Objective: WATERNOMICS will provide personalised and actionable information on water consumption and water availability to individual households, companies and cities in an intuitive & effective manner at relevant time-scales for decision m
To resolve upcoming shortages in clean drinking water, Waternomics will explore technologies and methodologies needed to successfully reduce water consumption from households, companies and municipalities. Waternomics is a three year, EU-funded project that started in February 2014 and will evaluate its results in three real life experiments in Italy, Greece and Poland.
This document discusses the Waternomics methodology for designing sustainable buildings. It can help architects communicate and coordinate with clients to select appropriate technologies and model future water and energy use. The methodology was used to design a smart water system for a new engineering building at Galway University in Ireland, reducing drinking water consumption by 20% through an improved rainwater harvesting system. The Waternomics methodology is applicable for new and retrofit buildings of any type.
Waternomics Flyer - ICT for Water Resource ManagementWaternomics
This is the Waternomics flyer. It highlights the objective, approach and results for the project. Furthermore, it give a overview of the project and its pilots and partners.
Interactive Water Services: The Waternomics ApproachEdward Curry
The document describes the Waternomics project, which aims to introduce demand response and accountability principles in the water sector through interactive water services. The project will develop a water information platform and tools to provide personalized water consumption and availability data to households, companies and cities. It will implement pilots in Greece, Italy and Ireland to test applications like water dashboards, prediction tools, simulations and games to increase user awareness and encourage behavioral changes. The platform uses linked open data, Internet of Things sensors and semantic technologies to integrate scattered water data sources and address challenges of data interoperability across domains.
Low cost sensors for collecting water dataWaternomics
The document describes a low-cost sensor system for collecting water usage data. It consists of ultrasonic flow meters and small water meters that measure water usage. A BeagleBone Black device collects data from the sensors via serial ports. A website allows users to monitor water usage data in real time and download collected data. Pilot tests of the system were conducted to collectively gather water usage data.
AUTOMATED LEAK DETECTION SYSTEM FOR THE IMPROVEMENT OF WATER NETWORK MANAGEMENTWaternomics
The need for an efficient Water Management System (WMS) is strongly felt by water utilities, municipalities and by medium to large scale corporates that have to face every day with problems dealing with water usage and supply [1]. Leveraging a sensor data network, an automated system to implement fault detection in a water network at an early stage can be a valuable tool that saves water, energy, time and money. This paper introduces a novel FDD (fault detection and diagnosis) approach for water networks developed within the FP7 Waternomics Project by modeling a water network in the simulation environment EPANET and applying an anomaly detection algorithm named ADWICE (Anomaly Detection With fast Incremental ClustEring) [2] to real time data of water flow and pressure to infer performance and operational anomalies. The method is currently being implemented at the Linate Airport water network in Milan, and initial results are presented in this paper.
Making your-very-own-android-apps-for-waternomics-using-app-inventor-2Waternomics
This document provides instructions for creating Android apps using App Inventor 2. It discusses the Waternomics project, which aims to reduce water consumption by providing users and managers with usage data. It then explains how App Inventor 2 allows users to build apps through a graphic block-based programming interface. The document proceeds to guide the reader through building some simple example apps, such as one that speaks text aloud and a basic calculator app. It concludes by outlining how to create a water footprint calculator app using data from the Waternomics project.
To resolve upcoming shortages in clean drinking water, Waternomics will explore technologies and methodologies needed to successfully reduce water consumption from households, companies and municipalities. Waternomics is a three year, EU-funded project that started in February 2014 and will evaluate its results in three real life experiments in Italy, Greece and Poland.
This document discusses the Waternomics methodology for designing sustainable buildings. It can help architects communicate and coordinate with clients to select appropriate technologies and model future water and energy use. The methodology was used to design a smart water system for a new engineering building at Galway University in Ireland, reducing drinking water consumption by 20% through an improved rainwater harvesting system. The Waternomics methodology is applicable for new and retrofit buildings of any type.
Waternomics Flyer - ICT for Water Resource ManagementWaternomics
This is the Waternomics flyer. It highlights the objective, approach and results for the project. Furthermore, it give a overview of the project and its pilots and partners.
Interactive Water Services: The Waternomics ApproachEdward Curry
The document describes the Waternomics project, which aims to introduce demand response and accountability principles in the water sector through interactive water services. The project will develop a water information platform and tools to provide personalized water consumption and availability data to households, companies and cities. It will implement pilots in Greece, Italy and Ireland to test applications like water dashboards, prediction tools, simulations and games to increase user awareness and encourage behavioral changes. The platform uses linked open data, Internet of Things sensors and semantic technologies to integrate scattered water data sources and address challenges of data interoperability across domains.
