Smart Neighborhoods speak EEBUS.
The aim of the workshop is to demonstrate how EEBUS enables an industrial approach for residential energy management by providing standardized device communication and energy management use cases. Hence, a lock-in into proprietary manufacturer specific communication can be avoided. This enables cost effective scalability, replication, and commissioning of energy management solutions at target markets.
EEBUS provides transparency and access to all energy relevant devices and thus transforms them into flexible resources for demand response. Single households become the core elements of Smart Neighborhoods and consequently of Smart Grids. The continuously evolving technology is open to further use cases and therefore facilitates the integration of other domains to the REnnovates technical platform – such as E-Mobility which is already managed through EEBUS or grid interaction.
A tutorial on PicoScenes Wi-Fi sensing middleware presented at CPS-IOT Week'2022, the tile is "From CSI Tool to PicoScenes Wi-Fi Sensing Middleware".
In this tutorial, we focus on how PicoScenes middleware overcomes the hardware and software barriers of Wi-Fi sensing research.
The documentation of PicoScenes is at https://ps.zpj.io
What is DERMS ? Distributed Energy Resources Management System
What is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management System
Siltumsūkņu priekšrocības, veidi, iespējas un izmantošanas ierobežojumi/Eduards Keziks (Robert Bosch SIA)
vebinārs "Energoefektivitāte un AER uzņēmumos. Normatīvais regulējums un tehnoloģijas"
Video: https://youtu.be/4LOupeyn9LE
2022.gada 2.novembris
Informācija par Atveseļošanas fonda atbalsta programmu ir šeit https://likumi.lv/ta/id/336032
#ESfondi | #NextGenerationEU | #energoefektivitāte | #atbalstsuzņēmējiem |
Fundamentals of Managing the Data Center Life Cycle for OwnersSchneider Electric
Just as good genes do not guarantee health and well-being, a
good design alone does not ensure a data center is well-built and will remain efficient and available over the course of its life span.
For each phase of the data center’s life cycle, proper care and action must be taken to continuously meet the business needs of the facility. This presentation describes the five phases of the data center life cycle, identifies key tasks and pitfalls, and offers practical advice to facility owners and management.
Zoltan Karpathy gave a presentation on Smart Homes and Buildings. he looks specifically at Energy Efficiency legislation as well as the regional breakdown of world BACS as well as solutions for moving to the cloud.
A tutorial on PicoScenes Wi-Fi sensing middleware presented at CPS-IOT Week'2022, the tile is "From CSI Tool to PicoScenes Wi-Fi Sensing Middleware".
In this tutorial, we focus on how PicoScenes middleware overcomes the hardware and software barriers of Wi-Fi sensing research.
The documentation of PicoScenes is at https://ps.zpj.io
What is DERMS ? Distributed Energy Resources Management System
What is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management SystemWhat is DERMS ? Distributed Energy Resources Management System
Siltumsūkņu priekšrocības, veidi, iespējas un izmantošanas ierobežojumi/Eduards Keziks (Robert Bosch SIA)
vebinārs "Energoefektivitāte un AER uzņēmumos. Normatīvais regulējums un tehnoloģijas"
Video: https://youtu.be/4LOupeyn9LE
2022.gada 2.novembris
Informācija par Atveseļošanas fonda atbalsta programmu ir šeit https://likumi.lv/ta/id/336032
#ESfondi | #NextGenerationEU | #energoefektivitāte | #atbalstsuzņēmējiem |
Fundamentals of Managing the Data Center Life Cycle for OwnersSchneider Electric
Just as good genes do not guarantee health and well-being, a
good design alone does not ensure a data center is well-built and will remain efficient and available over the course of its life span.
For each phase of the data center’s life cycle, proper care and action must be taken to continuously meet the business needs of the facility. This presentation describes the five phases of the data center life cycle, identifies key tasks and pitfalls, and offers practical advice to facility owners and management.
Zoltan Karpathy gave a presentation on Smart Homes and Buildings. he looks specifically at Energy Efficiency legislation as well as the regional breakdown of world BACS as well as solutions for moving to the cloud.
What Does It Cost to Build a Data Center? (SlideShare)SP Home Run Inc.
http://DataCenterLeadGen.com
What Does It Cost to Build a Data Center? (SlideShare).
The “build a data center” decision is not to be taken lightly. Consider these different cost factors to see if a build or lease is better.
Copyright (C) SP Home Run Inc. All worldwide rights reserved.
Introducing our 5G Platform for the first movers in 5G, the first completely end-to-end solution that combines core and radio solutions in 5G to enable new opportunities and use cases
Daudzdzīvokļu dzīvojamo ēku īpašnieku tiesības un pienākumi siltumapgādes sistēmu uzturēšanā/ Elvijs Kalnkambers, Ekonomikas ministrija
Vebinārs “Daudzdzīvokļu ēku energoefektivitāte. Siltumapgādes sistēma un siltumenerģijas uzskaite”
2023.gada 21.novembris
1.Overview of Renewable Energy Sector and Programs in Malaysia.
2.The mechanism of NEM using solar PV.
3.Benefits of implementing it for residential, commercial and industrial buildings.
4.Barriers that impede successful implementation of solar PV and NEM in Malaysia.
5.Strategies or plans that have been implemented by the Malaysian government to encourage the use of NEM.
6.Recommended additional necessary measures that should be implemented by the government to boost the success of the energy efficiency policy using solar power in Malaysia.
Last update: Feb 7, 2021
5G broadband began to be promoted throughout the United States, it not only brought users a faster Internet, but also brought a new technical architecture designed to further support 5G networks.
As operators around the world are looking for solutions to cope with the growing demand for mobile data, it is necessary to develop 5G technology.
