Smart Grids are the future of Energy Grids. This very clean and visual presentation makes a perfect introduction on a talk about smart grids when together with a matching speech.
This was shown at TEDx in Portugal, October 2010.
Ls catalog thiet bi tu dong smart grid e_110601Dien Ha The
1) LSIS provides a smart grid solution called SMART GRID that enables two-way real-time sharing of power information between suppliers and consumers to maximize energy efficiency. 2) The solution includes smart grid infrastructure, products, and total solutions for places, transportation, electricity services, and renewable energy. 3) LSIS aims to build the foundations for a green future through innovative smart grid technologies.
This document discusses smart grids and provides an overview presented by Ms. Sk. Rizwana. It defines smart grids as using two-way digital technology to control appliances and save energy. Key smart grid technologies discussed include advanced metering infrastructure, demand response, distributed generation, home area networks, communication networks, cyber security, electric vehicles, and energy storage. An overview of smart grid development in countries like China, US, Japan, Korea, Spain, and India's vision for renewable energy sources by 2050 is also provided. The advantages of smart grids like better power quality and renewable integration and disadvantages like network challenges and security issues are highlighted.
The Smart Grid will provide operational benefits including:
1) Optimizing asset utilization and more efficient grid operation by increasing use of existing production and transmission capacity with real-time data.
2) Enhancing reliability by reducing failure-related costs, isolating faults rapidly, and restoring service through communication and control technologies.
3) Improving power quality to meet demands of digital loads by limiting impacts of power quality events using Smart Grid components and backup power supplies.
Smart Buildings, Smart Cities, Smart Screens - The future of public screens i...Bruce Duyshart
This document discusses smart buildings, smart cities, and smart screens. It provides examples of smart building features like sensors, data collection, and automation from a case study in Amsterdam. Smart cities are defined as using technology and open data to improve sustainability, liveability, and workability. Barcelona is highlighted as working on smart lighting, energy, water, and transportation projects. The role of open data platforms in smart cities is also discussed. The future of public screens in urban areas is mentioned along with examples of using mobile data to drive screen content.
IMGS' technical director's presentation from the Breakfast Briefing on the 14th November 2012 with Minister of State, Fergus O'Dowd. The aim of the event was to promote World GIS Day and to highlight how GI technology is used in Ireland today.
The future of hyperconnected buildings - Illumni 2014Bruce Duyshart
Presented as part of the Illumni Future of Lighting Summit 2014 (http://futureof.lighting) in collaboration with the Sydney Vivid Festival of Light, Music and Ideas. (http://www.vividsydney.com).
Presentation Synopsis
Today we are living in a hyper-connected data driven world. The phenomenal global rise of mobile and wearable computing is raising the bar of digital literacy and has awakened people's awareness and expectations of what can be achieved with technology. But how will this expectation match the reality of what is evolving in the built form environments we live and work in?
This insightful presentation examines the status of technological progress that is occurring outside of the property industry.
It then explores the concept of smart buildings that are now beginning to sense, adapt and respond to our functional, environmental and personal needs.
To conclude, a number of smart lighting concepts are illustrated that illustrates how light and technology can be combined in ways that adds intelligence and provides better user experiences to a range of environments.
Gram Power has developed an integrated smart microgrid technology to provide electricity access to the 400 million people in India who currently do not have it. Their system uses an innovative power management unit in each home that provides metered prepaid power from distributed battery storage and DC transmission to prevent theft. This modular design can power between 20 to 1000 homes with energy needs from 11Wh to 2000Wh. Their vision is to allow people to leapfrog from no power access to a reliable smart microgrid, enabling economic and social development through access to basic electricity.
Ls catalog thiet bi tu dong smart grid e_110601Dien Ha The
1) LSIS provides a smart grid solution called SMART GRID that enables two-way real-time sharing of power information between suppliers and consumers to maximize energy efficiency. 2) The solution includes smart grid infrastructure, products, and total solutions for places, transportation, electricity services, and renewable energy. 3) LSIS aims to build the foundations for a green future through innovative smart grid technologies.
This document discusses smart grids and provides an overview presented by Ms. Sk. Rizwana. It defines smart grids as using two-way digital technology to control appliances and save energy. Key smart grid technologies discussed include advanced metering infrastructure, demand response, distributed generation, home area networks, communication networks, cyber security, electric vehicles, and energy storage. An overview of smart grid development in countries like China, US, Japan, Korea, Spain, and India's vision for renewable energy sources by 2050 is also provided. The advantages of smart grids like better power quality and renewable integration and disadvantages like network challenges and security issues are highlighted.
The Smart Grid will provide operational benefits including:
1) Optimizing asset utilization and more efficient grid operation by increasing use of existing production and transmission capacity with real-time data.
2) Enhancing reliability by reducing failure-related costs, isolating faults rapidly, and restoring service through communication and control technologies.
3) Improving power quality to meet demands of digital loads by limiting impacts of power quality events using Smart Grid components and backup power supplies.
