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10th-11th December 2009
Ganesh Sauba & Alberto Muñoz Gallego
BeyWatch: Building EnergY WATCHerICT for Energy Efficiency in Buildings
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10h-11th December 2009 – ICT21 - EE
BeyWatch Consortium Proprietary
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Project Summary & Goals
- What is BeyWatch?- Innovation areas & partners- Main Project Goals
Relevant Innovation Activities
- Hierarchical Agent/Supervisor Architecture- Agent & Supervisor Software Stack- BeyWatch BSS Concept
Detailed & Quantified Objectives
- Qualified Objectives- Smart Objectives
Index
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BeyWatch: Building EngergY WATCHer Project Summary & Objectives
BeyWatch is a FP7-ICT-2007 project which covers ICT for environmental management and energy efficiency. It proposes an energy-aware and user-centric solution, able to provide intelligent energy monitoring/control and power demand balancing at home/building & neighbour level.
The system will:
A) Interconnect legacy professional/ consumer electronic devices with a new generation of energy-aware white-goods, where multilevel hierarchic metering, control, and scheduling will be applied (based on power demand, network conditions and personal preferences).
B) Via an innovative hybrid photovoltaic/solar system, it will be able to produce hot water and energy, which will be used at home or at peak hours fed to the electricity network.
The proposed system will function in a two layers hierarchy:
— Micro-management plane: interactive monitor/control of all the devices in the home, and RES power generation in order to achieve amortization of loads and peak suppression of small-scale power consumption.
— Medium-management plane: medium-level control and coordination of the energy resources at larger geographical regions.
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BeyWatch: Building EngergY WATCHer
Innovation areas & partners
Reduced energyConsumption
Intelligent energy-awarewhite goods1
Ultra low-cost in-homecommunications2
Devices’ monitoring &personalized control3
Hybrid Photovoltaic/solar home system4
Modelling & controlof power distribution in local areas
5
Business Support Systemsand new business models6
Power demandbalancing
Mutual beneficialcontracts
Contribution tostandards
Contribution toEnergy & environmentalSustainability EU vision
Reduced pollution &CO2 emission
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BeyWatch: Building EngergY WATCHer Main Project Goals
Design ultra-low energy-consumption white-goods
Implement methods, techniques and services to reduce the power consumption in smart/green homes/blocks/neighbours by intelligent control of electrical devices
Generate hot water and electricity from RES at building level, leading to further power savings and energy consumption/production optimisation services
Elaborate business plans and BSS applications that will help the users and the providers to reach beneficiary contracts
Motivate user’s awareness, towards less CO2 emissions on the whole energy value chain (production, transportation, distribution, supply) and cleaner environment.
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BeyWatch: Building EngergY WATCHer Hierarchical Agent/Supervisor Architecture
HomeNetwork
Energy efficient/aware appliances
Network Infrastructure
User Profile
PersonalizedEnergy Control
HomeNetworkHome
Network
Power Distribution
Network
Green House with legacy and ultra energy efficient white-goods &
appliances
Watcher
Agent
Supervisor
ServiceCenter
HPS/RES
Hierarchical Architecture
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BeyWatch: Building EngergY WATCHer Relevant Innovation Activities
Upstream
xDSLElectricity Control
Low LevelDrivers
EmbeddedOperatingSystem
OS Kernel, Device Drivers
NetworkTopology OA&M
Native Applications
JVM & OSGiFramework
SystemApplications/Bundles
BSS Neighbour PowManagement
GPRS
Statistics
Downstream
PLC
Access Interfaces
xDSL FTTHIEEE 802.3
Home Network InterfacesHome Automation Interfaces
EthernetWiFiLonWorks ZigBee PLC Bluetooth
Low LevelDrivers
EmbeddedOperatingSystem
OS Kernel, Device Drivers, Networking ProtocolsNetworkDevices
UserProfiles
Management& UPnP Native Applications
JVM & OSGiFramework
SystemApplications/Bundles
Plug & PlayManager
ServicePersonalisation
Home Control &Automation
Home Power Management
AV & VoiceApplications
Ag
en
t &
Su
perv
isor
SW
S
tack
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BeyWatch: Building EngergY WATCHer Relevant Innovation Activities
CORE NETWORK
User and Home installation Stakeholder Domain
Telecommunication, Aggregator and Broker Stakeholder Domain
Service Provider Stakeholder Domain
UtilityAggregator/
BeyWatch Supervisor
BSSAggregation Tools
The User
The User
The User
• Energy Meter• Energy Consumption• Energy Generation
• Neighbourhood Energy Information • Customer BSS interface & applications & Billing Information• User and Service provider management
BeyWatchAgent
BeyWatchAgent
BeyWatchAgent
CPS
CPS
CPS
BeyWatch BSS Concept
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BeyWatch: Building EngergY WATCHer Relevant Innovation Activities
BeyW
atc
h M
2M
A
rch
itectu
re
Home
Smart Meter
Smart Meter
Smart Meter
Smart Meter
Dish Washer
Water Heater
Washing Machine
Refrigerator
BeyWatch Agent
Intelligent Meter
Electrical Utility Company
BeyWatch Control Terminal
Billing / Back-Office
Service Provider
BeyWatch Supervisor
Home / Office / Outdoors
User Terminal
8 H
TT
P
11 HTTP
10 web service(HTTP)
2 ZigBee
3 ZigBee
4 ZigBee
5 WiFi
6 RS-232
1 ZigBee
Electricity Network
Simulator
12 DB-access or file-based or other near-
real-time
7 proprietary
Utility employee
BeyWatch home user
3rd party information providers
weather prediction web
service13 web service
(HTTP)
9 web service (HTTP)
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BeyWatch: Building EngergY WATCHer Qualified Objectives
1. Study and specify the energy consumption and power demand models taking into consideration:
• Building/Domain type (i.e. house, office, hotel, hospital, etc)• White goods power demand (i.e. heating, cooling, lighting, refrigeration, etc)• User needs and requirements as a function of the season/environment conditions.• Consumption, preferences and modify the operational status of the device• Special requirements for various domains (i.e. health-care, elderly people, outdoors
installations, etc)
2. Design and prototype three ultra-low power consumption white-products: • Refrigerator (electronic controlled)• Dishwasher and a washing machine (efficient management of hot water). • Integrate “Watcher” functionality
3. Specify applicable services and develop the interconnection methods, • the M2M interfaces • the primitive-based communication.