One of those architectures is named device-to-device (D2D) communications, which refers to the communication between devices, which may be cellphones or vehicles. this system opens new device-centric communication that always requires no direct communication with the network infrastructure.
This is good because D2D architecture is predicted to unravel a minimum of a part of the network capacity issue as 5G promises more devices to be connected in faster, more reliable networks.
To understand the new 5G technology, the important point is that it does not only involve faster smartphones. In fact, technologists now call 5G the post-smartphone era.
Higher speeds and lower latency will enable new experiences that require continuous communication between augmented reality and virtual reality, connected cars, smart homes, and machines without lag.
Tonex provided 5G Network Architecture, Planning and Design
Tonex training introduced 5G technology, architecture and protocols. Also discussed 5G air interface and core network technologies and solutions. The course includes investigations of traffic cases and solutions, deployments and products. Covers 3GPP and IMT-2020 methods.
Learning Targets:
Explain the key 5G Principles, Services and Technical aspects
Explain the aim of implementing 5G within the existing mobile ecosystem
Describe a number of the 5G Use Cases and Applications: 3GPP and ITU 5G Use Cases (eMBB, URLLC and mMTC)
List 5G Network Features including: functions, nodes and elements, interfaces, reference points, basic operational procedures and architectural choices
Describe the overall 5G specification
Compare and contrast 5G system with traditional LTE, LTE-A and LTE-A Pro systems (3GPP version)
List and explain 5G RAN and core network architecture
Explain 5G access
Describe the 5G system engineering (access network, 5G core) method
Describe the use of NFV/SDN and network slicing in 5G systems
Learn about 5G radio access networks including 5G New Radio (NR)
Audience:
Engineers
Managers
Marketing and operation personnel
Anyone who want to learn 5G systems including 5G Radio Access Network (RAN), 5G New Radio (NR), 5G core and integration with LTE/LTE-A and LTE-A Pro
Course Outline:
Introduction to 5G Mobile Communication
Key Principles of 5G Systems
5G System Architecture
3GPP 5G System Architecture
5G New Radio (NR)
For More Information:
https://www.tonex.com/5g-training-education-5g-wireless/
The global power and utilities sector is undergoing significant transformation, which is challenging traditional business models, and paving way for new technologies. In all major developed economies, utility companies face a tough operating environment, and this is resulting in several new business models that are mainly based on technological advancements and customer services.
Electricity transmission grid, historically a regulated and traditionally run entity, is also moving in the same direction, and adopting several new technologies, such as Smart, energy storage, and high voltage capacity corridors. Evolution is mostly seen in developed regions with a mature power and utility sector, such as Germany, the UK and the US. However, developing economies too are looking to leapfrog to new models, and currently building plans for the future. The global smart grid market is considered as the grid of the future and is pegged at US$70 billion by 2023.
3GPP SON Series: An Introduction to Self-Organizing Networks (SON)3G4G
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). This is the introduction part that sets the stage for further tutorials on specific topics.
The introduction looks at the network deployment process, different types of SON architecture and then explains self-configuration, self-optimization and self-healing with some basic examples.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
IoT enables the development of interoperable building platforms that will empower sustainable performance management.
This presentation is a summary for those who missed the workshop during the Dutch Green Building Week and hope to learn more about the future for building automation and sustaibable buildings. The future has already started!
This presentation is highlighting the architecture of 5G network and the need for a very efficient Management and Orchestration environnement, very automated and autonomous that monitors the network and services and trigger actions to optimize resources and meet quality of service.
There are many factors in the data center that are driving the new data center design considerations. This slideshare discusses several of the trends in the data center and covers several solutions to implement.
Integrated, adaptable and affordable packages for the deep renovation of buil...Leonardo ENERGY
Integrated, adaptable and affordable packages for the deep renovation of buildings
European Union fixed ambitious objectives in terms of building renovation. To reach them, market actors are searching for innovative solutions, providing a higher integration and adaptation to different situations in European countries. The refurbishment packages will also set oneself apart from other solutions if they succeed to have controlled budget.
The EU H2020 project STUNNING (SusTainable bUsiNess models for the deep reNovation of buIldiNGs) has the goal to promote successful and innovative building renovation packages and business models around a virtual and collaborative knowledge sharing platform: the STUNNING Renovation Hub, so as to accelerate their adoption.
After a short introduction of the STUNNING project by Karine Laffont and Nicolas Peraudeau from DOWEL Management (coordinators), three speakers from European projects will present their solutions.
Replication considerations for the deployment of REnnovates in EuropeHenri Relyveld
Replication considerations for the full scale deployment throughout Europe of the REnnovates concept.
In Europe, differences in climate conditions, building typology, energy regulations, home ownership, citizen association or financial mechanisms, lead to varied housing scenarios where single rigid solutions are difficult to implement. The objective is to present the audience the challenges faced for the industrialization and full-scale deployment of the REnnovates concept and some possible approaches to overcome these differences.
What Does It Cost to Build a Data Center? (SlideShare)SP Home Run Inc.
http://DataCenterLeadGen.com
What Does It Cost to Build a Data Center? (SlideShare).
The “build a data center” decision is not to be taken lightly. Consider these different cost factors to see if a build or lease is better.
Copyright (C) SP Home Run Inc. All worldwide rights reserved.
Introducing our 5G Platform for the first movers in 5G, the first completely end-to-end solution that combines core and radio solutions in 5G to enable new opportunities and use cases
Daudzdzīvokļu dzīvojamo ēku īpašnieku tiesības un pienākumi siltumapgādes sistēmu uzturēšanā/ Elvijs Kalnkambers, Ekonomikas ministrija
Vebinārs “Daudzdzīvokļu ēku energoefektivitāte. Siltumapgādes sistēma un siltumenerģijas uzskaite”
2023.gada 21.novembris
1.Overview of Renewable Energy Sector and Programs in Malaysia.