Smart Buildings, Smart Cities, Smart Screens - The future of public screens i...Bruce Duyshart
This document discusses smart buildings, smart cities, and smart screens. It provides examples of smart building features like sensors, data collection, and automation from a case study in Amsterdam. Smart cities are defined as using technology and open data to improve sustainability, liveability, and workability. Barcelona is highlighted as working on smart lighting, energy, water, and transportation projects. The role of open data platforms in smart cities is also discussed. The future of public screens in urban areas is mentioned along with examples of using mobile data to drive screen content.
IMGS' technical director's presentation from the Breakfast Briefing on the 14th November 2012 with Minister of State, Fergus O'Dowd. The aim of the event was to promote World GIS Day and to highlight how GI technology is used in Ireland today.
The future of hyperconnected buildings - Illumni 2014Bruce Duyshart
Presented as part of the Illumni Future of Lighting Summit 2014 (http://futureof.lighting) in collaboration with the Sydney Vivid Festival of Light, Music and Ideas. (http://www.vividsydney.com).
Presentation Synopsis
Today we are living in a hyper-connected data driven world. The phenomenal global rise of mobile and wearable computing is raising the bar of digital literacy and has awakened people's awareness and expectations of what can be achieved with technology. But how will this expectation match the reality of what is evolving in the built form environments we live and work in?
This insightful presentation examines the status of technological progress that is occurring outside of the property industry.
It then explores the concept of smart buildings that are now beginning to sense, adapt and respond to our functional, environmental and personal needs.
To conclude, a number of smart lighting concepts are illustrated that illustrates how light and technology can be combined in ways that adds intelligence and provides better user experiences to a range of environments.
Gram Power has developed an integrated smart microgrid technology to provide electricity access to the 400 million people in India who currently do not have it. Their system uses an innovative power management unit in each home that provides metered prepaid power from distributed battery storage and DC transmission to prevent theft. This modular design can power between 20 to 1000 homes with energy needs from 11Wh to 2000Wh. Their vision is to allow people to leapfrog from no power access to a reliable smart microgrid, enabling economic and social development through access to basic electricity.
The document discusses the future of interaction between people and technology. It predicts that in the future, materials will be able to sense users and the environment cheaply. Computing power will continue to increase dramatically, allowing for real-time, interactive media streaming. Display and networking technologies will drop in price by orders of magnitude. This will result in physical environments that are modeled and controlled through virtual environments, with light, video, sound and sensors integrated throughout spaces and surfaces. Different generations will have different visions for how people and machines interact as technology platforms evolve over decades.
This document provides an overview of energy harvesting technologies for sustainable wireless sensor networks. It discusses how wireless sensor networks (WSNs) are being used in applications like structural health monitoring and battlefield surveillance. WSNs allow for distributed sensing and processing but face challenges around limited energy resources. The document reviews different energy harvesting technologies that could provide sustainable power sources for sensor nodes, like solar, thermal, and kinetic energy harvesting. It examines how these technologies work and their potential to enable long-term operation of energy-constrained wireless sensor networks.
Energy Saver Smart Street Lights Presentation by Flaming NovasSiddharth Shankar
“Flaming Novas – Redefining the Possibilities” is dedicated to innovate, design and develop a system to utilize the electric power supply to the public domain specifically for the Street lamps in an efficient way which will be global. A system with the help of latest technology and data prediction to form any existing street light to be a Smart Street Light.
DESA PM Conference 2015 - Connecting to the FutureBruce Duyshart
(1) The document discusses trends in smart buildings, including increasing connectivity, new technologies, and the growth of the Internet of Things.
(2) A smart building is defined as one that is safer, more comfortable and productive for occupants and more operationally efficient for owners through features like energy efficiency, sustainability, safety and security, and better user experiences.
(3) The traditional approach to building systems is becoming outdated, and a new holistic, integrated approach is needed to take advantage of opportunities like open standards, middleware, and new roles in building technology strategy and systems integration.
Role of substation in smart grid
Substations are an essential component of the smart grid and help address challenges related to energy demand, security, and the environment. The smart grid uses two-way communication and advanced control methods to integrate generators, consumers, and prosumers. This allows for a more efficient, sustainable, and secure electricity supply. Smart substations use new sensing, metering, communication, and control technologies to transform the grid and help integrate increasing amounts of renewable energy and power exchanges in response to policy drivers around economic competitiveness, reliability, customer empowerment, and environmental sustainability.
This document provides an overview of smart grids, including their components, advantages, and limitations. A smart grid uses two-way digital communication technology to detect and automatically respond to local changes in usage. It aims to reduce costs and carbon emissions by integrating renewable energy sources. Key components include smart meters for sensing usage, core networks for connectivity between substations, and distribution networks for transmitting data to databases. Advantages are reduced carbon, automated control, and increased efficiency. Limitations include inadequate existing infrastructure and intermittent renewable sources.
Smart (X) ... Smart Things to Smart Cites and everything in betweenBruce Duyshart
Smart (X) ... Smart Things to Smart Cites and everything in between
Presented as part of Idea Bombing 2015
@IdeaBombingSyd
(http://www.ideabombingsydney.com)
(https://www.facebook.com/IdeaBombingSydney/)
Grasshopper Bar, Temperance Laneway, Sydney.
