Common use of Table of Figures Clause in Contracts

Table of Figures. Figure 1: ▇▇▇▇▇▇ architecture for OCF v1.X 14 Figure 2: ▇▇▇▇▇▇ architecture 16 Figure 3: ▇▇▇▇▇▇ intra-federation 16 Figure 4: SFA drivers inside the AMs 18 Figure 5: Internal structure of SFA federation 18 Figure 6: FIBRE top-authorities 26 Figure 7: Fibre Federation Portal 26 Figure 8: FIBRE Federation Control Plane 27 Figure 9: LDAP and SFA Registry Synchronization 27 1 Acronyms‌ AM Aggregate Manager API Application Programming Interface CDS Content Data Server CH Clearing House CN-DS Communication Networks and/or Distributed System CNPq Brazil’s Council for Scientific and Technological Development CPqD Telecommunications Research and Development Centre EC Experiment Controller ED Experiment Description EGW Export resource Gateway EU European Union FEDERICA Federated E-infrastructure Dedicated to European Researchers Innovating in Computing network Architectures FI Future Internet FIBRE Future Internet testbeds / experimentation between Brazil and Europe FIRE Future Internet Research & Experimentation FOAM Open Flow Aggregate Manager FP7 Seventh Framework Programme FPGA Field Programmable Gate Array Gbps Gigabit bits per second GENI Global Environment for Network Innovations GID GENI Identifier GMPLS Generalized MultiProtocol Label Switching GW Gateway HTTP HyperText Transfer Protocol ICT Information and Communication Technologies IGW Import Gateway (Aggregate Manager) IP Internet Protocol I&M Instrumentation and Measurements LDAP Lightweight Directory Access Protocol MS Milestone NICTA Australia’s Information Communications Technology Research Centre NITOS Network Implementation Testbed using Open Source platforms NOC Network Operations Centre NTP Network Time Protocol OAR Versatile Resource and Task Manager OCF ▇▇▇▇▇▇ Control Framework OEDL OMF Experiment Description Language OF OpenFlow ▇▇▇▇▇▇ OpenFlow in Europe: Linking Infrastructure and Applications OGF Open Grid Forum OMF cOntrol, Management and Measurement Framework OML ORBIT Measurement Library ORBIT Open-Access Research Testbed for Next-Generation Wireless Networks ORCA Open Resource Control Architecture OS Operation System PLE PlanetLab Europe R Repository RC Resource Controller REST Representational State Transfer RFC Request for Comments RM Resource Manager RNP RSpec National Research and Education Network Resource Specification SensLab Very Large Scale Open Wireless Sensor Network Testbed SFA Slice-based Federation Architecture SM Slice Manager SQL Structures Query Language UFF Federal Fluminense University UFPA Federal University of Pará UFRJ Federal University of Rio de Janeiro URL Uniform Resource Locator USP University of São Paulo VPN Virtual Private Network VT Virtual Technology XML eXtensible Markup Language XMLRPC XML Remote Procedure Call WDM Wavelength Division Multiplexing Wi-Fi Wireless Fidelity WiMax Worldwide Interoperability for Microwave Access WP Work Package WP2 Building and operating the Brazilian facility WP5 Development of technology pilots and showcases 2 Scope‌ This document is the result of the task T4.2 – Contribution to the Federation framework of WP4 of the FIBRE project. The objective of this task is to select the right solutions for federation and customize them to the EU/Brazil facility. The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [▇▇▇▇▇▇▇ 1997].