2.The mechanism of NEM using solar PV.
3.Benefits of implementing it for residential, commercial and industrial buildings.
4.Barriers that impede successful implementation of solar PV and NEM in Malaysia.
5.Strategies or plans that have been implemented by the Malaysian government to encourage the use of NEM.
6.Recommended additional necessary measures that should be implemented by the government to boost the success of the energy efficiency policy using solar power in Malaysia.
Last update: Feb 7, 2021
5G broadband began to be promoted throughout the United States, it not only brought users a faster Internet, but also brought a new technical architecture designed to further support 5G networks.
As operators around the world are looking for solutions to cope with the growing demand for mobile data, it is necessary to develop 5G technology.
One of those architectures is named device-to-device (D2D) communications, which refers to the communication between devices, which may be cellphones or vehicles. this system opens new device-centric communication that always requires no direct communication with the network infrastructure.
This is good because D2D architecture is predicted to unravel a minimum of a part of the network capacity issue as 5G promises more devices to be connected in faster, more reliable networks.
To understand the new 5G technology, the important point is that it does not only involve faster smartphones. In fact, technologists now call 5G the post-smartphone era.
Higher speeds and lower latency will enable new experiences that require continuous communication between augmented reality and virtual reality, connected cars, smart homes, and machines without lag.
Tonex provided 5G Network Architecture, Planning and Design
Tonex training introduced 5G technology, architecture and protocols. Also discussed 5G air interface and core network technologies and solutions. The course includes investigations of traffic cases and solutions, deployments and products. Covers 3GPP and IMT-2020 methods.
Learning Targets:
Explain the key 5G Principles, Services and Technical aspects
Explain the aim of implementing 5G within the existing mobile ecosystem
Describe a number of the 5G Use Cases and Applications: 3GPP and ITU 5G Use Cases (eMBB, URLLC and mMTC)
List 5G Network Features including: functions, nodes and elements, interfaces, reference points, basic operational procedures and architectural choices
Describe the overall 5G specification
Compare and contrast 5G system with traditional LTE, LTE-A and LTE-A Pro systems (3GPP version)
List and explain 5G RAN and core network architecture
Explain 5G access
Describe the 5G system engineering (access network, 5G core) method
Describe the use of NFV/SDN and network slicing in 5G systems
Learn about 5G radio access networks including 5G New Radio (NR)
Audience:
Engineers
Managers
Marketing and operation personnel
Anyone who want to learn 5G systems including 5G Radio Access Network (RAN), 5G New Radio (NR), 5G core and integration with LTE/LTE-A and LTE-A Pro
Course Outline:
Introduction to 5G Mobile Communication
Key Principles of 5G Systems
5G System Architecture
3GPP 5G System Architecture
5G New Radio (NR)
For More Information:
https://www.tonex.com/5g-training-education-5g-wireless/
The global power and utilities sector is undergoing significant transformation, which is challenging traditional business models, and paving way for new technologies. In all major developed economies, utility companies face a tough operating environment, and this is resulting in several new business models that are mainly based on technological advancements and customer services.
Electricity transmission grid, historically a regulated and traditionally run entity, is also moving in the same direction, and adopting several new technologies, such as Smart, energy storage, and high voltage capacity corridors. Evolution is mostly seen in developed regions with a mature power and utility sector, such as Germany, the UK and the US. However, developing economies too are looking to leapfrog to new models, and currently building plans for the future. The global smart grid market is considered as the grid of the future and is pegged at US$70 billion by 2023.
3GPP SON Series: An Introduction to Self-Organizing Networks (SON)3G4G
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). This is the introduction part that sets the stage for further tutorials on specific topics.
The introduction looks at the network deployment process, different types of SON architecture and then explains self-configuration, self-optimization and self-healing with some basic examples.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
IoT enables the development of interoperable building platforms that will empower sustainable performance management.
This presentation is a summary for those who missed the workshop during the Dutch Green Building Week and hope to learn more about the future for building automation and sustaibable buildings. The future has already started!
This presentation is highlighting the architecture of 5G network and the need for a very efficient Management and Orchestration environnement, very automated and autonomous that monitors the network and services and trigger actions to optimize resources and meet quality of service.
There are many factors in the data center that are driving the new data center design considerations. This slideshare discusses several of the trends in the data center and covers several solutions to implement.
Integrated, adaptable and affordable packages for the deep renovation of buil...Leonardo ENERGY
Integrated, adaptable and affordable packages for the deep renovation of buildings
European Union fixed ambitious objectives in terms of building renovation. To reach them, market actors are searching for innovative solutions, providing a higher integration and adaptation to different situations in European countries. The refurbishment packages will also set oneself apart from other solutions if they succeed to have controlled budget.
The EU H2020 project STUNNING (SusTainable bUsiNess models for the deep reNovation of buIldiNGs) has the goal to promote successful and innovative building renovation packages and business models around a virtual and collaborative knowledge sharing platform: the STUNNING Renovation Hub, so as to accelerate their adoption.
After a short introduction of the STUNNING project by Karine Laffont and Nicolas Peraudeau from DOWEL Management (coordinators), three speakers from European projects will present their solutions.
Replication considerations for the deployment of REnnovates in EuropeHenri Relyveld
Replication considerations for the full scale deployment throughout Europe of the REnnovates concept.
In Europe, differences in climate conditions, building typology, energy regulations, home ownership, citizen association or financial mechanisms, lead to varied housing scenarios where single rigid solutions are difficult to implement. The objective is to present the audience the challenges faced for the industrialization and full-scale deployment of the REnnovates concept and some possible approaches to overcome these differences.
How Artificial Intelligence (AI) is driving the smart home and preventing the grid from congestion.