GBCA Innovation Series - "Smart Green Buildings. Sensing Learning & predictin...Bruce Duyshart
Presentation at GBCA Australia event as part one of the Leading Green Thinkers – Innovation Series. 27th March 2014.
Focused on 'Green Technology', part one of this inspiring series uncovers industry trends and emerging technologies affecting our buildings, cities and communities.
Australia's leading innovation specialists present a range of the latest platforms and tools, including smart buildings, digital cities, 3D printing and augmented reality.
This brief 10 minute presentation was one of four for the evening.
Smart Green Buildings – Sensing, learning and predicting sustainable outcomes.
• What is a Smart Building?
• What do we mean by smart?
• What are the technologies that go into a modern building that can support more sustainable outcomes?
Event details: http://www.gbca.org.au/events.asp?eventid=32667&source=course-event-calendar
See also article leading up to this event in Sourcable.
"Green Building Technology is a Game Changer"
http://sourceable.net/green-technology-game-changers/
This presentation was made at the Future of Work Seminar held as part of the 2015 Vivid Ideas Festival. http://www.vividsydney.com/futureofwork
The topic is the City as a Campus and explores the role that technology is playing in blurring the boundaries between the home, workplace and cities in which we live and work.
Technology has become ubiquitous and the expectations for it's use are everywhere. There is however, a distinct difference between people and companies and not all technology is applicable in every environment. What is important, is to take the time to understand your stakeholders requirements and to identify what technologies are meaningful and will add value to your workplace environment.
A smart grid uses digital technology and two-way communication to allow for better management of electricity demand and integration of renewable energy sources. It aims to reduce electricity deficits in India by over 10% through components like smart meters and intelligent appliances. The smart grid will consist of interconnected control systems and technologies working with the electrical grid to respond dynamically to changing energy demands.
The document discusses potential new infrastructures associated with distributed energy generation technologies. It outlines a paradigm shift where energy can be produced near where it is consumed rather than through a centralized power system. A case study examines how solar nanotechnologies can minimize energy loss. Finally, it explores how distributed generation could integrate with existing infrastructure through a combination of top-down smart grid approaches and bottom-up consumer adoption incentives.
This document discusses future grids and provides an overview of smart grids and micro grids. It outlines some of the challenges with conventional power grids, such as one-way communication and frequent power failures. Smart grids are defined as self-healing, interactive, optimized, secure and predictable systems that modernize power grids with technologies like smart meters, distributed generation, phasor measurement, and information transfer to enable two-way communication and prevent blackouts. Micro grids are defined as small-scale power grids that can effectively integrate renewable energy resources and operate independently or in conjunction with the main grid, making them effective for use in emergencies or for powering communities and campuses.
In China, the five year plan points out that developing smart eco-cities – maximizing the conservation of energy, water, land and materials, reducing pollution, optimizing the transportation, protecting the environment, and improving building comfort, health and safety – is a critical stage for accelerating industrialization, urbanization and rural development providing great opportunities. It is estimated that between 2010 and 2025, around 250 million citizens will move from rural areas into cities. By 2030, 1 billion people out of 1.4 billion in China will live in cities, from 3 to 13 (smart eco-) megalopolises built.
When cities begin to think - What happens when buildings talk back?Bruce Duyshart
Presentation for UDIA National Congress 2014.
Imagine a world where the emerging 'Internet of Things' intersects with smart buildings and cities. Today, developers are faced with the rising expectations of people to be better connected and more efficient in their use of technology, yet buildings still remain one of the last bastions for technological change in our modern society. This insightful presentation will shine a torch on a world of possibilities in the use of technology in property and will highlight what lies ahead for those that are prepared to innovate and make a change.
Intelligent Substation & its applicationsGowtham MG
The document presents a blueprint for a smart grid community. It describes how a smart grid uses two-way digital technology to deliver electricity from producers to consumers and allow control of appliances and machines. This is an upgrade from the traditional one-way electricity grids. Key features of the smart grid include improved reliability, security, environmental benefits, support for distributed generation, and helping customers control energy use. The smart grid incorporates smart substations using digital controls, energy storage, smart distribution assets, smart homes, and electric vehicles. Benefits include faster response to outages and lower prices through reduced energy usage. Developing the smart grid will cost $60-100 million but be offset by partnerships and cost savings over the long run.
This document provides a history of solar energy technology and the role of information technology in the solar energy industry. It discusses how IT has enabled more efficient use of solar power through data collection, monitoring, and optimization of solar panel systems. The document outlines the evolution from centralized to distributed energy systems and how the smart grid facilitates greater integration of renewable resources like solar. It also explores current and future applications of IT in areas like solar supply chain management, performance boosting algorithms, control systems, and the shift to more decentralized solar energy generation.