4. Design and develop the BeyWatch “Agent” platform. • Communicate with the various white-goods and energy-consuming devices• Calculate and display in real-time, the instant energy-consumption of the
home/domain• Remote control the energy aware devices• Communicate with the BeyWatch Supervisor
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BeyWatch: Building EngergY WATCHer Qualified Objectives
5. Design and implement an intelligent user-oriented SW “Agent”. • OSGi-compatible open programming interfaces for personalised services creation and instantiation• Automatically capture/model user’s behaviour and preferences. • Utilise the user profile to control the white goods and energy-consumption devices.
6. Design and implement the BeyWatch “Supervisor” system. • Distributed system/platform for the management and control of energy consumption and power
demand at a local/square or urban geographical level. • Aggregate the lower hierarchy layer BeyWatch “Agent” consumption patterns• Remotely control their consumption based on the network conditions, the electricity requirements
forecast and the customer contract.
7. Optimize, prototype and integrate an innovative combined photovoltaic/solar (CPS) system. • Produce electrical energy and hot water for the house• Supply hot water to the energy-aware white goods• Communicate with eth BeyWatch Agent in order to act according to energy management rules• Feed the home and the public electricity network on peak hours.
8. Study, analyse, evaluate and validate the results, as well as the conduction of case studies and business models for the wider adoption of the platform and the proposed services. • Perform extended energy modelling and simulation on state of the art platforms and real
laboratories• Creation of flexible business models and shaping of a dynamic energy market.
9. Participate and contribute in standardization efforts, special guidelines and regulations for the monitoring and control of energy consumption and power demand.
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BeyWatch: Building EngergY WATCHer Smart Objectives
Objective Leading Partner
Indicator Trial
Ultra-low power consumption washing machine
Fagor 24-hour/weekly measurements Madrid/Paris
Ultra-low power consumption dish washer Fagor 24-hour/weekly measurement Madrid/Paris
Ultra-low power consumption refrigerator Gorenje 24-hour/weekly measurement Madrid/Paris
Machine-to-machine (M2M) interfaces MOV Inter-devices communication/ Control of legacy devices
Madrid/Paris
“Agent” Platform Synelixis Personalised remote-management of appliances Madrid/Paris
“Supervisor” Platform Synelixis Electricity metering/remote control of urban areas Madrid/Paris
Combined Photovoltaic/Solar system UniPa 24-hour/weekly measurement of energy/hot water Palermo/Paris
Analysis/control of power distribution Advantica Measurements, statistical data & simulation analysis Paris
Business Model SW TID Measurements, statistical data & simulation analysis Madrid/Paris
Smart Home Demo TID In-home laboratory demo Madrid
Integrated BeyWatch Demo EDF Integrated BeyWatch laboratory demo Paris
Dissemination/Public Awareness Sigma Brochures, web site, workshops, exhibitions
Standardization Activities Fagor Follow/contribute to standards
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BeyWatch: Building EngergY WATCHer Consumption/Generation Model
Suite of Modelling Software made-up of:
SynerGEE Electric• Network design and analysis tool
Forecaster• Future demand based on history and prediction {including weather
pattern}
Energy Models• Data files for scenarios and input conditions to be adopted
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BeyWatch: Building EngergY WATCHer Model Town
Loughborough Contains a good mix of different energy user groups. It is small enough to allow construction of an asset
and demand model which meets the requirements of the project.
Project staff has local knowledge of the area which benefits the accuracy of the base model.
Good range of dwellings - both size and age
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BeyWatch: Building EngergY WATCHer Application
Single Dwelling
Street
Estate
Town
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BeyWatch: Building EngergY WATCHer Model Town – House Distribution by Size
No. of Bedrooms % No. Implied
Bedsit 0.5 102
One 8.8 1790
Two 22.1 4496
Three 48.1 9785
Four 16.4 3336
Five or more 4.1 834
Total 100 20343
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BeyWatch: Building EngergY WATCHer Model Town – House Distribution by Age
Built Date % No. Implied
Before 1919 13.2 2685
1919 to 1944 16.1 3275
1945 to 1964 21.3 4333
1965 to 1990 21.9 4455
After 1990 19.1 3886
Unknown 8.4 1709
Total 100 20343
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BeyWatch: Building EngergY WATCHer Analysis Criteria
Take-up Rate 20% 50% 100% ( Eco-Town)
Scenarios Appliance Selection Frequency of Use Energy Management
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BeyWatch: Building EngergY WATCHer Model Outcome
Customer Expected Savings Comparison based on BeyWatch/non-BeyWatch
System• Financial• Energy• Environmental
Utilities/Service Providers Benefits from local generation
• Peak shavings• Multi-tariff management• Network loading• Reduction in network size (Eco-Town)
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10th-11th December 2009
Ganesh Sauba & Alberto Muñoz Gallego
Thank You!
www.BeyWatch.eu