How does smart control really works and what values does it bring? How can energy efficiency and residential comfort go hand in hand? How is this visualized to the different stakeholders. What's the role of the Smart Home in Smart Grids and how do they interoperate? How are operations and service quality guaranteed? Stefan Lodeweyckx | CEO | Enervalis
REnnovates achievements - Key note end eventHenri Relyveld
Presentation of the REnnovates project. The course and progress of the project, the different phases, business models, demonstrators, results (energy savings, smart control), key lessons, achievements, replication
Presentation About State of Play of European SET-Plan Action 4 on Smart Networks for the Energy Transition at SET-Plan Conference in Bucharest, June 2019
Financing of deep 'REnnovates' retrofit of residential buildings: a banker's perspective.
How does a banker look at the financing of deep retrofit of residential buildings? Is there a bankable business case? Are the 'energy savings' and other values enough to justify the finance investment? Under which conditions could this be a profitable investment for third party investors?
We explain how our 'REnnovates' business modelling tool describes the necessary conditions to come to a bankable investment pilot.
Ensuring European Energy Transition: key research and innovation actions need...Leonardo ENERGY
Konstantin Staschus and Sophie Dourlens will present the new ETIP SNET Implementation Plan (IP) 2017-2020 which is to be released on 5 October 2017
The Implementation Plan aims at listing the short-term priorities for R&I in ETIP SNET’s scope and as defined by the action 4 of the EU’s Strategic Energy Technology Plan: Increase the resilience, security and smartness of the energy system. It is based upon the ETIP-SNET R&I roadmap 2017-2026 which specifies the long-term R&I activities for the evolution of the European energy system and published in January 2017.
The Implementation Plan is the result of a long and comprehensive stakeholders consultation process which makes it widely recognised by all the European energy transition stakeholders.
INTERPRETER – Local flexibility solutions leveraged by RD&I projects as syste...Leonardo ENERGY
Webinar recording at https://youtu.be/ueVkeVCbCCw
This presentation provides an introduction to flexibility solutions, focused on DSO and demand-side innovative service enabling solutions. This introduction will be followed by the presentation of ATTEST and INTERRFACE as examples of RD&I projects where these flexibility solutions are being developed at the European level.
Horizon 2020 Green Deal: Information and Consortia Building Event Series, 9 O...KTN
Over 300 people attended this exciting webinar which provided background information on various call topics and on support available for both UK and European organisations in how to apply for funding and search for partners. This webinar covered areas 2, 3, and 4. KTN hosted this event on behalf of Innovate UK and was delivered by Helen Fairclough, EU Energy Focus, UK National Contact Point for Horizon 2020 Energy, Abishek Ramesh, UK National Contact Point for Horizon 2020 Advanced Manufacturing and Materials, and Jane Watkins, Knowledge Transfer Manager- European Programmes, KTN.
A big thank you to the Speakers, Organisers and everyone who attended the event!
The value of creating a flexible ecosystemHenri Relyveld
The value of creating a flexible ecosystem.
Creating a flexible energy ecosystem is the challenge for the whole energy market. Flexibility in energy demand and energy supply is a vital aspect for a successful energy transition. Especially because peaks in demand and supply are likely to grow substantially (electric transport, solar rooftops) in the near future.
We all embrace a renewable energy future. Solar and wind energy are replacing fossil fuels. The REnnovates concept is designed to meet supply and demand at any time during every season.
From a grid perspective, especially solar energy peaks in summer are difficult to control. Learn more about the necessity of energy flexibility and how we found ways to shave energy (generating) peaks in order to optimize our grid capacity. A challenge which has value.
EU Energy Focus service is a free, Government-funded service that aims to ensure that UK companies, research institutions and other organisations are well informed and have every chance of success in applying for and securing European funding for energy-related projects. Our services include one-to-one discussion of proposal ideas, webinars on key subjects and review of draft proposals. Through this bulletin we aim to provide you with information on sustainable energy policy and funding in Europe and in the UK.
Bottom-up design of a smart neighborhood: an energy simulation approachHenri Relyveld
Bottom-up design of a smart neighborhood: an energy simulation approach.
In this workshop the results of the building energy simulations will be shown, as well as the results of the validation track. From a designer's point of view, it is very valuable to immediately assess the impact of certain renovation design choices on user comfort and energy demand. The total electrification of the energy supply in a neighborhood is also of great concern for the local distribution grid operator. Additionally, this work also has a strong connection with evaluation of the business models. The developed tools will be showcased in this workshop.
In recent years, the European Commission and EU countries have set up numerous large-scale pilot projects to contribute to the digitisation of the energy industry across Europe and beyond.
The most important goals of this endeavour are reaching a common energy data space to facilitate infrastructure planning and monitoring, empowering citizens by providing them with tools for participation in energy markets, supporting research and development of digital solutions, improving cybersecurity of the energy sector, and supporting the adoption of climate-neutral solutions for the ICT sector.
In this panel key projects and services will be presented that move towards a sustainable and digital energy world by exploiting data sharing. The renowned experts and market drivers will show up their approaches and innovative solutions by presenting:
Insights to a R&D project about secure smart grids in Germany that is focusing on FIWARE based smart energy solutions while facing Redispatch 2.0 and business modelling challenges.
References on how a local utility works together with research institutes and energy ICT companies to realise a building block called “Energiewende” - the transformation of the energy systems towards renewables.
The efficient use of data in building energy systems to achieve scalable solutions.
Main highlights and strategies of European projects: French Data Network and Enershare.
Showcases on how FIWARE building blocks enable the data sharing of energy communities: first insight to the background of energy communities and a proof-of-concept for using the FIWARE context broker as the coordinator of an energy community.