Microgrids provide numerous benefits to both customers and society. They improve electric reliability and resilience by continuing to supply power when the central grid fails. Microgrids also enhance cost savings and revenue opportunities for customers. Additionally, microgrids promote clean energy adoption, strengthen the central grid, bolster cybersecurity, provide local economic benefits, and improve community well-being during disasters. In conclusion, microgrids offer a flexible solution that provides reliable power while creating value for customers and society in many ways.
The definition of the "Smart Grid" is something that is taking shape. Utility professionals concur on some aspects and ideas of what the smart grid should be, but there are still grey areas that, however, promise to become clearer soon.
The document discusses the future of interaction between people and technology. It predicts that in the future, materials will be able to sense users and the environment cheaply. Computing power will continue to increase dramatically, allowing for real-time, interactive media streaming. Display and networking technologies will drop in price by orders of magnitude. This will result in physical environments that are modeled and controlled through virtual environments, with light, video, sound and sensors integrated throughout spaces and surfaces. Different generations will have different visions for how people and machines interact as technology platforms evolve over decades.
This document provides an overview of energy harvesting technologies for sustainable wireless sensor networks. It discusses how wireless sensor networks (WSNs) are being used in applications like structural health monitoring and battlefield surveillance. WSNs allow for distributed sensing and processing but face challenges around limited energy resources. The document reviews different energy harvesting technologies that could provide sustainable power sources for sensor nodes, like solar, thermal, and kinetic energy harvesting. It examines how these technologies work and their potential to enable long-term operation of energy-constrained wireless sensor networks.
Energy Saver Smart Street Lights Presentation by Flaming NovasSiddharth Shankar
“Flaming Novas – Redefining the Possibilities” is dedicated to innovate, design and develop a system to utilize the electric power supply to the public domain specifically for the Street lamps in an efficient way which will be global. A system with the help of latest technology and data prediction to form any existing street light to be a Smart Street Light.
DESA PM Conference 2015 - Connecting to the FutureBruce Duyshart
(1) The document discusses trends in smart buildings, including increasing connectivity, new technologies, and the growth of the Internet of Things.
(2) A smart building is defined as one that is safer, more comfortable and productive for occupants and more operationally efficient for owners through features like energy efficiency, sustainability, safety and security, and better user experiences.
(3) The traditional approach to building systems is becoming outdated, and a new holistic, integrated approach is needed to take advantage of opportunities like open standards, middleware, and new roles in building technology strategy and systems integration.
Role of substation in smart grid
Substations are an essential component of the smart grid and help address challenges related to energy demand, security, and the environment. The smart grid uses two-way communication and advanced control methods to integrate generators, consumers, and prosumers. This allows for a more efficient, sustainable, and secure electricity supply. Smart substations use new sensing, metering, communication, and control technologies to transform the grid and help integrate increasing amounts of renewable energy and power exchanges in response to policy drivers around economic competitiveness, reliability, customer empowerment, and environmental sustainability.
This document provides an overview of smart grids, including their components, advantages, and limitations. A smart grid uses two-way digital communication technology to detect and automatically respond to local changes in usage. It aims to reduce costs and carbon emissions by integrating renewable energy sources. Key components include smart meters for sensing usage, core networks for connectivity between substations, and distribution networks for transmitting data to databases. Advantages are reduced carbon, automated control, and increased efficiency. Limitations include inadequate existing infrastructure and intermittent renewable sources.
Smart (X) ... Smart Things to Smart Cites and everything in betweenBruce Duyshart
Smart (X) ... Smart Things to Smart Cites and everything in between
Presented as part of Idea Bombing 2015
@IdeaBombingSyd
(http://www.ideabombingsydney.com)
(https://www.facebook.com/IdeaBombingSydney/)
Grasshopper Bar, Temperance Laneway, Sydney.
GBCA Innovation Series - "Smart Green Buildings. Sensing Learning & predictin...Bruce Duyshart
Presentation at GBCA Australia event as part one of the Leading Green Thinkers – Innovation Series. 27th March 2014.
Focused on 'Green Technology', part one of this inspiring series uncovers industry trends and emerging technologies affecting our buildings, cities and communities.
Australia's leading innovation specialists present a range of the latest platforms and tools, including smart buildings, digital cities, 3D printing and augmented reality.
This brief 10 minute presentation was one of four for the evening.
Smart Green Buildings – Sensing, learning and predicting sustainable outcomes.
• What is a Smart Building?
• What do we mean by smart?
• What are the technologies that go into a modern building that can support more sustainable outcomes?
Event details: http://www.gbca.org.au/events.asp?eventid=32667&source=course-event-calendar
See also article leading up to this event in Sourcable.
"Green Building Technology is a Game Changer"
http://sourceable.net/green-technology-game-changers/
This presentation was made at the Future of Work Seminar held as part of the 2015 Vivid Ideas Festival. http://www.vividsydney.com/futureofwork
The topic is the City as a Campus and explores the role that technology is playing in blurring the boundaries between the home, workplace and cities in which we live and work.
Technology has become ubiquitous and the expectations for it's use are everywhere. There is however, a distinct difference between people and companies and not all technology is applicable in every environment. What is important, is to take the time to understand your stakeholders requirements and to identify what technologies are meaningful and will add value to your workplace environment.