Table of Figures. Figure 1: ▇▇▇▇▇▇ architecture for OCF v1.X 14 ViWaS telematics at a glance 7 Figure 2: ▇▇▇▇▇▇ architecture 16 Relevant KPIs for WP7.3 9 Figure 3: ▇▇▇▇▇▇ intra-federation 16 New telematics housing without front lid (CATIA drawing) 11 Figure 4: SFA drivers inside the AMs 18 Front side of battery and electronics housing (CATIA drawing) 11 Figure 5: Internal structure of SFA federation 18 Telematics housings in a 1.2 m deep water basin 11 Figure 6: FIBRE top-authorities 26 Housings with pressure transducer in the climate chamber 12 Figure 7: Fibre Federation Portal 26 Falling mass and housing probe under the vertical test rig 12 Figure 8: FIBRE Federation Control Plane 27 Functionality of new ViWaS telematics 13 Figure 9: LDAP 3 Axis shock detection with configurable thresholds 15 Figure 10: Telematics receives data from various smart sensors 16 Figure 11: WPAN radio communication PCB 17 Figure 12: Modular telematics housing with different mounting holders 17 Figure 13: Telematics mounted with different holders and SFA Registry Synchronization 27 1 Acronyms‌ AM Aggregate Manager API different mounting methods on a shock and vibration test rig 18 3D Three-dimensional Abb. Description of Abbreviation °c Celsius CATIA Computer Aided Three-Dimensional Interactive Application Programming Interface CDS Content CREAM Customer-driven Rail-freight services on a European mega-corridor based on Advanced business and operating Models (FP 6 project) CSD Circuit Switched Data Server CH Clearing House CNDB Deutsche Bahn EGNOS European Geostationary Navigation Overlay Service EMC Electromagnetic compatibility FDMA Frequency Division Multiple Access Hz Hertz IABG Industrieanlagen-DS Communication Networks and/or Distributed Betriebsgesellschaft g Gravitional force GLONASS Globalnaya navigatsionnaya sputnikovaya sistema GNSS Global Navigation Satellite System CNPq Brazil’s Council GPRS General Packet Radio Service GPS Global Positioning System GSM Global System for Scientific and Technological Development CPqD Telecommunications Research and Development Centre EC Experiment Controller ED Experiment Description EGW Export resource Gateway EU European Union FEDERICA Federated E-infrastructure Dedicated to European Researchers Innovating in Computing network Architectures FI Future Internet FIBRE Future Internet testbeds / experimentation between Brazil and Europe FIRE Future Internet Research & Experimentation FOAM Open Flow Aggregate Manager FP7 Seventh Framework Programme FPGA Field Programmable Gate Array Gbps Gigabit bits Mobile Communications kbps Kilobit per second GENI Global Environment for Network Innovations GID GENI Identifier GMPLS Generalized MultiProtocol Label Switching GW Gateway HTTP HyperText Transfer Protocol ICT Information and Communication Technologies IGW Import Gateway kg Kilogramme km Kilometre LED Light-emitting diode m Metre M2M Machine-to-Maschine m/s Metre per second Mhz Megahertz MSAS Multi-functional Satellite Augmentation System PCB Printed Circuit Board (Aggregate Managerelectronic board) IP Internet Protocol I&M Instrumentation and Measurements LDAP Lightweight Directory Access Protocol MS Milestone NICTA Australia’s Information Communications Technology Research Centre NITOS Network Implementation Testbed using Open Source platforms NOC Network Operations Centre NTP Network Time Protocol OAR Versatile Resource and Task Manager OCF ▇▇▇▇▇▇ Control Framework OEDL OMF Experiment Description Language OF OpenFlow ▇▇▇▇▇▇ OpenFlow in Europe: Linking Infrastructure and Applications OGF Open Grid Forum OMF cOntrol, Management and Measurement Framework OML ORBIT Measurement Library ORBIT Open-Access Research Testbed for Next-Generation Wireless Networks ORCA Open Resource Control Architecture OS Operation System PLE PlanetLab Europe R Repository RC Resource Controller REST Representational State Transfer RFC Request for Comments RM Resource Manager RNP RSpec National Research and Education Network Resource Specification SensLab Very Large Scale Open Wireless Sensor Network Testbed SFA SliceSBAS Satellite-based Federation Architecture SM Slice Manager SQL Structures Query Language UFF Federal Fluminense University UFPA Federal University augmentation system SMS Short Message Service tkm tonne-kilometre UIC International Union of Pará UFRJ Federal University of Rio de Janeiro URL Uniform Resource Locator USP University of São Paulo VPN Virtual Private Network VT Virtual Technology XML eXtensible Markup Language XMLRPC XML Remote Procedure Call WDM Wavelength Division Multiplexing Wi-Fi Railways v Velocity W Watt WAAS Wide Area Augmentation System WPAN Wireless Fidelity WiMax Worldwide Interoperability for Microwave Access WP Work Package WP2 Building and operating the Brazilian facility WP5 Development of technology pilots and showcases 2 Scope‌ This document is the result of the task T4.2 – Contribution to the Federation framework of WP4 of the FIBRE project. The objective of this task is to select the right solutions for federation and customize them to the EU/Brazil facility. The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [▇▇▇▇▇▇▇ 1997].Personal Area Network