Webinar - Meet the Belgian players : innovation & knowhow for the implementat...Cluster TWEED
As part of the Clean Energy Package of the European Commission, energy communities are introduced as a way to grow the installation of renewable energy and to offer citizens the opportunity to participate in the energy market. In these 6 online advanced trainings Flux50 & TWEED give you an overview of the concept of energy communities, what they can or can become, the Belgian value chain with topnotch R&D actors and SME frontrunners.
3nd training session of 6 online training sessions for energy communities: "Meet the Belgian players : innovation & knowhow for the implementation of Energy Communities".
6th International Conference on Machine Learning & Applications (CMLA 2024)ClaraZara1
6th International Conference on Machine Learning & Applications (CMLA 2024) will provide an excellent international forum for sharing knowledge and results in theory, methodology and applications of on Machine Learning & Applications.
TOP 10 B TECH COLLEGES IN JAIPUR 2024.pptxnikitacareer3
Looking for the best engineering colleges in Jaipur for 2024?
Check out our list of the top 10 B.Tech colleges to help you make the right choice for your future career!
1) MNIT
2) MANIPAL UNIV
3) LNMIIT
4) NIMS UNIV
5) JECRC
6) VIVEKANANDA GLOBAL UNIV
7) BIT JAIPUR
8) APEX UNIV
9) AMITY UNIV.
10) JNU
TO KNOW MORE ABOUT COLLEGES, FEES AND PLACEMENT, WATCH THE FULL VIDEO GIVEN BELOW ON "TOP 10 B TECH COLLEGES IN JAIPUR"
https://www.youtube.com/watch?v=vSNje0MBh7g
VISIT CAREER MANTRA PORTAL TO KNOW MORE ABOUT COLLEGES/UNIVERSITITES in Jaipur:
https://careermantra.net/colleges/3378/Jaipur/b-tech
Get all the information you need to plan your next steps in your medical career with Career Mantra!
https://careermantra.net/
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
Water billing management system project report.pdfKamal Acharya
Our project entitled “Water Billing Management System” aims is to generate Water bill with all the charges and penalty. Manual system that is employed is extremely laborious and quite inadequate. It only makes the process more difficult and hard.
The aim of our project is to develop a system that is meant to partially computerize the work performed in the Water Board like generating monthly Water bill, record of consuming unit of water, store record of the customer and previous unpaid record.
We used HTML/PHP as front end and MYSQL as back end for developing our project. HTML is primarily a visual design environment. We can create a android application by designing the form and that make up the user interface. Adding android application code to the form and the objects such as buttons and text boxes on them and adding any required support code in additional modular.
MySQL is free open source database that facilitates the effective management of the databases by connecting them to the software. It is a stable ,reliable and the powerful solution with the advanced features and advantages which are as follows: Data Security.MySQL is free open source database that facilitates the effective management of the databases by connecting them to the software.
NUMERICAL SIMULATIONS OF HEAT AND MASS TRANSFER IN CONDENSING HEAT EXCHANGERS...ssuser7dcef0
Power plants release a large amount of water vapor into the
atmosphere through the stack. The flue gas can be a potential
source for obtaining much needed cooling water for a power
plant. If a power plant could recover and reuse a portion of this
moisture, it could reduce its total cooling water intake
requirement. One of the most practical way to recover water
from flue gas is to use a condensing heat exchanger. The power
plant could also recover latent heat due to condensation as well
as sensible heat due to lowering the flue gas exit temperature.
Additionally, harmful acids released from the stack can be
reduced in a condensing heat exchanger by acid condensation. reduced in a condensing heat exchanger by acid condensation.
Condensation of vapors in flue gas is a complicated
phenomenon since heat and mass transfer of water vapor and
various acids simultaneously occur in the presence of noncondensable
gases such as nitrogen and oxygen. Design of a
condenser depends on the knowledge and understanding of the
heat and mass transfer processes. A computer program for
numerical simulations of water (H2O) and sulfuric acid (H2SO4)
condensation in a flue gas condensing heat exchanger was
developed using MATLAB. Governing equations based on
mass and energy balances for the system were derived to
predict variables such as flue gas exit temperature, cooling
water outlet temperature, mole fraction and condensation rates
of water and sulfuric acid vapors. The equations were solved
using an iterative solution technique with calculations of heat
and mass transfer coefficients and physical properties.
Online aptitude test management system project report.pdfKamal Acharya
The purpose of on-line aptitude test system is to take online test in an efficient manner and no time wasting for checking the paper. The main objective of on-line aptitude test system is to efficiently evaluate the candidate thoroughly through a fully automated system that not only saves lot of time but also gives fast results. For students they give papers according to their convenience and time and there is no need of using extra thing like paper, pen etc. This can be used in educational institutions as well as in corporate world. Can be used anywhere any time as it is a web based application (user Location doesn’t matter). No restriction that examiner has to be present when the candidate takes the test.
Every time when lecturers/professors need to conduct examinations they have to sit down think about the questions and then create a whole new set of questions for each and every exam. In some cases the professor may want to give an open book online exam that is the student can take the exam any time anywhere, but the student might have to answer the questions in a limited time period. The professor may want to change the sequence of questions for every student. The problem that a student has is whenever a date for the exam is declared the student has to take it and there is no way he can take it at some other time. This project will create an interface for the examiner to create and store questions in a repository. It will also create an interface for the student to take examinations at his convenience and the questions and/or exams may be timed. Thereby creating an application which can be used by examiners and examinee’s simultaneously.
Examination System is very useful for Teachers/Professors. As in the teaching profession, you are responsible for writing question papers. In the conventional method, you write the question paper on paper, keep question papers separate from answers and all this information you have to keep in a locker to avoid unauthorized access. Using the Examination System you can create a question paper and everything will be written to a single exam file in encrypted format. You can set the General and Administrator password to avoid unauthorized access to your question paper. Every time you start the examination, the program shuffles all the questions and selects them randomly from the database, which reduces the chances of memorizing the questions.
