European Green IT Webinar, 22nd May 2014 1
Erasmus Mundus Master in PERCCOM
PERvasive Computing and COMmunications
for sustainable development
Pr. Eric Rondeau – Coordinator
www.perccom.eu - Facebook/PERCCOM
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PERCCOM : International programme in Green ICT
• Semester 1 : Eco-design and Green network (University of Lorraine, France)
• Semester 2 : Green computing and services (Lappeenranta University of Technology, Finland and St Petersburg University of ITMO, Russia)
• Semester 3 : Smart systems (Luleå University of Technology, Sweden)
• Semester 4 : Master Thesis (Academia: Leeds Metropolitan University, University of Bremen, of Harz, CSIRO, … Companies: Orange, Cisco, Ericsson,… Associations : Ellen Mac Arthur Foundation, Fondaterra)
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PERCCOM : First Master in GREEN ICT labelled “Erasmus Mundus” by the European Commission
• Scholarship: Non-European students (Cat A) : 1000€/month; European Students (Cat B) : 500€/month + participation costs (Tuition fees, International Insurance, language, cultural events,….)
• International experience: 12 nationalities are represented in the cohort, students move at least in four different countries, students meet visiting scholars from other Universities, Companies, Foundations.
• Multiple skills : ICT, sustainable development, International, Culture,…
• International network : PERCCOM Consortium,
Erasmus Mundus Association (EMA),…
• Multiple degrees: Three national Master degrees
(Lorraine, Lappeenranta, Luleå)
European Parliament
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Illustration of PERCCOM programme
• Monitoring Indoor Air Quality in a company: Eric Rondeau (Professor, University of Lorraine, France, PERCCOM coordinator)
• Green IT : Colin Pattinson (Professor, Leeds Metropolitan University, UK)
• Smart Cities: Marie Nolin (Project manager, Luleå University of Technology, Sweden)
• PERCCOM representative of EMA: Maria Victoria Palacin Silva (Peru)
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Eco-design the application: Modelling, Designing, Checking ICT-based solution to guarantee its sustainability.
Monitoring Indoor Air Quality (Student Project): Three levels of Environmental issues
ICT for Greening : Monitoring Indoor Air Quality
Green ICT: Analysing the impact of ICT on Environment (Green ICT).
European GreenIT Webinar, 22nd May 2014
Eco-design the application: Modelling, Designing, Checking the application to guarantee its sustainability.
Monitoring Indoor Air Quality in a company: Three levels of Environmental issues
ICT for Greening : Monitoring Indoor Air QualityWorking Comfort :
Green ICT: Analysing the impact of ICT on Environment (Green ICT).
Living Comfort : Standard EVS-EN 15251:• Air temperature : 20-24°C
(Winter)
23-26°C (Summer)• CO2 < 880 ppm
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Eco-design the application: Modelling, Designing, Checking the application to guarantee its sustainability.
ICT for Greening : Monitoring Indoor Air Quality
Monitoring Indoor Air Quality : Three levels of Environmental issues
Green ICT: Analysing the impact of ICT on Environment (Green ICT).
• Resources, • Pollution (C02, Radio waves,
Visual,…)
Energy / Cost
Ethic (privacy, information access, fair partners, …)
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Eco-design the application: Modelling, Designing, Checking the application to guarantee its sustainability.
Monitoring Indoor Air Quality : Three levels of Environmental issues
European GreenIT Webinar, 22nd May 2014
ICT for Greening : Monitoring Indoor Air Quality
Green ICT: Analysing the impact of ICT on Environment (Green ICT).
Ethics in the design process (salary, gender,…)
Sustainability of ICT-based solution, Life Cycle
Solution Costs, green Marketing,…
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Monitoring Indoor Air Quality :Eco-design the application: Modelling, Designing, Checking the application toguaranteeitssustainability.
ICT forGreening:Monitoring IndoorAirQuality
GreenICT:Analysingtheimpactof ICTonEnvironment (GreenICT).
