Task 2.3 is aimed at creating the reference framework for SYMBIOPTIMA, as backbone supporting the different R&I actions and as an overall picture in which all results of SYMBIOPTIMA find proper collocation. The Reference Framework, as final outcome of the task is, is presented at the beginning of the document (particularly in Section 3), so that the philosophy behind and the global approach are immediately delivered. Dedicated insightsto single parts of the reference framework are provided in subsequent sections, describing requirements and details for specific Work package activities and developments. The document is structured as follows: Section 3 describes SYMBIOPTIMA Reference Framework, providing information on major roles and interactions within the framework. Section 4 considers WP3 Reference Framework, introducing UNITY as base for ERMS development, compliant with ISA 95 and SOA Architecture. ERMS platform architectural proposal is delivered to the purpose. The Virtual repository is then addressed, as unique data federation element toward production, both in its structure and in possible Workflow. WP4/5 parts of Reference Framework are explained in Section5. Consequent to the interaction mechanisms, overall approach to Symbiotic SCM and DR-EAS are presented, as well as LCSA tool. Section 6 addresses WP6 Distributed smart monitoring system, both in terms of wireless technology for mesh network infrastructure and considering software technology for monitoring and real-time control of distributed smart nodes. HW and SW architecture of the smart nodes are discussed, together with power management aspects. Section 7 considers WP7-related Reference Framework. The context on Smart Thermal Energy Grid is presented, motivating the need and transitions from energy aware to unit aware management. The Energy consultant - as MPC based optimizer -and SIMS - as "SCADA" system for smart grid - are described in their roles and interaction mechanisms WP8 part of the Reference Framework, related to technological approach for PET symbiosis, is presented in section 8. Processing methods, performances, structure and mechanics are discussed, with attention also to microwave generation transport and subsystems, and thin film evaporator concept. Section 9 provides document conclusions.
D2.3 Project reference framework
Francesco Airoldi;Andrea Ballarino;Alessandro Brusaferri;Danial Ramin
2016
Abstract
Task 2.3 is aimed at creating the reference framework for SYMBIOPTIMA, as backbone supporting the different R&I actions and as an overall picture in which all results of SYMBIOPTIMA find proper collocation. The Reference Framework, as final outcome of the task is, is presented at the beginning of the document (particularly in Section 3), so that the philosophy behind and the global approach are immediately delivered. Dedicated insightsto single parts of the reference framework are provided in subsequent sections, describing requirements and details for specific Work package activities and developments. The document is structured as follows: Section 3 describes SYMBIOPTIMA Reference Framework, providing information on major roles and interactions within the framework. Section 4 considers WP3 Reference Framework, introducing UNITY as base for ERMS development, compliant with ISA 95 and SOA Architecture. ERMS platform architectural proposal is delivered to the purpose. The Virtual repository is then addressed, as unique data federation element toward production, both in its structure and in possible Workflow. WP4/5 parts of Reference Framework are explained in Section5. Consequent to the interaction mechanisms, overall approach to Symbiotic SCM and DR-EAS are presented, as well as LCSA tool. Section 6 addresses WP6 Distributed smart monitoring system, both in terms of wireless technology for mesh network infrastructure and considering software technology for monitoring and real-time control of distributed smart nodes. HW and SW architecture of the smart nodes are discussed, together with power management aspects. Section 7 considers WP7-related Reference Framework. The context on Smart Thermal Energy Grid is presented, motivating the need and transitions from energy aware to unit aware management. The Energy consultant - as MPC based optimizer -and SIMS - as "SCADA" system for smart grid - are described in their roles and interaction mechanisms WP8 part of the Reference Framework, related to technological approach for PET symbiosis, is presented in section 8. Processing methods, performances, structure and mechanics are discussed, with attention also to microwave generation transport and subsystems, and thin film evaporator concept. Section 9 provides document conclusions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