Harnessing WebAssembly for Real-time Stateless Streaming PipelinesChristina Lin
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
2. Project co-funded by the European Commission in the H2020 Programme.
Smart Neighborhoods Speak
EEBUS – by Niklas Arpula, KEO GmbH
3. Project co-funded by the European Commission in the H2020 Programme.
– The main objective of the EU’s
REnnovates programme is to explore the
main business model opportunities to
make the renovation investment viable.
– Deep renovation of houses towards net-
zero-energy and integration of houses
into smart neighborhoods.
Project Objectives
4. Project co-funded by the European Commission in the H2020 Programme.
– Industrial approach for renovation is
necessary: prefabrication, modularity,
digital construction.
– For holistic energy management is
standardized device communication
essential.
– Standards facilitate interoperability
between products in a multi-vendor, multi-
network and multi-service environment (ETSI).
Prerequisites for Success
5. Project co-funded by the European Commission in the H2020 Programme.
− “Ability of two or more systems or applications
to exchange information and to mutually use
the information that has been exchanged”,
ETSI
− Benefits: users have a larger choice of
products, manufacturers have access to a
wider market
Interoperability?
6. Project co-funded by the European Commission in the H2020 Programme.
– One global language for devices to
communicate with one another about energy –
transcending the boundaries of industries and
continents.
– One common language that every device and
every platform can freely use – regardless of
the manufacturer and technology.
– Represented and developed by the non-profit
organization EEBus Initiative e.V.
– Cross-domain standardization approach.
EEBUS: Wherever Devices Need to Talk About Energy
7. Project co-funded by the European Commission in the H2020 Programme.
– The starting point of the standardization
process are market requirements of the
companies involved.
– Democratic development of use cases and
information exchange.
– Only that what the member companies need
is standardized.
– The cross-industry network plays a key role in
this process of creating a common
overarching understanding.
EEBUS: From the Vision to the Concrete Use Case
8. Project co-funded by the European Commission in the H2020 Programme.
– Transforming use cases to become
production-ready specifications and data
models.
– Common plugfests to verify the function of
new use cases.
– Global convergence through partnering with
international platforms such as
Energy@home, the Open Connectivity
Foundation (OCF) and Thread.
EEBUS: Consistently Geared Towards Application
9. Project co-funded by the European Commission in the H2020 Programme.
– EEBUS describes the data models (SPINE)
necessary for the technical implementation of
a use case.
– SPINE is standardised
CENELEC EN 50631 (Household appliances network and grid
connectivity)
ETSI TS 103 410-1 (SAREF4ENER; Smart Appliances Extension
to EU Framework SAREF)
– SPINE can be transmitted via many
communication/transmission channels e.g.
In TCP/IP environment, EEBUS has published a specification
(Smart Home IP = SHIP)
In UDP environment cooperation with Thread and OCF
EEBUS: A Standard for Interoperable Data Models
10. Project co-funded by the European Commission in the H2020 Programme.
Overview EEBUS Connected Domains
Ready / Under development
11. Project co-funded by the European Commission in the H2020 Programme.
Insulating envelope (shell)
•pre-fab, 3-day construction period
•High end insulating materials (60% energy savings)
•Solar panels
Energy module
Including all energy related elements
like: HVAC, heat pump, DHW and
water storage, PV converter, battery
(storage)
Smart Energy Software to
flexibilize the neighbourhood
Increase flexibility by clustering energy streams
on an aggregated level
Smart Energy control per
individual house
To increase the agility of energy supply and
demand (prosumption)
The Concept
12. Project co-funded by the European Commission in the H2020 Programme.
– EEBUS integration of all energy-related
devices into the local energy
management gateway.
– Cross-domain device integration for
scalable and replicable energy
management use cases.
– Essential for reaching Zero Net Energy
status.
– Basis for a mass market suitable roll-
out of plug&play ready EEBUS
communication solutions.
EEBUS: Implementation in the Project
Use Cases: Smart Start/stop, battery charging, inverter
control, local optimization (possibility for future
expansion with other use cases)
13. Project co-funded by the European Commission in the H2020 Programme.
Manufacturer and
technology independent
device communication
Integration of all devices into
one system
Improved transparency and
flexibility of residential loads and
energy generation
Avoidance of lock-in
Holistic approach and
reduction of complexity
New services and business
models
Reduced cost of maintenance,
scalability and replication
Energy and cost
efficiency
Smart Neighborhoods as product,
bundling of demand response
with other consumer services
Value
Consequence
Benefit (i.e.)
Interoperability
EEBUS: Added Value for the Project
Can you see other benefits?
14. Project co-funded by the European Commission in the H2020 Programme.
– Utilizing EEBUS native devices to
release full potential
• SAREF4ENER
– New EEBUS High-Level Use Cases for
implementing services on the
Rennovates energy management
platform
– Independence from customized solutions
improved platform scalability &
replicability
– Any market participant can set up
EEBUS-based energy management for
improved energy efficiency and reduced
CO2-footprint
EEBUS: Development of the Rennovates Platform
SAREF 4 ENER
SAREF 4 ENER
Standardization of platform services as
EEBUS High-Level Use Cases:
−Energy savings, Solar self-consumption,
Solar forecast
−New services (e.g. integration of e-mobility)
15. Project co-funded by the European Commission in the H2020 Programme.
EEBUS connects Smart Home to Smart Grid
Grid integration
Ready / Under development
16. Project co-funded by the European Commission in the H2020 Programme.
Standardizing meaningful Use Cases for behind-the-meter
17. Project co-funded by the European Commission in the H2020 Programme.
Link to Smart Grid
Communication channel to the Grid
Power Limitation (Pmax) from the Grid
Forecast Home
Metering data
to the EMS
18. Project co-funded by the European Commission in the H2020 Programme.
E-Mobility Use Case: Basement Garage – Pmax Set Point
19. Project co-funded by the European Commission in the H2020 Programme.
Determine and control Pmax
20. Project co-funded by the European Commission in the H2020 Programme.
EEBUS Live Demo
21. Project co-funded by the European Commission in the H2020 Programme.
Your turn
How could standardization for energy management and
device communication be driven in the building sector?