Low cost sensors for collecting water dataWaternomics
The document describes a low-cost sensor system for collecting water usage data. It consists of ultrasonic flow meters and small water meters that measure water usage. A BeagleBone Black device collects data from the sensors via serial ports. A website allows users to monitor water usage data in real time and download collected data. Pilot tests of the system were conducted to collectively gather water usage data.
AUTOMATED LEAK DETECTION SYSTEM FOR THE IMPROVEMENT OF WATER NETWORK MANAGEMENTWaternomics
The need for an efficient Water Management System (WMS) is strongly felt by water utilities, municipalities and by medium to large scale corporates that have to face every day with problems dealing with water usage and supply [1]. Leveraging a sensor data network, an automated system to implement fault detection in a water network at an early stage can be a valuable tool that saves water, energy, time and money. This paper introduces a novel FDD (fault detection and diagnosis) approach for water networks developed within the FP7 Waternomics Project by modeling a water network in the simulation environment EPANET and applying an anomaly detection algorithm named ADWICE (Anomaly Detection With fast Incremental ClustEring) [2] to real time data of water flow and pressure to infer performance and operational anomalies. The method is currently being implemented at the Linate Airport water network in Milan, and initial results are presented in this paper.
Making your-very-own-android-apps-for-waternomics-using-app-inventor-2Waternomics
This document provides instructions for creating Android apps using App Inventor 2. It discusses the Waternomics project, which aims to reduce water consumption by providing users and managers with usage data. It then explains how App Inventor 2 allows users to build apps through a graphic block-based programming interface. The document proceeds to guide the reader through building some simple example apps, such as one that speaks text aloud and a basic calculator app. It concludes by outlining how to create a water footprint calculator app using data from the Waternomics project.
Waternomics Open Day Thermi - Project overview and MethodologyWaternomics
Presentation of the Waternomics project and the Waternomics Methodology for smart water systems prepared for the Open Day in Thermi, Greece. First part of the presentation is in Greece.
This document discusses the development of a water information platform based on a linked sensor data framework. It aims to leverage data analytics and linked data to help secure access to sufficient and safe water by enabling intelligent water operation and control. The platform will provide personalized water consumption and availability information to households, companies and cities. It will support water management programs through tools and services developed on the platform. Three pilot sites will test the platform - a domestic site, a corporate site at an airport, and a public site at a school and university.
Contact Ultra4 to arrange a demo of the Waternomics Application Platform (WAP), which offers customizable applications to monitor water consumption and costs, detect abnormal usage and leaks, and manage water networks. WAP provides over 50 applications to technical, operational, and managerial users at Milan Airport, helping them manage their complex water network with over 60 sensors through easy monitoring and unified notifications.
Waternomics - ICT for Water Resource Management - Water Information PlatformWaternomics
As part of the Waternomics project, various exploitable results have been identified. The Water Information Platform is one of these results. This document highlights the objective, and key benefits of this Water Information Platform.
Waternomics project overview for EIP Water Conference 2016Waternomics
The Waternomics project is a research project funded by the European Commission to explore how ICT can help households, companies, and cities manage water more efficiently. The project has involved developing new technologies and a methodology to provide personalized water consumption and availability information to help with decision making. Pilot tests of the approaches were conducted in Greece, Italy, and Ireland. The project has generated ideas for new products and services, pursued additional research, and involved partnerships between the nine participating organizations from four countries.
Waternomics: Overview of the Pilots Objectives, Measures and OutcomesWaternomics
This is a presentation made by Louise Hannon at the Waternomics final event on 31/01/2017 for sharing an overview of the Pilots Objectives, Measures and Outcomes
Water Conservation in Galway City & WaternomicsWaternomics
This is a presentation made by Elizabeth Fanning from Galway City Council at the Waternomics final event on 31/01/2017 for sharing Galway city water conservation plan and annoucing the Green leaf award 2017
Waternomics: Serving Diverge User Needs under a Single Water Information Plat...Waternomics
The document discusses testing of a water management platform called WATERNOMICS that aims to provide users with insightful water data. It conducted user experience testing using paper prototypes with diverse users from three pilot locations - a residential community, large airport, and university. The testing revealed that while user needs varied between domestic, enterprise, and public users, there were also common needs around accessing meaningful, timely information to support decisions while educating themselves and having an engaging experience. To address these varied yet overlapping needs, the document proposes providing a marketplace of customizable apps that can be selected and suggested based on user profiles and categorized by function.