A smart grid uses digital technology and two-way communication to allow for better management of electricity demand and integration of renewable energy sources. It aims to reduce electricity deficits in India by over 10% through components like smart meters and intelligent appliances. The smart grid will consist of interconnected control systems and technologies working with the electrical grid to respond dynamically to changing energy demands.
The document discusses potential new infrastructures associated with distributed energy generation technologies. It outlines a paradigm shift where energy can be produced near where it is consumed rather than through a centralized power system. A case study examines how solar nanotechnologies can minimize energy loss. Finally, it explores how distributed generation could integrate with existing infrastructure through a combination of top-down smart grid approaches and bottom-up consumer adoption incentives.
This document discusses future grids and provides an overview of smart grids and micro grids. It outlines some of the challenges with conventional power grids, such as one-way communication and frequent power failures. Smart grids are defined as self-healing, interactive, optimized, secure and predictable systems that modernize power grids with technologies like smart meters, distributed generation, phasor measurement, and information transfer to enable two-way communication and prevent blackouts. Micro grids are defined as small-scale power grids that can effectively integrate renewable energy resources and operate independently or in conjunction with the main grid, making them effective for use in emergencies or for powering communities and campuses.
In China, the five year plan points out that developing smart eco-cities – maximizing the conservation of energy, water, land and materials, reducing pollution, optimizing the transportation, protecting the environment, and improving building comfort, health and safety – is a critical stage for accelerating industrialization, urbanization and rural development providing great opportunities. It is estimated that between 2010 and 2025, around 250 million citizens will move from rural areas into cities. By 2030, 1 billion people out of 1.4 billion in China will live in cities, from 3 to 13 (smart eco-) megalopolises built.
When cities begin to think - What happens when buildings talk back?Bruce Duyshart
Presentation for UDIA National Congress 2014.
Imagine a world where the emerging 'Internet of Things' intersects with smart buildings and cities. Today, developers are faced with the rising expectations of people to be better connected and more efficient in their use of technology, yet buildings still remain one of the last bastions for technological change in our modern society. This insightful presentation will shine a torch on a world of possibilities in the use of technology in property and will highlight what lies ahead for those that are prepared to innovate and make a change.
Intelligent Substation & its applicationsGowtham MG
The document presents a blueprint for a smart grid community. It describes how a smart grid uses two-way digital technology to deliver electricity from producers to consumers and allow control of appliances and machines. This is an upgrade from the traditional one-way electricity grids. Key features of the smart grid include improved reliability, security, environmental benefits, support for distributed generation, and helping customers control energy use. The smart grid incorporates smart substations using digital controls, energy storage, smart distribution assets, smart homes, and electric vehicles. Benefits include faster response to outages and lower prices through reduced energy usage. Developing the smart grid will cost $60-100 million but be offset by partnerships and cost savings over the long run.
This document provides a history of solar energy technology and the role of information technology in the solar energy industry. It discusses how IT has enabled more efficient use of solar power through data collection, monitoring, and optimization of solar panel systems. The document outlines the evolution from centralized to distributed energy systems and how the smart grid facilitates greater integration of renewable resources like solar. It also explores current and future applications of IT in areas like solar supply chain management, performance boosting algorithms, control systems, and the shift to more decentralized solar energy generation.
Microgrids provide numerous benefits to both customers and society. They improve electric reliability and resilience by continuing to supply power when the central grid fails. Microgrids also enhance cost savings and revenue opportunities for customers. Additionally, microgrids promote clean energy adoption, strengthen the central grid, bolster cybersecurity, provide local economic benefits, and improve community well-being during disasters. In conclusion, microgrids offer a flexible solution that provides reliable power while creating value for customers and society in many ways.
The definition of the "Smart Grid" is something that is taking shape. Utility professionals concur on some aspects and ideas of what the smart grid should be, but there are still grey areas that, however, promise to become clearer soon.
Can you fix my customers?!? Lightening Talk Agile Ukraine 2011Robin Dymond
Are your Lean Agile software development customers and Scrum Product Owners too busy to work with your team? Here are 3 ideas you can use to help customers and Scrum Product Owners improve how they manage their time and visualize their work. Give your Product Owners tools to make working with their teams easier and more effective.
Duas dúzias de coisas simples que trazem felicidade como passarinhos na janela, pijama de flanela, brigadeiro caseiro, gato no telhado e o cheiro de mato molhado. Memórias de infância como tirar sorte no osso, jogar pedrinha no poço e dias quentes de verão deixam as pessoas felizes.
The document discusses infrared (IR) spectroscopy and how it can be used to identify functional groups in compounds based on their vibrational frequencies. IR radiation causes molecular vibrations that correspond to specific bonds such as C-H, C=O, N-H, etc. These vibrations can be observed in different regions of the IR spectrum and are characteristic of different functional groups, allowing compounds to be typed.
The document discusses software testing concepts including:
- Quality assurance ensures processes are established to produce products that meet specifications.