The market
solves the
problem!
Politics solves
the problem!
There is no
problem!
22. Niklas Arpula, Key Account Manager
T +49 221 99 58 9 - 323
M +49 152 0909 6851
arpula@keo-connectivity.de
KEO GmbH
Butzweilerhof-Allee 4
50829 Cologne
Germany
Thank you for listening
Editor's Notes
The main objective of the partly EU-funded REnnovates project is to explore the main business model opportunities to make investment in the renovation existing building stock financially viable.
The concept encompasses the deep renovation of houses towards net-zero-energy status and integration of houses into smart neighborhoods.
For a successful business case of deep renovation of existing.
building stock into zero-net energy and smart neighborhoods is an industrial approach necessary. This includes for example prefabrication of components, modular structures, and utilization of digital construction tools such as BIM.
Why standardized:
-Standards facilitate…
-Because standardized device communication and interfaces are essential for scalable and replicable energy management solutions
This includes Plug&Play- ready device communication and implementation of standardized use cases for energy management – independent from underlying device manufacturers or gateway software. To enable this approach was EEBUS software from KEO GmbH chosen as the technology for device communication in the project.
Is the concept of interoperability familar to you?
How would you define it?
Analogy between humans and systems:
People can understand each other, regardless how the communication happens: Letter, call, whatsapp or face2face talk. As long as the language is common can we communicate (of course has the medium for communication to match).
Benefits
This is what EEBUS does.
EEBUS is the global language for energy. It is the language for devices to communicate with one another about energy – transcending the boundaries of industries and continents. It is common language that every device and every platform can freely use – regardless of the manufacturer and technology. All key domains of residential and commercial energy consumption and generation - renewables, energy storage, e-mobility, heating & air conditioning household appliances and lighting – converge into one system.
EEBUS is represented and developed by the non-profit organization EEBus Initiative e.V. The initiative brings together almost 70 member companies and industry organizations, that together work on the standardization of cross-domain use cases for device communication over energy.
The starting point for the EEBUS standardization process is usually the market requirements of the companies involved, which they commonly define. These requirements are transferred into so called use cases. EEBUS Use cases describe the communication between two or more devices in order to fulfill a specific goal related to improved energy efficiency, visualization of energy relevant data or configuration of devices.
In a spirit of partnership the EEBus members develop use cases and decide which information needs to be shared to achieve the goals. Due to the fact that only information necessary for the use case is exchanged, can the companies both open themselves to a larger device ecosystem, but still maintain the feasibility of their horizontal business models.
The cross-industry network of the EEBUS members plays a key role in this process. Through the exchange of technology and market knowhow, is a common overarching understanding reached and future development for more efficient use of energy promoted.
The EEBUS approach in the standardization process is always geared towards application on real products on the market. This means that use cases are transformed to production-ready specifications and data models.
The specifications and product prototypes are tested on so called common Plugfests, where the correct function of new use cases is verified.
The EEBus Initiative works for global convergence through interaction with other international consortiums in the Internet of Things - such as Energy@home, the Open Connectivity Foundation (OCF) and the Thread Group. The EEBUS data models for energy relevant devices were last year included in the OCF resources, affirming thus the EEBUS leading position when it comes device communication over energy.
EEBUS creates interoperability through the Smart Grid architecture layers by describing Uses Cases and standardizing the underlying data models.
Smart Grid Architecture Model:
Describes actors, functions, use cases, communication and components within the reference architecture. It enables definition of responsibilities and requirements per layer to crete interoperability through all levels.
Enables any market participant to release market-ready interoperable products
Changes in the layers do not necessary require re-validation of the entire Use Case.
Smart Premise Interoperable Neutral Message Exchange.
SPINE is standardised:
Most recently has SPINE been standardized by the CENELEC, where it was included in a standard for smart household appliances. SPINE based on an ETSI standard for SAREF4ENER, which is a reference ontology for Machine-2-Machine communication and a benchmark for device interoperability on European level.
In addition, the alignment of SPINE with standards in other domains is continuously ongoing.
SPINE is independent of the transport level, and can thus be transmitted via many communication and transmission channels e.g. for the TCP/IP environment, EEBUS has published a specification called SHIP (Smart Home IP). Whereas in UDP environment cooperates EEBUS with Thread and OCF. To other technologies can the SPINE content be mapped.
The Rennovates concept is based on the following four elements:
Insulating the houses with a envelope
Installing an energy module
Smart energy control on each individual house powered by EEBUS communication
Smart solution to flexibilize the neighbourhood
As EEBUS is a standard for device interoperability is it not applicable for physical structures such as insulation, but for all other concept elements EEBUS is a central enabler. The following slides will handle the EEBUS implementation in the project, provided added value, and future development of the platform on EEBUS basis.
The software expertise provided by KEO GmbH in the Rennovates project enabled a successful EEBUS integration of all energy-related devices - such as measurements & metering, heat pump, photovoltaic inverter and building-level battery - in the local energy management gateway. Manufacturer specific communication was mapped with KEO software into the technology neutral data model SPINE and transferred over the KEO EEBUS Framework to the Enervalis technology. Flexibility enabling use cases – for example smart start and stop of heating, battery charging, inverter control and local optimization – were thus made possible.