This document discusses the Waternomics project, which aims to develop smart water management applications. It notes that water demand is increasing globally while infrastructure is costly to maintain. The Waternomics project involves 3 pilot sites in Greece, Italy, and Ireland to test applications for domestic, corporate, and city users. The goal is to use new technologies and data to improve water monitoring, leak detection, and encourage conservation.
The document discusses the Waternomics project which developed a smart water management system using Internet of Things sensors, predictive analytics, and linked open data. The system includes 43 water sensors installed across 3 pilot sites that collect and integrate data from multiple sources. This data is stored and processed using a linked data and lambda architecture to create a real-time linked water dataspace. The goal is to enable smart water applications through an open and scalable platform for water data management and analytics.
The document summarizes the results and impact of the Waternomics project. The project developed a standardized methodology for implementing smart water management systems using Internet of Things technologies. It involved nine partners across four countries and included four pilot sites. The project produced over 20 water applications, integrated 28 datasets into a linked water dataspace, and generated economic and dissemination impacts including new business opportunities and over 9,500 website visitors.
Regulation and water pricing to simulate efficiency in water services: the ro...EIP Water
This document discusses how water regulation and pricing in Portugal is stimulating more efficient water services. It provides an overview of water regulation authorities worldwide and the rationale for regulation in Portugal given the large number and diversity of water operators. The Portuguese Water and Waste Services Regulation Authority regulates utilities to incentivize quality of service, economic efficiency, and innovation. Regulation aims to balance efficiency gains, sustainability, and affordability through tools like benchmarking, information sharing, and new tariff models that promote cost recovery while incentivizing operators to invest in innovation. Challenges remain around infrastructure maintenance, operational efficiency, and financial sustainability.
The SmartH2O project receives EU funding to develop technology for improving water efficiency through new business partnerships between water utilities and customers. The project aims to turn smart meter water consumption data into a business intelligence tool to help utilities predict demand, optimize operations, and foster sustainable customer behavior. The technology includes a gamified consumer portal, data analytics for customer segmentation and behavioral change, and serious games for customer engagement. The system has been in alpha testing and will be deployed in London, Valencia, and other locations in 2016-2017.
7. Jessica Stromback (VaasaETT) - Consumer Program Development in Europe Toda...Cassandra Project
The document summarizes a workshop on the Cassandra Project's Network of Interest (NOI) and the potential for demand side programs in electrical power systems. It discusses how demand response programs have generated billions in revenue in the US and have the potential to reduce peak demand by 6-13% in Europe. The NOI currently has 72 members from various industries. Cassandra will look to process data from 11 member companies to help maximize the potential of demand side programs in Europe through an open platform like Cassandra that enables feedback, demand response, and cooperation across the NOI.
Presentation from the EPRI-Sandia Symposium on Secure and Resilient Microgrids: Rivermoor Energy, presented by John Tourtelotte, Baltimore, MD, August 29-31, 2016.
Public awareness and feedback – Insights from the SmartH2O project SmartH2O
The document discusses insights from the SmartH2O project on raising public awareness and providing feedback to induce behavior change related to water consumption. It outlines two main challenges of how to present consumption information to users and motivate them to change behavior. It then describes the SmartH2O approach which includes a consumer portal with gamification elements, consumption feedback, tips, goals and rewards to engage users. Initial results from a validation study in Spain show positive user acceptance of the technology and motivation from gamification. Analysis of user activity levels and consumption data also provide early signs that the approach may help influence behaviors.
The SWAMP project develops IoT-based methods for smart water management in precision irrigation. It aims to develop these methods, address climate change challenges by using water and energy efficiently, and maximize crop yields. The project will pilot the approaches in Europe and Brazil, with objectives of automating platforms, integrating sensors, and validating new business models for smart water management.
The document describes a Resilience.IO simulation model to evaluate water, sanitation, and hygiene (WASH) scenarios in the Greater Accra Metropolitan Area (GAMA) of Ghana. It includes a synthetic population model to simulate water and sanitation demands. Technology datasets are used to model infrastructure options. Three use cases are presented: assessing ongoing projects, increasing water access, and analyzing toilet availability. Baseline results show ongoing projects will not meet 2025 goals, while city-wide systems achieving 100% access and treatment would require over $2 billion of investment from 2015-2025.
