www.sunshineproject.eu Issue

August 2013

01  

1.  Project  Overview  2. Work  Packages  

3.   Scenarios:  •   Assessment  of  energy  performances  and  

electronic  energy  pre-­‐cerAficaAon  ;    

• HeaAng/cooling  forecast  and  alerts;  • OpAmisaAon  of  power  consumpAon  of  

public  lighAng  systems.  

4.    System  Architecture    5.    Project  events  

6.    Project  meeAngs  

7.  PublicaAons  

Project Overview  

SUNSHINE  “Smart  UrbaN  ServIces  for  Higher  eNergy  Efficiency”  delivers  innova&ve  digital  services,  interoperable  with  exisAng  geographic  web-­‐service  infrastructures,  and  supports  improved  energy  efficiency  at  the  urban  and  building  level.    Specifically,  SUNSHINE  delivers  a  smart  service  pla2orm  accessible  from  both  a  web-­‐based  client  and  from  an  App  for  smartphones  and  tablets.  In  parAcular,  the  SUNSHINE  plaVorm  will  allow:    1)  AutomaAc  large-­‐scale  assessment  of  building  energy  behaviour  based  on  data  available  from  public  services  (e.g.  cadastre,  planning  data  etc.).  The  informaAon  on  energy  performances  will  be  used  to  automaAcally  create  urban-­‐scale  “ecomaps”  to  be  used  for  planning  acAviAes  and  large-­‐scale  energy  pre-­‐cerAficaAon  purposes.    2)  The  previous  assessment  will  be  then  used,  together  with  localised  weather  forecasts  available  through  interoperable  web-­‐services,  to  ensure  opAmisaAon  of  energy  consumpAon  of  heaAng/cooling  systems  through  automaAc  alerts  that  will  be  sent  to  the  SUNSHINE  App  installed  on  the  smartphone  of  the  final  users.    3)  Lastly  SUNSHINE  will  ensure  interoperable  control  of  public  illuminaAon  systems  based  on  AutomaAc  Meter  Reading  (AMR)  faciliAes  remotely  accessible,  via  interoperable  standards,  from  a  web-­‐based  client  as  well  as  from  an  App  for  smartphones  or  tablets.    The  SUNSHINE  technology  will  be  the  result  of  the  customisaAon  and  integraAon  of  exisAng  so]ware  components  developed  by  other  EC-­‐funded  projects  focusing  on  smart-­‐city  technologies,  including  BRISEIDE,  i-­‐SCOPE,  and  i-­‐Tour.

Contents

•     SUNSHINE  –  Smart  UrbaN  ServIces  for  Higher  eNergy  Efficiency    •   SUNSHINE  is  supported  by  the  CIP  /  ICT  Policy  Support  Programme  Pilot  Type  B    of  the  European  Commission    •   ICT  PSP  IdenAfier:  CIP-­‐ICT-­‐PSP-­‐2012-­‐6    •   Project  Start  Date:  01  February  2013  

• DuraAon:  36  months    •   Project  Coordinator  Raffaele  De  Amicis  Fondazione  GraphiTech  |  Via  Alla  Cascata,  56/C  -­‐  38123  Trento,  Italy    E-­‐mail:  coordinator@sunshineproject.eu      Phone:  +39  0461  283395  Fax:  +39  0461  283398    Project  website:  www.sunshineproject.eu      

Facts & Figures

Page 1

The Consortium

The  SUNSHINE  technology  will  be  eventually  piloted  in  the  context  of  9  sites  across  5  countries,  specifically:                                                                    SUNSHINE  will  be  piloted  for  12  months  and  will  target  at  energy  and  emission  savings  ranging,  within  the  various  pilots,  from  10%  to  30%,  with  higher  savings  being  foreseen  for  pilots  relying  on  older  buildings,  or  equipped  with  older  heaAng,  cooling  or    lighAng  technologies.  Energy  savings  will  be  compared  to  a  one-­‐year  baseline  data  acquired,  during  the  first  stages  of  the  project  prior  to  the  deployment  of  the  pilots.