A successful cross-domain energy integration to enable efficient and truly smart energy management was essential to realizing the energy-savings potential and reaching the Rennovates target for housing Zero Net Energy status. Moreover, this could be done in a financially viable, scalable and replicable way. For KEO the project experience resulted in a mass-market suitable roll-out of Plug&Play qualified EEBUS communication solutions.
Firstly, plug&play ready device interoperability with the EEBUS solution from KEO solves the major challenge the integration of devices into compact modules and systems creates: development of device and manufacturer specific solutions, that are expensive to maintain, scale and replicate. Once the energy management is also set up with EEBUS data models and Use Cases, system components can be exchanged without expensive and complicated re-integration efforts. Utilizing standardized EEBUS use cases enables extending the modular approach to the energy management both on house and neighborhood level. Thus, implementing EEBUS on both device and energy management system level promotes platform scalability as well as replicability.
Secondly, integration of all devices into one system enables a holistic approach for managing the energy flows of households and as well reduces technical complexity. This is a driver for both energy and cost efficiency.
Thirdly, standardized device communication enables networking of all energy relevant devices and thus creates the infrastructure for smart energy control on individual house level. A house with intelligent and networked devices is the core element of a flexible neighborhood. Consequently, a must for improved flexibility and transparency to residential loads and resources, which furthermore enables creation of new services and business models (i.e. Smart Neighborhoods as product, or bundling of demand response with other consumer services).
Other benefits:
In addition, an energy management solution based on EEBUS data models is open for a future integration of other energy relevant devices and domains, such as e-mobility.
For optimal development of the Rennovates platform, should native EEBUS devices be used. However, this requires a wider market penetration of EEBUS technologies. This development should be supported with appropriate incentives that encourage technology providers to improve interoperability with other ecosystems. For further interoberability, EEBUS is compliant to the common European reference language for energy (SAREF4ENER).
The development of standardized EEBUS high-level use cases for multi-family houses and commercial buildings should be driven in the working groups of the EEBUS Initiative. Up to now Rennovates platform services – such as energy savings, solar self-consumption and solar forecast – have been implemented on proprietary technology that creates certain degree of barriers and lock-in conflicts to other services. Realizing these services with standardized EEBUS use cases will significantly promote the scalability and replicability of the platform in the future.
Furthermore, additional services could be offered by developing new use cases for e.g. the integration of e-mobility into smart neighborhoods or information exchange with the DSO and other grid stakeholders.
Basing the energy management on freely available – non-proprietary - EEBUS data models and use cases would also make setting up platforms for smart and flexible neighborhoods possible for a larger group of stakeholders. This would improve energy efficiency and reduce the CO2 footprint of the whole building sector in the European Union.
Back to EEBUS
As the practical use cases from EEBUS show, has EEBUS already networked the energy relevant devices in the household. However, to unleash the full potential of an energetically networked house is grid interaction necessary. E.g. from a grid operators point of view does purely local use cases not provide much added value neither does it enable a smart grid. Thus are also use cases for interaction with the grid necessary.
This especially because e-mobility will increase electricity consumption and its volatility significantly. To manage overload and underload scenarios through the existing grid infrastructure a bi-directional communication from grid level to cell/device level (e.g. e-vehicles) is required.
Standardizing meaningful use case for the connected home. All devices within a house are connected with the local energy management (EMS) which optimizes the energy self consumption, using EEBUS data models and use cases.
Example of such an use case: Overload Protection
To prevent an ongoing EV charging process from tripping a fuse of the supply side infrastructure. -Enables the system to limit the maximum charging current of the EV on each phase depending on the electrical connection.
-> Added value: The power consumption of the EV may be reduced and thus the house protected from blackout
However, protecting the house from blackout is not enough. Consider that if the main fuse can handle a load of 20kW and there are 10 houses in the neighborhood, does it not mean that the local transformer can handle a load of 10x 20kW.
Information exchange between Smart Home and Smart Grid a must.
Grid connectivity
-> Added value: Local cell / grid can be protected.
For linking the Smart Grid with the Smart Home has EEBUS developed the Power Limitation use case, which takes use of the house internal use cases enabling power limitation of energetic processes. In the EEBUS approach will the EMS will aggregate energy demands/offers and manage e.g. set points for power limitation provided from the grid side stakeholders.
In Germany will this connectivity be realized over the smart meter gateway, for which multiple approaches are possible. However, purely technically it does not matter from where the EMS gets the power limitation setpoint. Note also that the EMS is an logical device and can be a separate local device, a software on the smart meter or even in the cloud.
Lets think again at E-mobility.
According to German studies will 80% of EV charging be non-public – in other words behind the meter. These charging processes are somewhat of a black box for the network operators.
Such black boxes can for example be basement garages with multiple charging points. These cause a major increase in local electricity consumption and a stress on the grid!
Without a use case like the power limitation will such locations cause local blackouts. Here the local EMS and its charging management would get a power limit and optimize the charging accordingly. Enables the system to limit the maximum charging current of the EV on each phase depending on the electrical connection. Forecasts can be provided and load curves from the grid side taken into account.
The power limitation use case can be applied on local distribution network level – thus its not limited to single houses. Remember the capabilities of local transformers as I a while ago mentioned. And it can also be applied both to residential and commercial buildings.
With the help of real time consumption data and forecasts for electricity consumption can each level and house be given their individual – and dynamic - power limit.
Considering this individual Pmax, can the local EMS optimize energy consumption, but still comply to the grid requirements. This means: Stable power distribution does not have to be in conflict with local optimization
Furthermore could future energy consumption be influenced – instead of a power limit - by power curves, tarifs or incentives (incentive curves).
Increasing electrification of the mobility and heating domains sets – without any doubt - higher pressure on buildings and their energetic infrastructure to be smart grid „compliant“. This can be reached with local and grid connectivity through EEBUS and the described Pmax use case. For building owners could this e.g. enable participation on flexibility markets and access to lower grid fees.