This document discusses hydroelectric power potential in Europe. It summarizes that a study by the European Environment Agency (EEA) found the technical potential for hydroelectric power is restricted, but the environmental potential is even more limited after accounting for environmental factors. The study used a database called ECRINS to analyze hydrological data and potential dam sites in catchments. It made assumptions about factors like water flow rates, plant efficiencies, costs, and environmental impacts to estimate potential. While the technical potential is limited, the document suggests focusing on innovating business models to adapt. It also notes that environmental protections like Article 4.7 must be maintained.
Waternomics Methodology: A Standards based Methodology for the Implementation...Waternomics
This brochure shows the Waternomics methodology introduced as a standards based methodology for the implementation of water efficiency programs using smart water systems
Waternomics Open Day Thermi - Project overview and MethodologyWaternomics
Presentation of the Waternomics project and the Waternomics Methodology for smart water systems prepared for the Open Day in Thermi, Greece. First part of the presentation is in Greece.
This document discusses the development of a water information platform based on a linked sensor data framework. It aims to leverage data analytics and linked data to help secure access to sufficient and safe water by enabling intelligent water operation and control. The platform will provide personalized water consumption and availability information to households, companies and cities. It will support water management programs through tools and services developed on the platform. Three pilot sites will test the platform - a domestic site, a corporate site at an airport, and a public site at a school and university.
Contact Ultra4 to arrange a demo of the Waternomics Application Platform (WAP), which offers customizable applications to monitor water consumption and costs, detect abnormal usage and leaks, and manage water networks. WAP provides over 50 applications to technical, operational, and managerial users at Milan Airport, helping them manage their complex water network with over 60 sensors through easy monitoring and unified notifications.
Waternomics - ICT for Water Resource Management - Water Information PlatformWaternomics
As part of the Waternomics project, various exploitable results have been identified. The Water Information Platform is one of these results. This document highlights the objective, and key benefits of this Water Information Platform.
Waternomics project overview for EIP Water Conference 2016Waternomics
The Waternomics project is a research project funded by the European Commission to explore how ICT can help households, companies, and cities manage water more efficiently. The project has involved developing new technologies and a methodology to provide personalized water consumption and availability information to help with decision making. Pilot tests of the approaches were conducted in Greece, Italy, and Ireland. The project has generated ideas for new products and services, pursued additional research, and involved partnerships between the nine participating organizations from four countries.
Waternomics: Overview of the Pilots Objectives, Measures and OutcomesWaternomics
This is a presentation made by Louise Hannon at the Waternomics final event on 31/01/2017 for sharing an overview of the Pilots Objectives, Measures and Outcomes
Water Conservation in Galway City & WaternomicsWaternomics
This is a presentation made by Elizabeth Fanning from Galway City Council at the Waternomics final event on 31/01/2017 for sharing Galway city water conservation plan and annoucing the Green leaf award 2017
Waternomics: Serving Diverge User Needs under a Single Water Information Plat...Waternomics
The document discusses testing of a water management platform called WATERNOMICS that aims to provide users with insightful water data. It conducted user experience testing using paper prototypes with diverse users from three pilot locations - a residential community, large airport, and university. The testing revealed that while user needs varied between domestic, enterprise, and public users, there were also common needs around accessing meaningful, timely information to support decisions while educating themselves and having an engaging experience. To address these varied yet overlapping needs, the document proposes providing a marketplace of customizable apps that can be selected and suggested based on user profiles and categorized by function.
This document discusses the Waternomics project, which aims to develop smart water management applications. It notes that water demand is increasing globally while infrastructure is costly to maintain. The Waternomics project involves 3 pilot sites in Greece, Italy, and Ireland to test applications for domestic, corporate, and city users. The goal is to use new technologies and data to improve water monitoring, leak detection, and encourage conservation.
The document discusses the Waternomics project which developed a smart water management system using Internet of Things sensors, predictive analytics, and linked open data. The system includes 43 water sensors installed across 3 pilot sites that collect and integrate data from multiple sources. This data is stored and processed using a linked data and lambda architecture to create a real-time linked water dataspace. The goal is to enable smart water applications through an open and scalable platform for water data management and analytics.
The document summarizes the results and impact of the Waternomics project. The project developed a standardized methodology for implementing smart water management systems using Internet of Things technologies. It involved nine partners across four countries and included four pilot sites. The project produced over 20 water applications, integrated 28 datasets into a linked water dataspace, and generated economic and dissemination impacts including new business opportunities and over 9,500 website visitors.
