Fraunhofer Institute FOKUS APAN Hongkong February 2011 APAN SensNet - - PowerPoint PPT Presentation

Fraunhofer Institute FOKUS

APAN – Hongkong February 2011

APAN SensNet Working Group meeting 23rd February Hongkong

Lasse Thiem Dipl.-Ing. (FH), M.Sc. Deputy Head of Competence Center Sensor Applications and Networks Fraunhofer Institute for Open Communication Systems Kaiserin-Augusta-Allee 31 | 10589 Berlin | Germany Phone + 49 30 – 3463 – 7297 Mobile + 49 175 - 58 123 01 Lasse.thiem@fokus.fraunhofer.de www.fokus.fraunhofer.de

Outline

• Fraunhofer FOKUS NET4DC
• Fraunhofer FOKUS WSN infrastructure
• New Project: Outsmart

NET4DC - Motivation

• Many emerging regions require very large radio networks to provide

Internet and voice services

• Existing technology is very expensive (Motorola, Cisco) or does not

scale for large areas (OLSR, Batman, Freifunk)

• Energy supply and maintanance are additional challenges in many

regions

NET4DC - Goals

• Deployment of very large radio networks (1000 km2)
• Low hardware cost, € 500 for a robust outdoor system
• Low operational cost (maintanance, power)
• Solar-based systems (repeater)
• Voice and data services (GSM, IP)
• Service differentiation

SolarMesh

NET4DC Hardware

Routerboard: 300 MHz, 64 MB, 3 MiniPCI, 10-28 V, 5 W, € 100 700 MHz WLAN MiniPCI, € 100 Outdoor case, € 50 saxnet WLAN-Router for outdoor deployment, € 1000 Bullet WLAN Station with PoE, € 70 antenna: fishbone(€ 20), grid(€ 40), Panel (€ 100) OpenBTS GSM basestation, € 2.500

Testbed Sankt Augustin, Germany

Testbed Sambia

Demonstrator (Summer 2010)

Solar Meshed Network Customer Premises Operator / Service Provider / Internet

 Stand-alone operation  Solar power  Stand-alone

• peration

 Landline power  Solar or Landline power

Server functions:

• Web Server
• GSM Voice Mail
• Video Streaming
• Gateway to Public Voice Network (opt.)

Carrying case Hot Spot Mini PC

 Mini PC as server  No monitor

Battery Solar panel WLAN antenna Mesh Netw. Router (Routerboard) WLAN connection GSM handset Mouse Monitor Keyboard

PoE

PoE Box Power cable

• Voice
• Web
• Video

Client functions: 100 – 200 m 300 m Distances Mini BTS

GSM cell

• penBTS

Fraunhofer FOKUS - Sensor Network Infrastructure

Smart Phone Multi Client Systems (MCS, WS-Client, C#, .NET CF) Router

Base IEEE 802.15.4 Sensors (ZigBee/6LoWPAN)

Router

Base IEEE 802.15.4 Sensors (Vendor Specific)

Router FOKUS Sensor Board

868 MHz FOKUS Sensor Boards IP

Home GW Web Service Gateway (WSGW, C#, .NET) UDP/IP (.NET CF) UPnP like (.NET CF)

Autonomic Service Platform ADL/SDL WS Communication

IP/Wi-Fi Mesh Network

UPnP like Forwarder UPnP like Forwarder UDP/IP Forwarder SNMP Agent SNMP Agent SNMP Agent SNMP Manager (Hirschmann HiVision) SNMP Agent

Other AutHoNe Entities

Autonomic Service Platform ADL/SDL

. . . . . .

SIP Agent / IMS Core

WS, DHT, Both, Other WS

ASUS Router

Rule Engines

New European PPP FP 7 Project for the Future Internet

• 27 partners from 8 European countries: EON, BSR (waste

Management Berlin), TfL (Transport for London), public water distribution in Aarhus, ACSM, Bank of Santander, AMEY, CI3, Coronis, Worldsensing, Alexandra Institute, Amplex, TTI, London, Berlin, Santander, Aarhus, Trento, Orange, Telefonica, Alcatel-Lucent, Ericsson, UoSurrey, UoCantabria, Fraunhofer Fokus, SnT, CEA-LETI, TrentoRise, ATOS Origin, Engineering

• Project duration: 5 years in 3 phases
• Start date: 1st April 2011
• Total budget: € 7.6 Mio
• 5 cluster around Europe (Aarhus - Denmark, London -

UK, Santander - Spain, Trento – Italy , Berlin - Germany)

“If you can’t measure it you can’t manage it.”

PPP-FI Outsmart Project: objectives

• OUTSMART stands for “Provisioning of urban/regional smart services and business

models enabled by the Future Internet

• Objectives:

– Define smart services built on top of sensors designed to improve utilities business or city management processes, for a more sustainable development and better inhabitants quality of life – Participate to the specification of a mutualized and open infrastructure for the Future Internet, by supplying OUTSMART domain specific requirements – Identify innovative business models and exploitation emerging from this mutualized architecture – Explore the emerging new value chain and propose sustainable business models for the “smart city market” – Develop domain specific demonstrators on selected use-cases – Prepare city-wide field trials with actual deployment in 2 years time – Standardize or integrate standardized M2M technologies

Cluster overview

FI core

waste management domain specific

Business innovation applications and services Domain specific requirements Technology transfer FI core platform contribution Cluster leaders Future Internet experts Domain experts Transversal partners

Water and Sewage Aarhus, Denmark cluster

• monitoring water quality and steps towards prevention of cross contamination of

water and sewage

• optimizing combined water distribution and sewage by identifying leakages,

monitoring flows and the potential of storage capacities,

• generating user awareness for the sustainable utility provision including investigating

incentive scheme such as use of pricing and taxation (but not limited to) to recover cost of water services

• optimization of energy use for the water and sewage utilities

Environment and Transport London, UK cluster

• monitoring transport infrastructure and transportation usage
• incentivising users to chose alternative means (walking/cycling)
• increasing awareness and willingness to chose the more sustainable transportation

approach through incentives (commercial as well as social)

• reducing the need for bus, road, tube capacity

Smart Meters and Lighting Santander, Spain cluster

• implement a smart street-lighting control service that adapts light levels to meet real-

time requirements in order to reduce energy use. This will be achieved by lower

• perating and maintenance costs as well as predictive maintenance and replacement
• f light bulbs
• ensure that city administrators are offered energy efficiency improvement measures or

services when they are supplied with energy by means of facilitating the provision of added-value services (e.g. individualised adaptive monitoring and billing)

• deploy the necessary mechanisms that enable for calculating improvements in energy

efficiency including impact measurability and verification. The measurement system will include benchmarks, energy efficiency indicators and bottom-up measurements

• provide improved security and safety feeling at the streets by individual control of light
• utput to meet traffic and weather conditions (on/off and dim) or brighter lights at

crosswalks, accidents or other danger spots

Water and Environment Trento, Italy cluster

• monitoring water cycle in the mountain regions and impact on the environment of

multi-utility provision

• providing new tools for citizens and municipalities to monitor the environmental

impact of water over-utilisation

• increasing awareness and willingness to reduce the impact onto the natural

environment related to the extensive utilization of water for multi-utility purposes

• improve the efficiency in the usage of water resources at the regional level

Waste Management Berlin, Germany cluster

• monitoring of fill level (and contents) of public waste baskets
• optimizing routes of refuse collection vehicles
• increasing general sense of duty for public cleanliness and providing means to improve

it by indicating overloaded waste baskets and “muck corners”,

• optimizing the treatment of waste basket contents

Thank you!