- Testing determines if a product meets requirements and identifies failures to meet requirements.
- A test plan is written by the lead tester and includes the testing strategy, resources, and plans. It outlines test cases and procedures to validate software meets specifications.
- Testing begins in the define system phase to ensure requirements are testable, and continues through subsequent phases including product testing, acceptance testing, and deployment. Documentation and repeatable processes are critical to quality assurance.
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ועידת תעשיית העתיד: הרצאת אלעד שביב, מנכ"ל האיגוד הישראלי לאנרגיה חכמה "אנרגי...Tashtiot media
The document discusses Israel's transition to smart energy. It introduces the Israeli Smart Energy Consortium, a national association representing government, private sector, and non-profits working to develop smart energy solutions. The consortium aims to achieve economic growth through sustainable energy solutions. Several founding members are listed, along with examples of technologies being developed by members like Siemens, Mobix, Greenlet, and Joulex to implement smart grid, demand response, energy management, and microgrid solutions.
The document discusses smart meters and utility metering applications. It describes high-end utility meters that combine energy metering, power quality monitoring, I/O capabilities, and communications. These advanced meters can be used for revenue and tariff metering, power quality analysis, substation automation, equipment monitoring and control, and improving system accuracy. The document also provides examples of how a utility is using power quality monitoring systems to identify issues early, avoid equipment failures, reduce outage times, and lower costs.
The document discusses the smart grid, which aims to address issues with today's electrical grid such as blackouts and one-way communication. It introduces the concept of adding "intelligence infrastructure" like smart meters, transmission upgrades, energy storage, and networked appliances. This smart infrastructure enables features like demand response, distributed generation, electric vehicles, optimized asset use, and problem detection. Key components are discussed in more detail, including smart meters, electric vehicles, and potential partners for building smart grid cities. The conclusion outlines how the smart grid facilitates changes to electricity production, transmission and consumption while supporting environmental and customer control goals.
Supporting the commercialization of new energy technology by Kaliyur SridharanMaRS Discovery District
The document discusses the future of energy and smart grid opportunities. It outlines the core and emerging areas in power generation, transmission and distribution, and commercial, industrial, residential and community applications. These include generation optimization, renewable integration, microgrids, asset monitoring, smart meters, energy storage, cyber security, and demand response. The document also describes GE's innovation centers and Grid IQ center, which conduct research, development and testing to advance smart grid technologies and foster collaboration and innovation.
Foothill College's energy system includes 1.5 MW of solar PV, 250 KW of cogeneration, and utility power. The document discusses distributed generation, the intelligent grid, and a new electricity model with energy generation close to loads. It also examines the energy pulse of the campus throughout the day and the concept of "Energy Intelligence" which uses monitoring, modeling, and management of smart energy systems.
The document discusses what a smart grid means to different people involved in the electric power industry. It defines a smart grid as a power system that is automated, interactive, optimized, predictive, distributed, integrated and secure. The smart grid integrates two infrastructures - the electrical infrastructure and the information infrastructure - to provide customer value by increasing energy and operational productivity, power reliability and quality, and reducing CO2 emissions. It discusses various smart grid building blocks and requirements. The smart grid has the potential to provide operational efficiency, energy efficiency, customer satisfaction, and environmental benefits.
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January 2024. A Smart Grid is an electrical grid that utilizes advanced communication monitoring and control technologies to optimize energy efficiency, reliability, and environmental sustainability. Smart grid technologies enables the effective management and distribution of renewable energy sources. By leveraging the Internet of Things (IoT), a smart grid connects a variety of energy sources to the electricity grid.
Demand for electricity is expected to rise as a result of the clean energy transition, urban expansion, and population growth. Smart grid technologies can meet the increased demand by making the grids more efficient, reliable, and resilient. A smart meter is an electronic device that provides detailed consumption data including smart grid status. Smart meter use encourages better energy habits, reduces electricity bills, and improves Quality of Service (QoS).
Compared to conventional grids, smart grids offer many benefits such as emissions and pollution reduction, health and wellbeing improvement, new job creation, and saving on energy, resources, and waste management costs.
However, smart grid adoption faces some challenges, such as privacy issues concerning consumer's usage data and personal information. In addition, smart grids are vulnerable to cyberattacks because they are always connected to the network.
Smart grid technologies include Advanced Metering Infrastructure (AMI), Demand Response (DR), Wide-Area Situational Awareness (WASA), Distributed Energy Resources (DER), and Distribution Management System (DMS). The smart grid value chain includes generation, transmission, distribution, and consumption.
Policy wise, in 2015, the Global Energy Interconnection (GEI) initiative was launched to develop interconnected grids for the transmission and consumption of clean, renewable energy worldwide. GEI is coordinated by the United Nations Department of Economic and Social Affairs (UNDESA) and the Global Energy Interconnection Development and Cooperation Organization (GEIDCO). GEI directly supports Sustainable Development Goals (SDGs) 7 and 9.