User Requirements
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Monitoring Indoor Air Quality :
Identification of Experts
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Monitoring Indoor Air Quality : Design process Solutions
RARITAN PDU
PoE Sensors
Carbon/Energy (RTE)
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Monitoring Indoor Air Quality : Verification (test cases)
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Monitoring Indoor Air Quality : Validation (tracing requirements & System Functionalities)
Monitor Control MaintanceSR1 Humidity_Measure Measure humidity every minute AQM1 : Air_quality_Service Functionality x IndoorAir_Measurment() SensorMeasurements/GetSensorMeasure TC1SR2 Temperature_Measure Measure temperature every minute AQM1 : Air_quality_Service Functionality x IndoorAir_Measurment() SensorMeasurements/GetSensorMeasure TC1SR3 Energy_Consumption_Measure Calculate the energy consumption every minute AQM1 : Air_quality_Service Functionality x Network_Measurement() SensorMeasurements/GetSensorMeasure TC1SR4 Network_Usage_Measure Calculate network usage every minute AQM1 : Air_quality_Service Functionality x Network_Measurement() NetworkUsage/ReadNetworkUsage TC1SR5 Comfort_Calculate Calculate comfort every minute AQM1 : Air_quality_Service Functionality x PMV_Comfort_Measurements() Home/ReadComfort TC1
SR6 Carbon_Footprint_Calculate Calculate carbon footprint usage every minute GICT0 : Green_ICT_Performances Functionality x CO2_Measurements() NetworkUsage/ReadNetworkUsageTC1
SR7 Business_Index_Calculate Calculate business index every minute AQM1 : Air_quality_Service Functionality x PMV_Comfort_Measurements() Home/ReadBusiness TC1SR8 Standard_Compliance Comply with standard EVS –EN 15251. AQM0 : Monitoring_System Constraint x - Home/CompareData TC2
SR9 Alert_Unaceptable_Quality_LimitsAlert when quality limits of comfort are unacceptable AQM0 : Monitoring_System Functionality x
BusinessDepartment_CountryMeasurements_DisplayWithoutAlert()BusinessDepartment_CountryMeasurements_DisplayWithAlert()EnergyDepartment_CountryMeasurements_Display() Home/CompareData
TC2
SR10 High_Level_Service_AccessGrant high level of service for simultaneous access. AQM0 : Monitoring_System Functionality x - - Power devices
TC3
SR11 Support_Maintenance Support Maintenance AQM0 : Monitoring_System Functionality x Select_Support() Apply_Support() - VLAN 99 admin
SR12 PU_ICT_Equipment_OperationOperate with ICT Equipment implemented by all PU. AQM0 : Monitoring_System Constraint x - -
Network architecture (Routers, Switches)
TC4
SR13 Customer_Support_Service_LevelMeet a target service level 98% 7x24 regarding its customer support. AQM0 : Monitoring_System Constraint x Select_Support() Apply_Support() -
RIP protocol within WAN
SR14 Energy_SavingsTC5
SR15 Department_Specific_Display Functionality x
SR16 Business_Index_Display Functionality x
SR17 Comfort_Display Functionality x
SR18 Network_Usage_Display Functionality xTC7
SR19 Humidity_Display Functionality x
SR20 Temperature_Display Functionality x
SR21 Energy_Consumption_Display Functionality xTC7
SR22 Carbon_Footprint_Display Display carbon footprint every minute Functionality xTC7
SR23 Footprint_Optimization Optimize network footprint usage
TC8
ID Type of Requirement Implementation Specification SoftwareImplementation
Specification NetworkTestCaseUse Case
Rhapsody OperationSystem RequirementName Stakeholder Requirement
Green IT
Professor Colin PattinsonSchool of Computing, Creative Technologies and EngineeringLeeds Metropolitan University
Why do it
• In alphabetical order– Compliance with legislation
• Carbon reduction commitment• Compulsory carbon trading
– Corporate social responsibility• Consumer (and employee) pressure
– People and planet
– Cost saving• energy = money• Energy saving = money saving
Sustainability and IT
• Sustainability of IT– Making the technology more efficient
• Power saving• Virtualisation
• IT for sustainability– Using technology to make other activities more efficient
• Video conferencing• E-anything• Smart metering• HVAC control systems
Some numbers
• “IT” estimated to be responsible for – 2% of world’s GHG– 10% of UK electricity overall– Rising to 20% (or more) in IT-heavy businesses
• Average server has the same carbon footprint as a typical SUV• Server capacity increased by 40% in 2013• During 2011 we passed the zettabyte of stored digital data mark
– Now maybe 4ZB?
Some numbers – data centres
• Energy consumption of data centres increased by 63% in 2011 (Data Centre Dynamics)
• Data centres accounted for 14% of ICT carbon dioxide emissions in 2007 – Projected to be 18% in 2020 (The Climate Group, 2008)
• “If the cloud / internet were a country”– 5th in electricity consumption – (Greenpeace, 2010)
Some numbers – end systems• 1.78 bn PCs and 1.82 bn units of browser equipped mobile devices in use
by 2013 (Gartner, 2010) • By 2020, 50% of the world’s population will own a mobile phone (Climate
Group, 2008) • 4 bn cellular subscriptions worldwide at the end of 2008, 5 bn in 2011
(ITU, 2010) • 50 bn internet-connected devices by 2020 (Ericson, 2010) • 91% of users use their phones to access social networking sites vs. to 79%
of desktop users (Read Write Web, 2010) • Social networks overtook search engines
for UK Internet visits in May 2010 (O’Hear, 2010)
Something must be done
• Technological solutions, aimed at making the IT more efficient, and reduce the number of boxes consuming energy– Server virtualisation– Thin client systems– Cloud computing
• “I think there is a world market for maybe five computers”– Thomas J Watson Snr. Head of IBM, speaking
in 1943• Allegedly!