Italy:  20  public  buildings  in  Ferrara;  60  technical  buildings  across  the  TrenAno  Province;  4  public  illuminaAon  lines  in  the  centre  of  Bassano  del  Grappa  (total  of  200  illuminaAon  units);  5  public  illuminaAon  lines  in  the  city  of  Rovereto  (total  of  80  illuminaAon  units);  3  building  complexes  in  the  area  of  Val  di  Non  and  their  outdoor  public  illuminaAon  systems.  

Austria:  1  public  mulApurpose  building  in  Schwechat  and  the  public  illuminaAon  systems  in  its  surroundings.  

Croa&a:  10  buildings  owned  by  HEP  ESCO  in  Zagreb  and  Split  and  the  illuminaAon  systems  in  the  surroundings  of  one  of  HEP  ESCO’s  power  plant  (50  illuminaAon  units).  

Greece:  five  buildings  in  Lamia  owned  by  Technological  EducaAonal  InsAtute  di  Lamia.  

Malta:  2  buildings  owned  by  Malta  College  of  Arts,  Science  and  Technology  in  Paola.  

www.sunshineproject.eu

Page 2

Work Packages  

WP1  

• Pilot  preparatory  ac&vi&es  • The  objecAves  of  WP1  are  to:  • Precisely  define  the  use  cases  to  be  addressed  by  the  various  pilots;  • Collect  requirements  for  the  deployment  of  the  SUNSHINE  system,  including:  • User  requirements  • Training  requirements  • Service  requirements  • Hardware  requirements  • Data/metadata  requirements  

• Perform  a  Privacy  Threat  Vulnerability  and  Risk  Analysis  • Define  the  so]ware  architecture  of  the  whole  SUNSHINE  system.  

WP2  

• Pilot  informa&on  collec&on  • The  goal  of  this  WP  is  to  idenAfy,  collect,  and  harmonise  all  informaAon  inputs  already  available  to  support  the  use  cases  and  the  needs  of  partners  and  users  of  the  SUNSHINE  pilots.  In  parAcular,  the  objecAves  of  the  WP  are  to:  • Survey  and  collect  data  and  services  available;  • Survey  and  collect  of  dynamic  data  and  services  available;  • Edit  an  adaptaAon  plan  that  specify  the  data  transformaAon  to  be  performed  in  order  to  provide  a  harmonised  and  seamless  service  infrastructure;  

•  Integrate  the  available  data  and  services  for  end  user  evaluaAon.  

WP3  • Standardisa&on,  interoperability  and  methodologies  for  energy  savings  • The  goal  of  this  work  package  are:  • To  formalise  extension  of  relevant  standard  relevant  to  smart-­‐grid  scenarios.  • To  propose,  those  extension  relevant  to  the  pilots,  to  the  relevant  standards  bodies  for  possible  changes  to  their  standards  or  for  creaAon  of  new  work  item  proposal.  

WP4  

•  Integra&on  of  SUNSHINE  pilot  smart  urban  services  • This  Work  Package  deals  with  the  integraAon  of  technologies  within  a  set  of  smart  services  for:  • Meter  data  management;  • Remote  system  management;  • Building  efficiency  pre-­‐cerAficaAon;  • CiAzen-­‐oriented  communicaAon.  

• AddiAonally,  this  work  package  aims  at:  • Delivering  the  integrated  SUNSHINE  toolkit;  • Ensuring  comprehensive  validaAon  of  the  system;  •  IntegraAng  the  SUNSHINE  toolkit  within  final  infrastructures  for  the  pilot  stage.  

WP5  

• Test  bed  pilots  deployment  and  assessment  • The  goal  of  this  work  package  is  to  perform  the  pilot  stage  of  the  project.  The  final  SUNSHINE  toolkit  will  be  deployed  in  real  operaAonal  condiAons  for  each  pilot  and  used  by  the  final  users.  During  the  operaAonal  tesAng  acAvity  of  the  use  case  tests,  informaAon  on  system  use  will  be  collected  both  automaAcally  (e.g.  through  system  log)  and  manually  (by  the  final  users),  through  a  dedicated  web-­‐based  quesAonnaires.  These  will  be  used  by  users  of  the  system  to  provide  feedback,  and  through  a  dedicated  forum  that  will  ensure  direct  contact  with  members  of  the  technical  team.  

