IEEE Organizations related to Demand-side Management

Back to Top

No organizations are currently tagged "Demand-side Management"



Conferences related to Demand-side Management

Back to Top

2020 IEEE 18th International Conference on Industrial Informatics (INDIN)

INDIN focuses on recent developments, deployments, technology trends, and research results in Industrial Informatics-related fields from both industry and academia


2020 IEEE International Conference on Industrial Technology (ICIT)

ICIT focuses on industrial and manufacturing applications of electronics, controls, communications, instrumentation, and computational intelligence.


2020 IEEE Power & Energy Society General Meeting (PESGM)

The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more


2020 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

Innovative Smart Grid Technologies

  • 2019 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

    Innovative Smart Grid Technologies

  • 2018 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

    Forum for participants to discuss state of the art innovations in Smart Grid Technologies and will feature plenary and panel sessions as well as technical paper presentations and poster sessions.

  • 2017 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

    Forum for participants to discuss state of the art innovations in smart grid technologies and will feature plenary and panel sessions as well as technical paper presentations and poster sessions

  • 2016 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

    The Conference will be a forum for participants to discuss state-of-the-art innovations in smart grid technologies and will feature plenary and panel sessions as well as technical paper presentations and poster sessions.

  • 2015 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

    Power and Energy System Applications (generation, transmission, distribution, distribution, markets, operations, and planning) - Cyber and Physical Security Systems (Intelligent Monitoring and Outage Management)-Smart Sensing, Communication, and Control in Energy Systems; - Wireless Communications and Advanced Metering Infrastructure; - Energy MgmtSystems (with applications to buildings and home automation); - Interdependent Energy Infrastructures (with applications to gas, water, transportation, and more.

  • 2014 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT)

    Power and Energy System Applications (generation, transmission, distribution, distribution, markets, operations, and planning) - Cyber and Physical Security Systems (Intelligent Monitoring and Outage Management)-Smart Sensing, Communication, and Control in Energy Systems; - Wireless Communications and Advanced Metering Infrastructure; -Energy Mgmt Systmes (with applications to buildings and home automation); - Interdependent Energy Infrastructures (with applications to gas, water, transportation, and more.

  • 2013 IEEE PES Innovative Smart Grid Technologies (ISGT)

    Power and Energy System Applications (generation, transmission, distribution, distribution, markets, operations, and planning) - Cyber and Physical Security Systems (Intelligent Monitoring and Outage Management)-Smart Sensing, Communication, and Control in Energy Systems; - Wireless Communications and Advanced Metering Infrastructure; -Energy Mgmt Systmes (with applications to buildings and home automation); - Interdependent Energy Infrastructures (with applications to gas, water, transportation, and more.

  • 2012 IEEE PES Innovative Smart Grid Technologies (ISGT)

    Power and Energy System Applications (generation, transmission, distribution, distribution, markets, operations, and planning) - Cyber and Physical Security Systems (Intelligent Monitoring and Outage Management)-Smart Sensing, Communication, and Control in Energy Systems; - Wireless Communications and Advanced Metering Infrastructure; -Energy Mgmt Systmes (with applications to buildings and home automation); - Interdependent Energy Infrastructures (with applications to gas, water, transportation, and more.

  • 2011 IEEE PES Innovative Smart Grid Technologies (ISGT)

    Power and Energy System Applications (generation, transmission, distribution, distribution, markets, operations, and planning) - Cyber and Physical Security Systems (Intelligent Monitoring and Outage Management)-Smart Sensing, Communication, and Control in Energy Systems; - Wireless Communications and Advanced Metering Infrastructure; -Energy Mgmt Systmes (with applications to buildings and home automation); - Interdependent Energy Infrastructures (with applications to gas, water, transportation, and more.

  • 2010 Innovative Smart Grid Technologies (ISGT)

    -Power and Energy System Applications (generation, transmission, distribution, distribution, markets, operations, and planning) - Cyber and Physical Security Systems (Intelligent Monitoring and Outage Management)-Smart Sensing, Communication, and Control in Energy Systems; - Wireless Communications and Advanced Metering Infrastructure; -Energy Mgmt Systmes (with applications to buildings and home automation); - Interdependent Energy Infrastructures (with applications to gas, water, transportation, and telec


2019 IEEE Milan PowerTech

PowerTech is the IEEE PES anchor conference in Europe and has been attended by hundreds of delegates from around the world. It will be an international forum with programme for individuals working in industry and academia, to network, exchange ideas, and discuss the results of their research and development work.

  • 2017 IEEE Manchester PowerTech

    this is IEEE PES anchor conference in Europe covering all areas of electrical power engineering

  • 2015 IEEE Eindhoven PowerTech

    This conference will continue the tradition of the PowerTech conferences held in odd years in Athens, Stockholm, Budapest, Porto, Bologna, St. Petersburg, Lausanne, Bucharest, Trondheim and Grenoble.PowerTech is the anchor conference of the IEEE Power Engineering Society in Europe. It is intended to provide a forum, in the European geographical area, for scientists and engineers interested in electric power engineering to exchange ideas, results of their scientific work, to learn from each other as well as to establish new friendships and rekindle existing ones. Student participation in Power Tech provides an important ingredient toward the event’s success: a special award, the Basil Papadias Award, is presented to the author of the best student paper at each edition. The Power Engineering Society of IEEE organized similar conferences in other parts of the world, such as PowerCon, in the Asia-Pacific region.