In this slideshow, you will learn about the definition, benefits, challenges, technologies, value chain, UN policy, and global statistics of smart grid utilization. For more slideshows on environmental sustainability, please visit s2adesign.com
This document discusses smart grids and their importance. It begins by outlining some key challenges for future energy supply, including population growth, resource scarcity, and climate change goals. It then introduces smart grids as a way to tackle these challenges by enabling two-way power and information flows in the electricity system. This allows for distributed and renewable generation, better integration of electric vehicles, and consumers who can produce and sell excess power. The document provides examples of smart grid technologies like smart meters and microgrid controllers that help transition conventional grids. It emphasizes that smart grids will intelligently manage electricity load and require IT-supported connections across generation and consumption.
Getting from Smart Metering to the Optimized Grid: How Can You Get There Today?
• How can you leverage current investments in smart metering to get the vital grid intelligence required for an optimized grid?
• What role does communication, standards and interoperability play?
• How far away are we from the “future of the smart grid” when electric vehicles, integration of renewables and decentralized generation are happening today? How can you prepare for this future today?
• Speaker: Par Schroder, Echelon Corporation
This document discusses smart grids and energy through four presentations:
1. SmartE focuses on raising awareness of residential energy consumption through an Android app.
2. Linear aims to provide secure distributed control and data through an overlay network and demonstrates remote control of a tumble dryer.
3. SPARC focuses on the secure and smart charging of electric vehicles through seamless authentication and simulation of large-scale charging.
4. C-DAX discusses a secure distributed control and data overlay network. The document also lists speakers and demos related to smart grids, energy measurements, and research tools.
This document discusses smart grids, which use information and communication technologies to improve the efficiency, reliability, and sustainability of electricity production and distribution. It defines smart grids and outlines their key components, including intelligent appliances, smart meters, smart substations, superconducting cables, integrated communications, and phasor measurement units. The document also explores the role of IoT in smart grids and the benefits of smart grids like better energy management, demand response, power quality, reduced emissions, and facilitating renewable energy integration.
This document discusses smart energy systems and the future of energy in India. It addresses the increasing energy demand, shortage of sources, and issues of pollution and climate change. Smart energy solutions are presented as being available now to help manage these challenges through greater energy efficiency, distributed generation, smart grids, and demand response. The role of various players and new technologies in creating a more decentralized and interactive energy system is outlined.
Demand response is key to making facilities more competitive and ensuring grid reliability in the face of increasing energy demands and costs. Implementing demand response strategies allows facilities to better manage energy use, reduce costs, and help utilities balance the grid. Tools like enterprise energy management systems and consumption workshops can help identify savings of up to 30% through strategic planning, automated demand management, and cross-facility collaboration. Case studies show global companies cutting annual energy bills by millions through centralized energy procurement and performance benchmarking across their portfolios.
Instituion Of Engineers Smart Grid Seminar Jul 16 2009satyambh
The document discusses smart grids and the customer domain within smart grid ecosystems. It covers how smart meters, home area networks, energy devices, electric vehicles, and micro-grids can integrate with smart pricing programs to optimize energy usage and lower costs for utilities and customers. The goal is to shift demand away from peak times and encourage conservation through technology enabling real-time pricing programs and demand response.
What is a Smart Grid_ What are the Major Smart Grid Technologies_.pdfVijethaK3
A smart grid uses digital technology and two-way communication to modernize the traditional power grid. It allows for better management of electricity generation, transmission, and distribution. Key components include smart meters, distributed energy resources, advanced metering infrastructure, and vehicle-to-grid technologies. Together these allow two-way power and data flows to improve reliability, efficiency, and integration of renewable energy.
Smart energy aims to integrate renewable energy, energy storage, electric vehicles and smart grid technologies to efficiently distribute the right energy sources at the right times. Key aspects include modernizing the transmission and distribution grid with bidirectional communication; integrating distributed energy resources like rooftop solar; developing smart metering, demand response and microgrids; and coordinating electric vehicle charging. Fully realizing the smart energy paradigm will require building out generation, distribution, storage and management infrastructure over the next 10-20 years through the combined efforts of utilities, technology companies and standards organizations.
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
Dr. Sean Tan, Head of Data Science, Changi Airport Group
Discover how Changi Airport Group (CAG) leverages graph technologies and generative AI to revolutionize their search capabilities. This session delves into the unique search needs of CAG’s diverse passengers and customers, showcasing how graph data structures enhance the accuracy and relevance of AI-generated search results, mitigating the risk of “hallucinations” and improving the overall customer journey.
Pushing the limits of ePRTC: 100ns holdover for 100 daysAdtran
At WSTS 2024, Alon Stern explored the topic of parametric holdover and explained how recent research findings can be implemented in real-world PNT networks to achieve 100 nanoseconds of accuracy for up to 100 days.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
How to Get CNIC Information System with Paksim Ga.pptxdanishmna97
Pakdata Cf is a groundbreaking system designed to streamline and facilitate access to CNIC information. This innovative platform leverages advanced technology to provide users with efficient and secure access to their CNIC details.