• One  of  the  objecAves  of  the  task  is  to  collect,  on  a  monthly  basis,  consumpAon  data  from  the  various  buildings  focus  of  the  different  pilots  through  the  online  system  setup  by  the  European  Commission.  

WP6  

• Awareness,  networking  and  dissemina&on  • The  objecAves  of  this  WP  are:  • To  disseminate  to  the  stakeholder  community  the  achievements  of  the  project  through  networking,  social  media,  workshops,  conferences  and  other  tools  and  channels  and  to  increase  project  awareness  especially  by  the  ciAzens;  

• To  gather  feedback  from  relevant  stakeholders  through  the  necessary  networking  acAviAes;  • To  offer  support  to  other  work  package  leaders  to  ensure  a  high  level  of  communicaAon  for  their  acAviAes;  

• To  assess  the  impact  of  the  project  and  to  assess  the  level  of  achievement  of  the  iniAal  objecAves.  

WP7  

• Exploita&on  and  sustainability  • The  main  objecAves  of  this  work  package  are:  • To  prepare  a  sound  and  realisAc  exploitaAon  plan  aiming  at  the  exploitaAon  of  the  SUNSHINE  project’s  results  in  a  global  scale;  

• To  analyse  the  market  and  assess  the  compeAAve  environment  surrounding  the  project;  • To  define  the  business  models  for  the  exploitaAon  for  the  project’s  main  results.  To  analyse  the  viability  and  profitability  of  each  business  model,  including  the  expected  impact  of  the  introducAon  of  SUNSHINE  results  in  a  large  event  environment;  

• To  prepare  a  realisAc  business  plan  that  will  establish  guidelines  to  the  deployment  of  the  SUNSHINE  results  focusing  on  technology  analysis,  distribuAon,  markeAng,  pricing  and  sales  strategy,  risks  idenAficaAon  and  financial  plan.  It  will  be  build  based  on  various  project  results.    

WP8  

• Project  coordinaAon  • The  objecAve  of  this  WP,  coordinated  by  GRAPHITECH,  are:  • To  ensure  the  project  goals  and  objecAves  are  met  in  compliance  with  the  project  work  plan  and  to  ensure  high  standards  in  terms  of  organisaAon  and  technical  development;  

• To  manage  and  supervise  the  project  and  to  provide  guide  and  advice  to  all  partners;  • To  deploy  the  management  structure  to  ensure  proper  control  over  the  projects’  acAviAes  for  proper  implementaAon  of  the  management  strategy  as  well  as  adherence  with  administraAve,  financial,  technical  requirements;    

• To  ensure  tracking  of  the  acAvity  to  ensure  completely  saAsfactory  results  and  to  guarantee  the  quality  of  planned  milestones  and  deliverables  with  the  following  tasks.  

www.sunshineproject.eu

Page 3

The Pilot Scenarios   

The  smart  services  proposed  address  the  following  three  scenarios:    •  Assessment  of  energy  performances  and  electronic  energy  pre-­‐cerAficaAon  ;    •  HeaAng/cooling  forecast  and  alerts;  •  OpAmisaAon  of  power  consumpAon  of  public  lighAng  systems.  S c e n a r i o 1 : A s s e s s m e n t o f e n e r g y performances and electronic energy pre-certification

Scenario 2: Heating/cooling forecast and alerts

Target  users  and  their  needs  This   pilot   targets   building  managers,   planners,   public  administrators,  and  ciAzens.    All   these   target   users   have   their   specific   needs,  namely:  •  Building  managers,  who  need  to:  

•  analyAcally   idenAfy   building   stocks  that   need   improvement   of   energy  performances;    

•  define  “cost-­‐opAmal  levels”;  •  accelerate   energy   cerAficaAon  

process   through   a   pre-­‐cerAficaAon  based   on   theoreAcal   building  performances   compared   against  “reference  buildings”;    

•  be  able  to  access  tools  to  analyAcally  define  “cost-­‐opAmal  levels”;    

•  publicly   show   building   energy  behaviour   of   building   stocks   based  on  analyAcal  models.  

•  Planners,  who  need  to:  •  r a p i d l y   e s A m a t e   e n e r g y  

performances   of   buildings   at   urban  scale;    

•  retrieve  analyAcal  indicators  that  can  be   used   to   define   energy   saving  policies   targeted  to  specific  porAons  of  the  city.  