  • 2013 IEEE Grenoble PowerTech

    PowerTech is the anchor conference of the IEEE Power & Energy Society in Europe. It is intended to provide a forum for electric power engineering scientists and engineers to share ideas, results of their scientific work, to learn from each other as well as to establish new friendships and maintain existing ones.

  • 2011 IEEE Trondheim PowerTech

    PowerTech is the anchor conference of the IEEE Power & Energy Society in Europe. It is intended to provide a forum for electric power engineering scientists and engineers to share ideas, results of their scientific work and to learn from each other.

  • 2009 IEEE Bucharest Power Tech

    PowerTech is the anchor conference of the IEEE-PES in Europe. It is intended to provide a forum for scientists and engineers interested in electric power engineering to share ideas, results of their scientific work, to learn from each other as well as to establish new friendships and rekindle existing ones.

  • 2007 IEEE Power Tech

  • 2005 IEEE Russia Power Tech

  • 2003 Bologna Power Tech


More Conferences

Periodicals related to Demand-side Management

Back to Top

No periodicals are currently tagged "Demand-side Management"


Most published Xplore authors for Demand-side Management

Back to Top

Xplore Articles related to Demand-side Management

Back to Top

Three Phase Power Imbalance Decomposition into Systematic Imbalance and Random Imbalance

2018 IEEE Power & Energy Society General Meeting (PESGM), 2018

Uneven load allocations and random load behaviors are two major causes for three-phase power imbalance. The former mainly cause systematic imbalance, which can be addressed by low-cost phase swapping; the latter contribute to random imbalance, which requires relatively costly demand-side managements. To reveal the maximum potential of phase swapping and the minimum need for demand-side managements, this paper first proposes ...


On the possibilities of using demand-side management approach for the power market control in Russian Federation

2016 2nd International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM), 2016

Under current crisis conditions in Russia, operative load management can be considered not only as an alternative to increase of power generation, but also as a survival technique for both utilities and energy consumers. These conditions stipulate the need for new ways of encouraging consumers to participate in demand-side management programs. If load-shedding price suggested by the consumer is lower ...


Using social Internet of Things (SIoT) demand side management on the plant

2016 Eighth International Conference on Ubiquitous and Future Networks (ICUFN), 2016

Demand-side management program is important for future smart grid. Most of the DSM program developed in the past interact customer and utility company. We suggest the Factory Management System using Social Internet of Things. It is not interaction between customer and utility company but interaction between things and things. Therefore we propose a autonomous demand-side management system and a system ...


Demand-side management in Renewable Energy Park

2017 6th International Youth Conference on Energy (IYCE), 2017

Nowadays the electricity is very important for humanity, although there are many places worldwide which do not have access to it. Recently decentralization from the grid became more and more popular. In this paper a project about the Renewable Energy Park in Fót will be presented. The Park is a Microgrid, an electricity distribution system that can manage itself and ...


Optimal coordination and scheduling of demand response via monetary incentives

2016 IEEE Power and Energy Society General Meeting (PESGM), 2016

Summary form only given. Without demand-side management, an increase in the number of electric vehicles (EVs) could result in overloads on distribution feeders. Aggregators could optimally manage the charging/discharging of the EVs, to not only maximize the consumers' welfare in response to real-time prices and accommodate their needs for transportation, but also to keep the distribution network within its operating ...


More Xplore Articles

Educational Resources on Demand-side Management

Back to Top

IEEE-USA E-Books

  • Three Phase Power Imbalance Decomposition into Systematic Imbalance and Random Imbalance

    Uneven load allocations and random load behaviors are two major causes for three-phase power imbalance. The former mainly cause systematic imbalance, which can be addressed by low-cost phase swapping; the latter contribute to random imbalance, which requires relatively costly demand-side managements. To reveal the maximum potential of phase swapping and the minimum need for demand-side managements, this paper first proposes a novel a priori judgment to classify any set of three-phase power series into one of four scenarios, depending on whether there is a definite maximum phase, a definite minimum phase, or both. Then, this paper proposes a new method to decompose three- phase power series into a systematic imbalance component and a random imbalance component as the closed-form solutions of quadratic optimization models that minimize random imbalance. A degree of power imbalance is calculated based on the systematic imbalance component to guide phase swapping. Case studies demonstrate that 72.8% of 782 low voltage substations have systematic imbalance components. The degree of power imbalance results reveal the maximum need for phase swapping and the random imbalance components reveal the minimum need for demand side management, if the three phases are to be fully rebalanced.