Regulation and water pricing to simulate efficiency in water services: the ro...EIP Water
This document discusses how water regulation and pricing in Portugal is stimulating more efficient water services. It provides an overview of water regulation authorities worldwide and the rationale for regulation in Portugal given the large number and diversity of water operators. The Portuguese Water and Waste Services Regulation Authority regulates utilities to incentivize quality of service, economic efficiency, and innovation. Regulation aims to balance efficiency gains, sustainability, and affordability through tools like benchmarking, information sharing, and new tariff models that promote cost recovery while incentivizing operators to invest in innovation. Challenges remain around infrastructure maintenance, operational efficiency, and financial sustainability.
The SmartH2O project receives EU funding to develop technology for improving water efficiency through new business partnerships between water utilities and customers. The project aims to turn smart meter water consumption data into a business intelligence tool to help utilities predict demand, optimize operations, and foster sustainable customer behavior. The technology includes a gamified consumer portal, data analytics for customer segmentation and behavioral change, and serious games for customer engagement. The system has been in alpha testing and will be deployed in London, Valencia, and other locations in 2016-2017.
7. Jessica Stromback (VaasaETT) - Consumer Program Development in Europe Toda...Cassandra Project
The document summarizes a workshop on the Cassandra Project's Network of Interest (NOI) and the potential for demand side programs in electrical power systems. It discusses how demand response programs have generated billions in revenue in the US and have the potential to reduce peak demand by 6-13% in Europe. The NOI currently has 72 members from various industries. Cassandra will look to process data from 11 member companies to help maximize the potential of demand side programs in Europe through an open platform like Cassandra that enables feedback, demand response, and cooperation across the NOI.
Presentation from the EPRI-Sandia Symposium on Secure and Resilient Microgrids: Rivermoor Energy, presented by John Tourtelotte, Baltimore, MD, August 29-31, 2016.
Public awareness and feedback – Insights from the SmartH2O project SmartH2O
The document discusses insights from the SmartH2O project on raising public awareness and providing feedback to induce behavior change related to water consumption. It outlines two main challenges of how to present consumption information to users and motivate them to change behavior. It then describes the SmartH2O approach which includes a consumer portal with gamification elements, consumption feedback, tips, goals and rewards to engage users. Initial results from a validation study in Spain show positive user acceptance of the technology and motivation from gamification. Analysis of user activity levels and consumption data also provide early signs that the approach may help influence behaviors.
The SWAMP project develops IoT-based methods for smart water management in precision irrigation. It aims to develop these methods, address climate change challenges by using water and energy efficiently, and maximize crop yields. The project will pilot the approaches in Europe and Brazil, with objectives of automating platforms, integrating sensors, and validating new business models for smart water management.
The document describes a Resilience.IO simulation model to evaluate water, sanitation, and hygiene (WASH) scenarios in the Greater Accra Metropolitan Area (GAMA) of Ghana. It includes a synthetic population model to simulate water and sanitation demands. Technology datasets are used to model infrastructure options. Three use cases are presented: assessing ongoing projects, increasing water access, and analyzing toilet availability. Baseline results show ongoing projects will not meet 2025 goals, while city-wide systems achieving 100% access and treatment would require over $2 billion of investment from 2015-2025.
This document discusses hydroelectric power potential in Europe. It summarizes that a study by the European Environment Agency (EEA) found the technical potential for hydroelectric power is restricted, but the environmental potential is even more limited after accounting for environmental factors. The study used a database called ECRINS to analyze hydrological data and potential dam sites in catchments. It made assumptions about factors like water flow rates, plant efficiencies, costs, and environmental impacts to estimate potential. While the technical potential is limited, the document suggests focusing on innovating business models to adapt. It also notes that environmental protections like Article 4.7 must be maintained.
Waternomics Methodology: A Standards based Methodology for the Implementation...Waternomics
This brochure shows the Waternomics methodology introduced as a standards based methodology for the implementation of water efficiency programs using smart water systems
El documento describe cómo el aprendizaje colaborativo promueve la construcción de conocimiento a través del proceso de enseñanza-aprendizaje y el trabajo en equipo, estimulando las habilidades personales. Además, el aprendizaje colaborativo ayuda a desarrollar valores como mejorar las relaciones interpersonales, satisfacción por el propio trabajo, motivación por el trabajo individual y grupal, y mejorar el desarrollo del pensamiento, ya que la dinámica grupal permite la interacción entre los estudiantes.
Sandra Neidinger is a graduate student at Avila University pursuing an MS in Psychology with a research concentration. She has a strong research background from her undergraduate studies at UMKC where she graduated cum laude with a BA in Psychology in 2014. Her research experience includes multiple positions as a research assistant in neuropsychology and emotions labs where she conducted literature reviews, data collection and analysis, and poster presentations.