•  Public   administrators,   who   need   to   define  energy-­‐saving  policies  based  on  true  requirement  of  public  building  stock.  

•  Ci&zens,  who  need  to:  •  be   informed  about  energy  efficiency  

of   public   buildings   and   consequent  energy  costs;  

•  in  case  of  dwellers  of  public  housing,  to  be  aware  of  energy  performances  of  the  building  they  live  in.  

 

Innova&ve  aspects  The   definiAon   of   a   service   that   can   provide  assessment   of   energy   behaviour   of   a   building   from  exis&ng  informa&on  would  provide  a  first  operaAonal  soluAon  to  the  EBPD.    Similarly,  the  operaAonal  definiAon  of  the  concept  of  “reference  building”   through  a  standardised  protocol  specifically  engineered   for  urban   informaAon  models  is   certainly   of   significant   innovaAve   value.   By  providing   a   reference   line   for   the   average  consumpAon  of  similar  buildings  it  will  be  possible  for  a   Facility  Manager   to   spot   and   correct   anomalies   in  Energy  usage.  A   further   innovaAon   is   the  possibility   to   define   pre-­‐cer&fica&on   of   buildings.   This   informaAon   could   be  then   use   to   create   online   catalogues   of   pre-­‐cerAficaAon   informaAon   on   predicted   environmental  performances  of  public  buildings.    The   project   aims   at   providing   a   real   control   over  consump&on   at   managed   facili&es.   The   situaAonal  awareness   provided   by   “current”   meter   data   and  weather   context   will   allow   a   “real”   energy  management  and  performance  improvement.    

Target  users  and  their  needs      This   pilot   targets   building   managers,   public  administrators,  ciAzens,  and  ESCOs.    All   these   target   users   have   their   specific   needs,  namely:  •  Building   managers,   who   need   to   manage   the  

exisAng  public  (and  private)  building  stock  to  the  highest   possible   level   of   energy   performance  (with  best  cost/performance  raAo).  

•  Public   administra&ons,   that   need   to   be   able   to  clearly   define   energy-­‐saving   policies   based   on  appropriate   management   of   current   public   and  private  building  stock.  

•  Ci&zens,  who  need  to:  •  be   i n f o rmed   a bou t   e n e r g y  

preservaAon   pracAces   of   public  buildings   and   consequent   energy  savings;    

•  to   receive  automaAc  alerts  noAfying  on  changing  weather  condiAons  that  require  change  to  serngs  of  cooling  of   heaAng   systems,  personalised   for  a   specific   building,   for   opAmal  energy-­‐use/comfort  raAo.  

•  ESCOs,   that   need   to   create   more   sophisAcate  bi l l ing   mechanisms   based   on   real-­‐Ame  consumpAon   level   and   communicaAon/noAficaAon  of  users.  

 

Innova&ve  aspects      The   most   important   aspect   of   this   scenario   regards  the  possibility  to  improve  energy  performances  and,  above   all,   inappropriate   use   of   energy   within   old  buildings   or   within   buildings   with   hea&ng/cooling  systems  with  no  automa&c  control.   These   represent  a   major   source   of   inefficiency   due   to   their   poor  performances.   The   approach   proposed   leverage   on  ICT   technology   to   facilitate   behavioural   changes  through  improved  awareness  of  building  manager  and  dwellers.  The  project  aims  at  integraAng  building  characterisAcs  with   weather   and   meter   data   to   gain   a   bePer  understanding   of   the   energy   consump&on   baseline  for   each   building   and   to   monitor   the   actual  performance   determined   by   the   management   and  usage  behaviours.      

www.sunshineproject.eu

Page 4

S c e n a r i o 3 : O p t i m i s a t i o n o f p o w e r consumption of public lighting systems

Target  users  and  their  needs      This   pilot   targets   building   managers,   oficers   at  municìpal   administraAon,   ESCOs,   planners,   and  professionals.    All   these   target   users   have   their   specific   needs,  namely:  •  Building  managers,  who  need  to  opAmise  lighAng  

levels   of   buildings   within   outdoor   spaces  minimising   or   curng   use   of   illuminaAon  whenever  not  required.  

