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Internet of Things

Internet of Things. Challenges of 21 st century and Technological innovation. Boris.Kantsepolsky@motorolasolutions.com. February -2011. The Challenge. World Population Growth Trends. Energy Challenges . Source: EIA – US Energy Information Administration. Technological Progress.

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Internet of Things

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  1. Internet of Things Challenges of 21st century and Technological innovation Boris.Kantsepolsky@motorolasolutions.com February -2011

  2. The Challenge

  3. World Population Growth Trends

  4. Energy Challenges Source: EIA – US Energy Information Administration

  5. Technological Progress

  6. Future Internet Source: Jesús Bernat Vercher, Telefonica

  7. Internet of Things Source: Jesús Bernat Vercher, Telefonica

  8. Internet of Things (2) Source: Jesús Bernat Vercher, Telefonica

  9. IoT and Energy

  10. IoT Applications/Services Source: Osamu Kagami et al, NTT Network Innovation Laboratories

  11. Smart Grid Highlights

  12. The Need • The evolution of the electricity grid in Europe is a key challenge for Europe's electricity networks. • The current distribution infrastructures do not enable a sufficient level of control, monitoring and management of the grid. • The integration of renewable energies and local generation represents a key technical challenge. • ICT can play a major role in reducing losses, increasing efficiency and managing ever increasing local energy sources. • The successful combination of smart processes (e.g. demand side/response management, real-time consumption management) and smart technologies (e.g. smart meters, home energy management devices…) will enable to deliver the expected energy reduction. Objective ICT-2011.6.1 Smart Energy Grids

  13. Energy Saving Information Platform (ENERsip) ICT infrastructure for Energy-positive buildings and neighborhoods ICT 4.6.3 – ICT for Energy Efficiency

  14. ENERsip Goals and Objectives • ENERsip was conceived on the idea that mixing energy consumption and generation elements with communications, computing and control systems must proactively coordinated. • ENERsip will develop and test in real-world conditions (by IEC) an open ICT platform that will provide a set of tools for near real-time optimization and matching of generation and consumption in buildings and neighborhoods. • ENERsip will introduce an adaptive, customizable, and service-oriented ENERgy monitoring and control system for grids and decision makers to allow reduction of energy consumption. • ENERsip will contribute to the emergence of an open electricity market by using components from different suppliers, unifying their protocols and providing reliable information services, promoting European industrial and technological position in ICT-enabled energy efficiency technologies. • The main impact of ENERsip project will be theenergy consumption reduction achieved by coordinating the actual users’ needs with the in-buildings and neighborhoods positive-energy generation facilities.

  15. WP5 (Honeywell) WP3 (Motorola) WP4 (ISA) ENERsip Solution

  16. M2M - Pervasive Internet of Things 7 Billion Connected People Tens of Billion Devices M2M Technology connecting machines with machines and people Technology connecting machine to end-user IT infrastructure Service Business models enabler Pervasive Internet of Things/ Connected Objects/Services Monitoring and management of the wireless networks

  17. ETSI vision:Where Smart Grids meet M2M Premium power services • Smart Grids are about ServicePlatforms and Applications using service enablers: • Energy markets applications • Demand response • Micro-grids/distributed generation • Intelligent street lighting • Sub metering of tenants • Vehicle to grid /grid to vehicle • Storage/distribution of renewables (wind, fuel cells, solar) • Fault prediction/outage prevention • Automatic demand response • Other future applications… that we don’t even know of today (including blended applications) • *MBCx – Monitoring-Cased Commissioning is a program approach that combines permanent building-energy-system monitoring with standard retrocommissioning practices to provide substantial, persistent energy savings. Dynamic pricing services Sub metering of tenants Dynamic DR Outage detection Smart appliances MBCx for other customer types MBCx* for the grid Hybrid/EV participation in real-time markets Web or kiosk-based displays Source: Elloumi, Sabater, Boswarthick, ETSI M2M, June14th, 2010 17

  18. M2M Infrastructure Advantages • Removes the complexity of cellular/wireless networks based solutions by unifying their communications protocols • Allows focusing on the application needs without dealing with device and communication management • Allows cost effective integration and fast deployment of vast amount of remote devices • Full control, monitoring and management of remote devices with built-in two way real time information exchange capabilities. 18

  19. ETSI vision:Where Smart Grids meet M2M • Smart Grids needs a reliable and grid-wide monitoring infrastructure • “Most utilities don't know that users have lost power until customers pick up the phone and call them” • WASA (Wide Area Situational Awareness): Monitoring and display of power-system components and performance across interconnections and over large geographic areas in near real time, to anticipate, prevent, or respond to problems before disruptions can arise. • M2M is about managing a large number of sensor and M2M devices (data collection, communication mediation, lifecycle management, etc.) 19 Source: Elloumi, Sabater, Boswarthick, ETSI M2M, June14th, 2010

  20. M2M as a basis for ENERsip • M2M Infrastructure will to provide a core communications infrastructure between Servers, Intelligent concentrator and In-building infrastructure to allow advanced energy efficiency services • The focus will be on • Reliable two-way information exchange • Local information monitoring and processing • Aggregated information exchange within the network • Commanding the communication network • Users, energy grids and decision makers will be exposed to the set of a new energy efficiency services and recommendations for the better practices.

  21. ENERsip Service Types Residential Prosumers Residential Consumers Commercial Building Prosumers Local Energy Producers Distribution System Operators Energy Aggregators

  22. ENERsip – From Vision to Reality ENERsip creates a new environment mixing in single framework communication technologies, decision making software, information systems with renewable energy production and provides a set of tools for energy usage reduction. ENERsip will provide monitoring and control mechanisms for local generation-consumption matching by coordinating the needs of residential and industrial neighbors with the generation capacities of each component in the grid. ENERsip will allow the development and validation of innovative control strategies for active networks with large-scale penetrationof renewable sources and distributed generation, and will facilitate the emergence of new business models allowing the end user to interact with the network. Having the domestic network controlled, ENERsip platform will allow the integration of the different domestic networks within the distributor’s network towards the entire Smart Grid concept implementation.

  23. ENERsip Consortium www.enersip-project.eu

  24. Thank you Boris Kantsepolsky Business Development Technology R&D Manager Network Services Applications Phone:  +972-3-568-4028 Mobile:  +972-57-568-4028 Email:    Boris.Kantsepolsky@motorolasolutions.com

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