El documento describe un proyecto para reducir los costos de impuestos por el alumbrado público. La idea es colocar paneles solares en la parte superior de las lámparas urbanas para que se carguen durante el día con la luz solar y funcionen con esa energía acumulada durante la noche.
This document summarizes the efforts of the Rotaracts of Kathmandu Mid Town to provide prosthetic hands to amputees in Nepal through the "Giving Hands - Enabling Mobility" project from 2012-2013. It discusses the planning process, promotion and fundraising efforts, distribution of 55 prosthetic hands to recipients across 26 districts in Nepal, and an analysis of the recipients' demographics and reasons for amputation. Challenges included difficulties registering recipients outside Kathmandu valley and a lack of hospital records on amputees. The project benefited from guidance, volunteer support, and media coverage.
El documento ofrece consejos para tener buenas relaciones interpersonales y crear una sociedad más positiva. Recomienda saludar a otros con optimismo, sonreír en lugar de mostrar amargura, llamar a las personas por su nombre, colaborar y compartir el éxito con amigos, ser amables, hablar bien de los demás, aceptar las diferencias de opinión, servir a todos, ser sinceros, mantener la serenidad, y continuar estudiando.
Coca-Cola is a carbonated soft drink sold worldwide and produced by The Coca-Cola Company. Originally created as a patent medicine in the late 19th century, Coca-Cola's marketing tactics led to its dominance in the soft drink market in the 20th century. The Coca-Cola Company produces concentrate that is sold to licensed bottlers who produce the finished product. The bottlers then sell and distribute Coca-Cola products. The Coca-Cola Company also sells fountain syrup to restaurants and food service distributors. Coca-Cola has introduced other cola drinks under its brand, like Diet Coke, and is working to remove controversial additives from some products in response to consumer preferences.
Tratamiento tributario-de-los-activo-fijos según NIC 16UNPRG
1. El documento trata sobre el tratamiento contable y tributario de los activos fijos de una empresa. 2. Incluye la normativa aplicable, los componentes del costo de los activos, su medición y registro contable inicial, y el modelo de depreciación lineal. 3. También cubre temas como la revaluación voluntaria de activos y su tratamiento tributario.
Business Capability-centric Management of Services and Business Process ModelsWassim Derguech
With the advent of Industry 4.0, more and more companies are actively working on digitising their assets (i.e., services, processes, etc.) for better control, collaboration, modularity, analysis, etc. By 2020 more than 80% of companies will have digitised their business processes and value chains. This creates more services and processes, making their indexing, discovery, configuration, etc. more challenging. Thus, digitising assets needs a data model to describe them together with algorithms for indexing, discovery and configuration.
This thesis details a concept model for describing the business capability of services and business processes from a functional perspective in terms of what do they achieve together with related business properties. Furthermore, this work proposes the aggregation, indexing, discovery and configuration of services and business processes using the concept of business capability.
Shazam that water leak! Sensors and faultsWaternomics
This is a presentation made by Joanne Craven at the Waternomics final event on 31/01/2017 for sharing the project contribution in terms of leak detection software and hardware.
Coca-Cola has had a long history of successful advertising campaigns dating back to the late 19th century. Its "It's Mine" Super Bowl ad from 2008 was another hit, communicating the brand's warm emotions. The ad showed a playful battle between balloon characters to possess a giant Coca-Cola bottle during the Macy's Thanksgiving Day Parade. Though an expensive spot, it was well-received, gaining attention online and receiving industry awards. Coca-Cola's sustained success stems from iconic ads that have shaped culture while connecting with consumers' hearts and lives.
Smart cities - Perspectives from the SouthWaternomics
This document discusses perspectives on smart cities, particularly from developing countries in the global South. It outlines key challenges facing cities related to mobility, resources, and the environment. Smart cities aim to address these challenges through ICT-enabled urban innovation projects and continuous processes. The document presents the "SCID" framework for designing smart city initiatives and discusses how smart cities can help implement the UN's Sustainable Development Goals. Examples are given of smart city solutions in developing areas for renewable energy, water mapping, real estate projects, and partnerships between governments and private organizations. The document argues that the SDGs will increasingly frame smart city efforts in Africa.