•  Officers   at   municipal   administra&on,   who   need  to    

•  opAmise   running   and   maintenance  costs  at  city  level  through  large-­‐scale  opAmisaAon   of   public   illuminaAon  n e two r k   a c c o r d i n g   t o   r e a l  requirement   (reducing   or   curng  unnecessary  illuminaAon);    

•  access   informaAon   on   status   of   the  i l l um i n aAon   n e two r k   ( i n c l .  consumpAon,   failures,   specificaAons  etc.)   through   a   standardised  protocol;    

•  create   “ecomaps”,   which   show  dimmering   level   of   illuminaAon  systems   at   different   Ames   of   day/night  and  consequent  savings.  

•  ESCOs,   that   need   to   interface   to   exisAng   public  illuminaAon   networks   through   standardised  interface  via  interoperable  protocols  consistently  over  the  city.  

•  Planners,  who  need  to  define  planning  strategies  and   prioriAes   regarding   public   lighAng   based   on  precise   informaAon   on   public   illuminaAon  networks.  

•  Professionals,   who   need   to   access   a   plaVorm  from   where   to   access   informaAon   on   public  illuminaAon   network   and   where   to   update  georeferenced   informaAon   on   new/updated  lighAng  systems.  

 

Innova&ve  aspects      The  approach  proposed  fosters  a  more  op&mised  use  of   public   illumina&on   according   to   real   (variable)  requirements   and   from   a   user-­‐friendly   centralised  point   of   access,   based   on   extended   use   of  interoperable  standards.  The   use   of   this   approach   allows   integra&on   of   all  illumina&on   units   with   the   wide   ecosystem   of  sensors   available  within   the   area  and  which   can   be  assessed  and  controlled  via  the  web.  The  use  of  these  protocols   (specifically   SAS   and   SES)   also   allows  configuraAon  of  alerts   that   can  be  dispatched   to   the  operators   in   case   of   parAcular   condiAons,   which  extend   beyond   the   public   lighAng   systems.   In   fact,  through   this   approach,   it   becomes   possible   to  configure  very   complex  alerts   that   involve  a   variety  of  sensors  beyond  the  energy  management  domain.  For   instance,   an   alert   could   be   configured   to   inform  the  operator  whenever  environmental  sensors  detect,  within   a   given   geographical   area   (e.g.   the  aforemenAoned  areas  surrounding  the  stadium),  poor  visibility  (e.g.  due  to  fog),  when  illuminaAon  system  is  dimmed,  thus  creaAng  potenAal  dangerous  situaAons  that   would   instead   require   serng   lighAng   units   to  their  full  power.  

www.sunshineproject.eu Key Past Events  

 

Events Focus

For  more  Informa&on    about  Project  Events  visit  the  project  website:  hPp://www.sunshiheproject.eu      

SUNSHINE  was  present  in  various  conferences  and  events  in  many  ciAes  in  Europe:    •  CORP  Conference  (www.corp.at),  Rome,  Italy  20-­‐23  May  2013  22-­‐mag-­‐13  

•  Sixth   edi&on   of   the   research   conference   on   construc&ons,   economy   of   construc&ons,   architecture,  urbanism  and  territorial  development,  Bucharest,  18.10.2013      

•  2nd    Annual  Forum  of  the  EU  Strategy  for  the  Danube  Region  -­‐  Smart&Inclusive  Danube  Region  Thema&c  workshop,  Bucharest    28.10.2013  

•  Standardisa&on  OGC  CEN/TC  287  FrascaA  Oct-­‐13    

•  Standardisa&on  harmonisa&on  EC  Project  Officers  Brussels  Oct-­‐13  

•  CEN/TC  287  Na&onal  bodies  Norwegian  Standards  11/12  April  2013  

•  Giornata  nazionale  CIP  ICT  11  Marzo  2013  -­‐  Best  prac&ces  and  Success  Cases,  Roma,  Italy,  11  March,  2013  (De  Amicis  

INSPIRE Conference 2013

Workshop   on   "Enhancing   resilience   of   communiAes   and   territories   through   smart  technologies"  has  been  accepted  for  the  INSPIRE  Conference  2013.    

The  Conference  has  been  held  from  June  23  All  June  27,  2013,  in  the  city  of  Florence,  Italy.  