Patersoninnmuseum.org via creative commons
The IT system life cycle
• Environmental impacts during:– manufacture – use– disposal
• Embedded carbon; hazchem content;
• Identifying choices which enhance sustainability
OperatingIT deviceProduction DisposalRe-use
Heat
Power
Materials
Waste
Transport
Packaging
RoHSReg
Consumption-Power -Consumables-Support/repair
Air Conditioning Equipment cooling
NGOsCharitiesSilver surfers
Components
Recycle
Reclaim
WEEEregs
Managing the lifecycle...
Recycling and Disposal
• Re-use a source of significant cost savings (up to 90% cheaper to refurbish than to make a new purchase)
• Disposal of working equipment after refresh exercise can generate revenue
• Separate components before crushing, can be worth a lot e.g. £1,800/tonne for RAM
• Waste disposal suppliers should be ISO 14001 accredited to ensure compliance with relevant legislation
Source: SCC; EU; Defra; Eric Williams et al (UN University, Tokyo); NAO; team analysis
Raw andprocessed materials
Equipmentuse
Componentseparation
Wastedisposal (landfill)
Upgrades andrefills
Materials separation
Cost saving and revenue generation
opportunities
Revenue generation opportunity
Manufacture Re-use
Schools, charities or sale
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FRONTLINE/World Ghana: Digital Dumping Ground | PBShttp://www.pbs.org/frontlineworld/stories/ghana804/slideshow/slideshow.html
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FRONTLINE/World Ghana: Digital Dumping Ground | PBShttp://www.pbs.org/frontlineworld/stories/ghana804/slideshow/slideshow.html
But the other 98%?• The paperless office (again)• Smart buildings (harder)• Using ICT to change behaviour (hardest)
– Remote working• Video conferencing• Tele-working
– Energy use & control– Journey planning
Thank you
Smart City: The Smart SewerageMarie Nolin – Project Managerhttp://www.sensesmartcity.org
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Smart City: The Smart Sewerage
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Water supply, sewerage and waste disposal are examples of important infrastructures in an expanding city that citizens expect to function. To maintain a sustainable growth of cities the use of sensors and Internet of Things are natural building blocks. The main objectives in this project are to investigate the technological possibilities and to implement a prototype system in the Skellefteå municipality for evaluation in order to avoid critical situations in the future (see figure Cryptosporidiosis). In the spring of 2011 an outbreak of cryptosporidiosis occurred in the city of Skellefteå
Smart City: The Smart Sewerage
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A global trend in Smart Cities is the installation of sensors for surveillance of the city infrastructure. The presented system is mounted in a number of strategic sewers for initial evaluation. In order to monitor the natural variations of the sewer (including daily variations) the system should be able to integrate into normal monitoring/alarm systems. The communication channel and mounting position (sewer well in the ground) put limitations on the system
Smart City: The Smart Sewerage
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Limitations
The sensing and communication unit should be able to mount in a concrete well (under ground) and to survive the damp and cold to allow long time operation without maintenance. When the sewer well is under a street, the communication unit is mounted beneath a cast iron lid which affects the design and hardware components. Measured data needs to be communicated wirelessly since there is no possibility to provide wired data connections at such locations. Furthermore, the physical environment in sewage ducts is moist and corrosive, which places high demands on robustness of the hardware components. The equipment needs to be battery powered and have a battery time of at least 12 months, which is the minimum maintenance interval that can be accepted from the sewerage staff.
An ultrasonic sensing device is placed ~500 mm above the measured water level and measures the distance between the sensor face and the water level using. A small 110 x 70 x 55 mm IP67 rated waterproof box contains the GSM device and additional electronics which is then connected to a battery unit.
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PERCCOM StudentsFITHRITAMA AlifiaHOSSAIN Md, MohaimenulMATEMILOLA ZainabNANDA ROHANNARAYANAN RamyaPALACIN SILVA Maria VictoriaPOLIAKOV VitaliiSANGOGBOYE FisayoCRISTEA Vlad-VasileDE MASI AlexandreGEORGIOU StefanosLOUIS BaptisteNGO Manh KhoiSCHMIDT MaikePETIT DorineSATRIANA ChandraTSEGAY Fitsum Kiros
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PERCCOM Impact on us
Habits Approaches
Opportunities
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Projects and Achievements
Air Quality Project
Architecture research of CompaniesCode Camp
Ways to dieVlad Cristea, Victoria Palacin, Maike
Schmidth
• NASA 2014 Spaceship Finland winner.
Perccom at the eneral Assembly
of Erasmus Mundus
Association in Krakow this June.
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What is PERCCOM for us?
• Video
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