Waternomics: Business Models and ExploitationWaternomics
This is a presentation made by Sander Smit at the Waternomics final event on 31/01/2017 for sharing the project contribution in terms of business models and exploitation
This is a presentation made by Sander Smit at the Waternomics final event on 31/01/2017 for sharing an overview of the Waternomics Methodology for developing and Water Management Plan
Waternomics Applications Platform - Water Apps for EveryoneWaternomics
The document describes the development of water management apps created by the Waternomics project. It discusses creating initial ideas and paper prototypes during the apps' childhood (months 4-8), developing features and testing prototypes during their teenage years (months 7-11), creating working prototypes connected to sensors during their 30s (months 10-18). It proposes a single platform that can serve diverse users and needs with customizable apps that can be built by users to address their specific requirements.
This is a presentation made by Edward Curry at the Waternomics final event on 31/01/2017 for welcoming the participants and sharing an overview of the project contributions
Waternomics: Making Sense of Water DataWaternomics
This is a presentation made by Wassim Derguech at the Waternomics final event on 31/01/2017 for sharing the project contribution for the management of data sources: sensor data, enterprise data and open data
A presentation of the main results and impacts of the waternomics project during its series of final events. This presentation is given by Dr. Wassim Derguech at a research seminar at the Insight Centre for Data Analytics at NUIG on 27/01/2017
The business value of a smart water system Waternomics
Presentation of the results from the Waternomics project for the European Utility Week 2016 by Sander Smit from BM-Change. Presentation shows preceived business value of the four pilots.
This document provides instructions for creating a water usage visualization application using the Play Framework. It describes how to install Play, create a new Play project, and build a basic "Hello World" application. It then explains how to modify the application to query a Druid database for the last 30 days of water consumption data for a sensor and display the results in JSON format.
This document provides an overview of using Python for data analysis. It discusses Python's core libraries for data access (Pandas, RDFlib, Requests), manipulation (Numpy, Pandas, Scipy), and visualization (Matplotlib, Seaborn, Bokeh). It also covers tips for running Jupyter notebooks, package management with pip and conda, and advanced machine learning libraries like scikit-learn. The document uses a case study of water data analysis to illustrate Python's capabilities for extracting, transforming, and loading data from various sources.
Waternomics Open Day Thermi - Results Linate airport pilotWaternomics
This document summarizes information presented at an open day event in Thessaloniki on October 11, 2016 about a waternomics pilot project at Linate Airport in Milan. The project installed new water meters and sensors to monitor water usage in two pilot areas - District Metered Area 6 and the Terminal Building. This data is visualized on an online platform to help airport staff analyze consumption patterns, detect leaks, and explore strategies to optimize water resource management and reduce costs. Feedback from airport staff indicated the platform could be further improved by adding reporting functions, clearer building labels, and additional data parameters.
LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UPRAHUL
This Dissertation explores the particular circumstances of Mirzapur, a region located in the
core of India. Mirzapur, with its varied terrains and abundant biodiversity, offers an optimal
environment for investigating the changes in vegetation cover dynamics. Our study utilizes
advanced technologies such as GIS (Geographic Information Systems) and Remote sensing to
analyze the transformations that have taken place over the course of a decade.
The complex relationship between human activities and the environment has been the focus
of extensive research and worry. As the global community grapples with swift urbanization,
population expansion, and economic progress, the effects on natural ecosystems are becoming
more evident. A crucial element of this impact is the alteration of vegetation cover, which plays a
significant role in maintaining the ecological equilibrium of our planet.Land serves as the foundation for all human activities and provides the necessary materials for
these activities. As the most crucial natural resource, its utilization by humans results in different
'Land uses,' which are determined by both human activities and the physical characteristics of the
land.
The utilization of land is impacted by human needs and environmental factors. In countries
like India, rapid population growth and the emphasis on extensive resource exploitation can lead
to significant land degradation, adversely affecting the region's land cover.
Therefore, human intervention has significantly influenced land use patterns over many
centuries, evolving its structure over time and space. In the present era, these changes have
accelerated due to factors such as agriculture and urbanization. Information regarding land use and
cover is essential for various planning and management tasks related to the Earth's surface,
providing crucial environmental data for scientific, resource management, policy purposes, and
diverse human activities.
Accurate understanding of land use and cover is imperative for the development planning
of any area. Consequently, a wide range of professionals, including earth system scientists, land
and water managers, and urban planners, are interested in obtaining data on land use and cover
changes, conversion trends, and other related patterns. The spatial dimensions of land use and
cover support policymakers and scientists in making well-informed decisions, as alterations in
these patterns indicate shifts in economic and social conditions. Monitoring such changes with the
help of Advanced technologies like Remote Sensing and Geographic Information Systems is
crucial for coordinated efforts across different administrative levels. Advanced technologies like
Remote Sensing and Geographic Information Systems
9
Changes in vegetation cover refer to variations in the distribution, composition, and overall
structure of plant communities across different temporal and spatial scales. These changes can
occur natural.
