to anticipate to any possible failure, prevent damage, and save costs. The MANTIS Book aims to highlight the underpinning fundamentals of Condition-Based Maintenance related conceptual ideas, an overall idea of preventive maintenance, the economic impact and technical solution. The core content of this book describes the outcome of the Cyber-Physical System based Proactive Collaborative Maintenance project, also known as MANTIS, and funded by EU ECSEL Joint Undertaking under Grant Agreement nº 662189. The ambition has been to support the creation of a maintenance-oriented reference architecture that support the maintenance data lifecycle, to enable the use of novel kinds of maintenance strategies for industrial machinery. The key enabler has been the fine blend of collecting data through Cyber-Physical Systems, and the usage of machine learning techniques and advanced visualization for the enhanced monitoring of the machines. Topics discussed include, in the context of maintenance: Cyber-Physical Systems, Communication Middleware, Machine Learning, Advanced Visualization, Business Models, Future Trends. An important focus of the book is the application of the techniques in real world context, and in fact all the work is driven by the pilots, all of them centered on real machines and factories. This book is suitable for industrial and maintenance managers that want to implement a new strategy for maintenance in their companies. It should give readers a basic idea on the first steps to implementing a maintenance-oriented platform or information system.