GraphSummit Singapore | The Future of Agility: Supercharging Digital Transfor...Neo4j
Leonard Jayamohan, Partner & Generative AI Lead, Deloitte
This keynote will reveal how Deloitte leverages Neo4j’s graph power for groundbreaking digital twin solutions, achieving a staggering 100x performance boost. Discover the essential role knowledge graphs play in successful generative AI implementations. Plus, get an exclusive look at an innovative Neo4j + Generative AI solution Deloitte is developing in-house.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
20 Comprehensive Checklist of Designing and Developing a WebsitePixlogix Infotech
Dive into the world of Website Designing and Developing with Pixlogix! Looking to create a stunning online presence? Look no further! Our comprehensive checklist covers everything you need to know to craft a website that stands out. From user-friendly design to seamless functionality, we've got you covered. Don't miss out on this invaluable resource! Check out our checklist now at Pixlogix and start your journey towards a captivating online presence today.
Full-RAG: A modern architecture for hyper-personalizationZilliz
Mike Del Balso, CEO & Co-Founder at Tecton, presents "Full RAG," a novel approach to AI recommendation systems, aiming to push beyond the limitations of traditional models through a deep integration of contextual insights and real-time data, leveraging the Retrieval-Augmented Generation architecture. This talk will outline Full RAG's potential to significantly enhance personalization, address engineering challenges such as data management and model training, and introduce data enrichment with reranking as a key solution. Attendees will gain crucial insights into the importance of hyperpersonalization in AI, the capabilities of Full RAG for advanced personalization, and strategies for managing complex data integrations for deploying cutting-edge AI solutions.
Generative AI Deep Dive: Advancing from Proof of Concept to ProductionAggregage
Join Maher Hanafi, VP of Engineering at Betterworks, in this new session where he'll share a practical framework to transform Gen AI prototypes into impactful products! He'll delve into the complexities of data collection and management, model selection and optimization, and ensuring security, scalability, and responsible use.
Essentials of Automations: The Art of Triggers and Actions in FMESafe Software
In this second installment of our Essentials of Automations webinar series, we’ll explore the landscape of triggers and actions, guiding you through the nuances of authoring and adapting workspaces for seamless automations. Gain an understanding of the full spectrum of triggers and actions available in FME, empowering you to enhance your workspaces for efficient automation.
We’ll kick things off by showcasing the most commonly used event-based triggers, introducing you to various automation workflows like manual triggers, schedules, directory watchers, and more. Plus, see how these elements play out in real scenarios.
Whether you’re tweaking your current setup or building from the ground up, this session will arm you with the tools and insights needed to transform your FME usage into a powerhouse of productivity. Join us to discover effective strategies that simplify complex processes, enhancing your productivity and transforming your data management practices with FME. Let’s turn complexity into clarity and make your workspaces work wonders!
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
Unlocking Productivity: Leveraging the Potential of Copilot in Microsoft 365, a presentation by Christoforos Vlachos, Senior Solutions Manager – Modern Workplace, Uni Systems
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
- How to deliver security artifacts that matter for ATO’s (SBOMs, vulnerability reports, and policy evidence)
- How to streamline operations with automated policy checks on container images
Communications Mining Series - Zero to Hero - Session 1DianaGray10
This session provides introduction to UiPath Communication Mining, importance and platform overview. You will acquire a good understand of the phases in Communication Mining as we go over the platform with you. Topics covered:
• Communication Mining Overview
• Why is it important?
• How can it help today’s business and the benefits
• Phases in Communication Mining
• Demo on Platform overview
• Q/A
3. How it all Started...
Thomas Edison
Nikola Tesla
(1847-1931)
(1856-1943)
Generation
Transmission
Distribution
Consumption
Operations DATA
Centre
NETWORK
4. New Challenges
Smart
Meters
Demand
Tele-Control
Response
Electric Renewable
Vehicles
Sources
Distributed
Generation
5. Changing the Powerdigme
Micro
Generation
Smart
Consumption
Electric
Vehicle
Distribution
Generation
Transmission
Consumption - Generation
Distribution
Operations DATA
Market
Centre
NETWORK
6. InovGrid
Energy Box
Generation
Intelligent House
Management
Energy Box
Consumption
Distribution
Consumption - Generation
Operations
Centre
INTERNET
My talk is about the future of energy grids and we will be unveiling what that means along the presentation
If you are older than 15 you witnessed a couple of major technological revolutions: the Internet and the explosion of Mobile Communications. Im not going to elaborate on them, we all know how much they transformed society, and how much we miss them when we don’t have them. If you live for more 10 years you will witness another major revolution, and its impact can be compared to the other two.
But let’s go back in time when in the 1880s T.E. and N.T. built and explored the first commercial electrical companies in UK and NYC. As they exponentially grew in size and went global, a lot of
- Mention Impact in environment
From the social point of view it’s a little bit like going from this to this. Not because it’s fancier and has a lot of technology, but because it allows an endless number of applications, from both individuals and companies.
Examples of applications: pre-paid, mobile account, micro-generation, home automation, user portal, varying pricing, outage reporting, theft detection, distributed storage, electrical vehicles