How to Setup Warehouse & Location in Odoo 17 InventoryCeline George
In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.
Gender and Mental Health - Counselling and Family Therapy Applications and In...PsychoTech Services
A proprietary approach developed by bringing together the best of learning theories from Psychology, design principles from the world of visualization, and pedagogical methods from over a decade of training experience, that enables you to: Learn better, faster!
This document provides an overview of wound healing, its functions, stages, mechanisms, factors affecting it, and complications.
A wound is a break in the integrity of the skin or tissues, which may be associated with disruption of the structure and function.
Healing is the body’s response to injury in an attempt to restore normal structure and functions.
Healing can occur in two ways: Regeneration and Repair
There are 4 phases of wound healing: hemostasis, inflammation, proliferation, and remodeling. This document also describes the mechanism of wound healing. Factors that affect healing include infection, uncontrolled diabetes, poor nutrition, age, anemia, the presence of foreign bodies, etc.
Complications of wound healing like infection, hyperpigmentation of scar, contractures, and keloid formation.
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বাংলাদেশের অর্থনৈতিক সমীক্ষা ২০২৪ [Bangladesh Economic Review 2024 Bangla.pdf] কম্পিউটার , ট্যাব ও স্মার্ট ফোন ভার্সন সহ সম্পূর্ণ বাংলা ই-বুক বা pdf বই " সুচিপত্র ...বুকমার্ক মেনু 🔖 ও হাইপার লিংক মেনু 📝👆 যুক্ত ..
আমাদের সবার জন্য খুব খুব গুরুত্বপূর্ণ একটি বই ..বিসিএস, ব্যাংক, ইউনিভার্সিটি ভর্তি ও যে কোন প্রতিযোগিতা মূলক পরীক্ষার জন্য এর খুব ইম্পরট্যান্ট একটি বিষয় ...তাছাড়া বাংলাদেশের সাম্প্রতিক যে কোন ডাটা বা তথ্য এই বইতে পাবেন ...
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ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
Denis is a dynamic and results-driven Chief Information Officer (CIO) with a distinguished career spanning information systems analysis and technical project management. With a proven track record of spearheading the design and delivery of cutting-edge Information Management solutions, he has consistently elevated business operations, streamlined reporting functions, and maximized process efficiency.
Certified as an ISO/IEC 27001: Information Security Management Systems (ISMS) Lead Implementer, Data Protection Officer, and Cyber Risks Analyst, Denis brings a heightened focus on data security, privacy, and cyber resilience to every endeavor.
His expertise extends across a diverse spectrum of reporting, database, and web development applications, underpinned by an exceptional grasp of data storage and virtualization technologies. His proficiency in application testing, database administration, and data cleansing ensures seamless execution of complex projects.
What sets Denis apart is his comprehensive understanding of Business and Systems Analysis technologies, honed through involvement in all phases of the Software Development Lifecycle (SDLC). From meticulous requirements gathering to precise analysis, innovative design, rigorous development, thorough testing, and successful implementation, he has consistently delivered exceptional results.
Throughout his career, he has taken on multifaceted roles, from leading technical project management teams to owning solutions that drive operational excellence. His conscientious and proactive approach is unwavering, whether he is working independently or collaboratively within a team. His ability to connect with colleagues on a personal level underscores his commitment to fostering a harmonious and productive workplace environment.
Date: May 29, 2024
Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
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Find out more about ISO training and certification services
Training: ISO/IEC 27001 Information Security Management System - EN | PECB
ISO/IEC 42001 Artificial Intelligence Management System - EN | PECB
General Data Protection Regulation (GDPR) - Training Courses - EN | PECB
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Article: https://pecb.com/article
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Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
Communicating effectively and consistently with students can help them feel at ease during their learning experience and provide the instructor with a communication trail to track the course's progress. This workshop will take you through constructing an engaging course container to facilitate effective communication.
1. WATERNOMICS will provide personalised and actionable information on water
consumption and water availability to individual households, companies and cities
in an intuitive & effective manner at relevant time-scales for decision making
ICT for Water Resource Management
Objective
Methodology
Dataspace Architecture
Primary Outcome
Key Technologies
Pilot Sites
Applications
Physical Alerts and
Consumption Awareness
THERMI, GREECE
Domestic users and
utility providers.
LINATE AIRPORT,
MILAN, ITALY
Corporate Users
GALWAY, IRELAND
School and University
(Public Users)