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Agit25 Symposium und Expo

The  Agit  25  conference  has  been  held  from  July  3  All  July  5,  2013,  in  the  city  of  Salzburg,  Austria.  

GI_Forum 2013

The  GI_Forum  2013  has  been  held   from  July  2  All   July  5,  2013,   in  the  city  of  Salzburg,  Austria.  Web 3D Conference 2013

The  Web  3D  Conference  2013  has  been  held  from  June  19  All  June  22,  2013,  in  the  city  of  San  SebasAan,  Spain.  

REAL CORP 2013

The   18th   InternaAonal   Conference   on   Urban   Planning   and   Regional   Development   in   the  InformaAon  Society  GeoMulAmedia  2013  has  been  held   from  May  20  All  May  23,  2013,   in  the  city  of  Rome,  Italy.  

www.sunshineproject.eu

Project Meetings 

Kick-Off Meeting

Trento Meeting

The  6th  and  the  7th  of  February  2013,  the  kick-­‐off  meeAng  of  the  SUNSHINE  project  has  taken  place  in  Trento,  hosted  by  Fondazione  Graphitech,  the  coordinator  of  the  project.  

From  the  14th  to  the  16th  of  October  2013,  the  second  project  meeAng  of  the  SUNSHINE  project  will  take  place  in  Trento,  hosted  by  Fondazione  Graphitech.  

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Future Events  

  The  project  will  be  further  disseminate  through  the  parAcipaAon  to:  

 

•  HFT2013  (in  Berlin  in  December  2013),  HCII2014  (in  Crete,  July  2014),  and  the  ETSI  

based  workshops  on  Intelligent  Transport  and  on  Security  in  Q1-­‐2014.    

•  A  joint  workshop  with  iSCOPE  on  the  topic  of  security  in  CityGML  and  the  prospect  

of  development  of  an  ADE  is  being  planned  for  April/May  2014  coincident  with  the  

CEN  TC287  and  OGC  meeAng  in  Seville  (Spain).  

•  REAL   CORP   2014.   The   19th   InternaAonal   Conference   on   Urban   Planning   and  

Regional  Development  in  the  InformaAon  Society  GeoMulAmedia  2013  will  be  held  

in  Vienna,  Austria,  from  the  21  to  the  23  of  May,  2013.  

www.sunshineproject.eu

Follow us  

The   SUNSHINE   project   is   also   promoted   through   several   social   networks   including  Facebook,   LinkedIn,   Twixer   and   YouTube.   These   can   be   accessed   at   the   following  addresses  or  through  the  QR  codes  next  to  each  of  the  social  network’s  logo.    Linked-­‐in:    hxp://www.linkedin.com/groups/Sunshine-­‐Project-­‐4863590    Facebook:    hxps://www.facebook.com/SunshineProjectEu  

 YouTube:    hxp://www.youtube.com/user/SunshineProjectEu  

 Twixer:      hxps://twixer.com/sunshine_EU  

 

 

 

 

Publications

Within  the  project,  some  publicaAons  have  been  made,  i.e.:  

-­‐  GI_Forum  2013  SUNSHINE  –  Smart  UrbaN  ServIces  for  Higher  eNergy  Efficiency    Linda  Dörrzapf,    Manfred  

Schrenk,  Wolfgang  Wasserburger  hxp://hw.oeaw.ac.at/7438-­‐7_inhalt?frames=yes  

-­‐  CORP  2013  SUNSHINE  –  Smart  UrbaN  ServIces  for  Higher  eNergy  Efficiency    Linda  Dörrzapf,  Barbara  Mušič,  

Manfred  Schrenk,  Wolfgang  Wasserburger  www.corp.at      

-­‐  GI_Forum  2013  SUNSHINE  –  Smart  UrbaN  ServIces  for  Higher  eNergy  Efficiency    Linda  Dörrzapf,    Manfred  

Schrenk,  Wolfgang  Wasserburger  hxp://www.gi-­‐forum.org/  

-­‐  Greenplanner  SUNSHINE  –  Smart  UrbaN  ServIces  for  Higher  eNergy  Efficiency      www.greenplanner.it/      

SUNSHINE @ Web 2.0

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