LET 2016
- IWA LET - Welcome - Gabriel Anzaldi
- IWA LET - H2020 Funding Opportunities - Grażyna Wojcieszko
- IWA LET - H2020 Funding Opportunities - Evdokia Achilleos
- IWA LET - H2020 Funding Opportunities - Aude Glenisson
- IWA LET - ICT4WATER Roadmap Updates necessary for Digital Single Market - Marcin Stachura
- IWA LET - Presentations/Round Table of EU funded projects - Lydia Vamvakeridou-Lyroudia
- IWA LET - Presentations/Round Table of EU funded projects - Chrysi Laspidou
- IWA LET - Presentations/Round Table of EU funded projects - BlueSCities
- IWA LET - Presentations/Round Table of EU funded projects - FreeWat
- IWA LET - Presentations/Round Table of EU funded projects - Kindra
- IWA LET - Presentations/Round Table of EU funded projects - WaterInnEU
- IWA LET - Project Sheet - CYTOWATER
- IWA LET - Project Sheet - POWERSTEP
- IWA LET - Project Sheet - iMetLand
- IWA LET - Project Sheet - SUBSOL
- IWA LET - Project Sheet - CENTAUR
User requirements and market studies
- iWIDGET - D1.1.1 – Requirements Analysis
- DAIDA - D1.1 – State of the art Report
- IceWater - D2.1 – State of the Art Analysis
- KINDRA - D1.1.1 – Requirements Analysis
- iWIDGET - D1.2 – Harmonised Terminology and Methodology for Groundwater Research Classification
- ISS-EWATUS - D2.3 – Study of the results of questionnaires and the content of the database data
- KINDRA - D4.7 – Report March
- KINDRA - D4.7 – Report on End User Requirements
- UrbanWater - D1.1 - The European water market analysis
- UrbanWater - D1.2 - User requirements in the water market
- UrbanWater - D2.1 - Analysis of proven technologies in AMR, WDN and WR
- WaterInnEU - D2.1 - Data availability report + DataBase - XLSX
- WaterInnEU - D2.2 - Water companies and solutions report + DataBase - XLSX
- WaterInnEU - D3.1 - Draft guidance report
- WatERP - Face Sheet
Data Management Plataform
- DAIAD - D1.2 – Requirements and Architecture
- Waternomics - D1.3 – System Architecture and KPI’s
- iWIDGET - D2.2.1 – Methodology, conceptual and architectural design
- IceWater - D5.1 – Multiple spatial and temporal models for consumption patterns identification
- SmartH2O - D3.2 – First User Behaviour Models
- SmartH2O - D6.1 – Developing, testing and releasing the SmartH2O software platform
- SmartH2O - D6.2 - Plataform Architecture and Design
- SmartH2O - D6.3 - Plataform Implementation and Integration
- UrbanWater - D4.3 Identification procedures for water demand prediction models
- UrbanWater - D6.2 - UrbanWater plaform architecture design
- WatERP - D7.2.1 - Implementation of MAS
- UrbanWater - D1.3 - Software Requirement Specification
Project plans and reports
- DAIAD - D8.2 – Dissemination and Training Plan
- DAIAD - D8.4 – Exploitation and Business Plan
- Effinet - D1.2 – Project Methodology
- Effinet - D7.1 – Dissemination And Exploitation Strategies
- SmartH2O - D1.1 - Management Process
- SmartH2O - D9.1 - Dissemination Tools and Materials
- SmartH2O - D9.2 - First Dissemination Report
- WaterInnEU - D1.1 - Project management structure and communication channels
- WaterInnEU - D1.2 - Draft Data Management Plan
- WaterInnEU - D4.1 - Plan for disseminating and exploiting the project’s results
- ISS-EWATUS - D8.1 – Dissemination plan
- ISS-EWATUS - D8.2 – Dissemination results
Sensors and Networks
- Effinet - D2.1 – Control-oriented Modelling For Operational Management Of Urban Water Networks
- Effinet - D2.2 – Real-time Control Algorithms For Optimal Operational Management V4.8
- Effinet - D2.3 – Economic And Technical Evaluation Of Operational Management Algortihms V1.1
- Effinet - D3.1 – Statement Of The Real-time Network Monitoring Problem<
- Effinet - D3.2 – Network Monitoring Sensor Placement Mass Balance And Water Quality V2.0
- Effinet - D3.3 – Sensor Validation And Reconstruction
- Effinet - D4.2 – Optimal Placement Of Meters, Pattern Demand Estimation And Short-term Forecasting V6.0
- ISS-EWATUS - D2.2 – The installation of sensors at household level
Applications
- iWIDGET - D2.2.2 – Final report on the working prototype
- DAIAD - D3.1.1 – Design Studies
- IceWater - D5.2 – Deterministic and probalistic approaches for predictive models of components deterioration
- SmartH2O - D2.1 – Use cases and early requirements
- SmartH2O - D2.2 – Final Requirements
- UrbanWater - D5.1 - Customer’s empowerment tools system requirement
Socio-economic
Standards, Methods & Policies
- Waternomics - D1.2 – Water ICT Technologies, Policies and Standards V1
- WatERP - D1.1 - Generic taxonomy for water supply distribution chain
- WatERP - D1.2 - Generic Functional model for water supply and usage data
- WatERP - D1.3 - Generic Ontology for water supply distribution chain
- WatERP - D7.1.1 - Holistic Auditing