  • On the possibilities of using demand-side management approach for the power market control in Russian Federation

    Under current crisis conditions in Russia, operative load management can be considered not only as an alternative to increase of power generation, but also as a survival technique for both utilities and energy consumers. These conditions stipulate the need for new ways of encouraging consumers to participate in demand-side management programs. If load-shedding price suggested by the consumer is lower than that of a generating company, market balancing will take place at a lower electricity cost. The cost savings achieved by reduction of capital and operational expenditures can be invested in innovative upgrade of energy industry.

  • Using social Internet of Things (SIoT) demand side management on the plant

    Demand-side management program is important for future smart grid. Most of the DSM program developed in the past interact customer and utility company. We suggest the Factory Management System using Social Internet of Things. It is not interaction between customer and utility company but interaction between things and things. Therefore we propose a autonomous demand-side management system and a system architecture.

  • Demand-side management in Renewable Energy Park

    Nowadays the electricity is very important for humanity, although there are many places worldwide which do not have access to it. Recently decentralization from the grid became more and more popular. In this paper a project about the Renewable Energy Park in Fót will be presented. The Park is a Microgrid, an electricity distribution system that can manage itself and gain power from renewable energy sources and from the electricity grid also. First, the analysis of the available power load and supply data of the Park are presented in this work. The synchronicity of the load and supply, also the possibility of the Park for virtually islanded mode were determined during the calculations. The main task of the work was to analyze how the demand-side management can support the existence of the islanded operation. Finally a suggestion for the expansion of the renewable energy capacity was made.

  • Optimal coordination and scheduling of demand response via monetary incentives

    Summary form only given. Without demand-side management, an increase in the number of electric vehicles (EVs) could result in overloads on distribution feeders. Aggregators could optimally manage the charging/discharging of the EVs, to not only maximize the consumers' welfare in response to real-time prices and accommodate their needs for transportation, but also to keep the distribution network within its operating limits. This paper proposes a decentralized framework in which the aggregator seeks to maximize its profits while the consumers minimize their costs in response to time-varying prices, and additional incentives provided to mitigate potential overloads in the distribution system. Test results show that a large penetration of EV penetration can then be managed without violating the capacity of the distribution network.

  • Implementing energy efficiency and demand-side management in glasswork company

    This paper provides in-depth analysis of the potential impact of demand-side management and energy efficiency improvements by evaluating energy consumption and efficiency according to the LVS EN ISO 50001:2012 standard at a glass-work company in Latvia. The electricity consumption monitoring system provides detailed data on energy consumption by the different types of production processes. In-depth analysis of production process energy consumption shows that glass tempering is included in almost all glass production processes and is the most energy-intensive process. By increasing the energy efficiency of the glass tempering process, the total energy consumption may diminish considerably, as may the share of electricity in the ultimate cost of the products, which is to result in diminished prime cost of the products. However, the process of refurbishing the glass tempering process is rather expensive and requires analysis as to the repayment of investment, considering the new law on the mandatory procurement component (MPC).

  • Distributed learning algorithms for scheduling games in the future smart grid

    Game theory is a key analytical tool to design Demand-Side Management (DSM) systems, since it can be used to model the complex interactions among the independent actors of the smart grids. In this paper, we propose two learning algorithms to enable the players of game theoretic DSM frameworks to autonomously converge to the Nash equilibria of the game, and we evaluate their performance based on real instances of the problem.

  • Time-segmented Regression Analysis: An Approach in Designing more Effective DSM Scheme

    A new analytical approach, time-segmented regression analysis (TSRA) has been introduced for the first time. TSRA is capable of identifying the dominating household factors responsible for peak time electricity consumption at residences. Therefore, identification of these household factors along with their time-varying nature would enable the policymakers to design more effective demand-side management (DSM) strategies to reduce peak-time electricity demand at residences.

  • A Secure, Intelligent Electric Vehicle Ecosystem for Safe Integration With the Smart Grid

    Availability of the charging infrastructure is critical for a smooth rollout of wide-scale electric vehicle (EV) adoption. Safe integration of the charging infrastructure with the power grid heavily relies on an intelligent platform to support demand-side management and a secure information and communication system to coordinate events. However, security has been identified as an area falling short of the desired expectation in the smart grid, possibly introducing considerable risk to the reliability and stability of the power grid. In addition, a concrete demand-side management system that is compatible with state-of-the-art EVs is also lacking. This paper fills the gap by proposing a scalable defence-in-depth cybersecurity architecture for the charging infrastructure and a demand response scheme for smart EV charging. The feasibility of the system is demonstrated by implementation and testing on a real vehicle.

  • Joint Generation and Demand-side Management for Shipboard Carbon Capture and Storage System

    Currently, lots of research have revealed the great potentials of the land- based carbon capture and storage (CCS) system on the control of the greenhouse gas (GHG) emission. But when it comes to the shipboard applications, the CCS integration becomes rather complicated since very limited operating conditions onboard, especially for the shortage of power supply. Nowadays, the all- electric ship (AES), which uses electricity to meet both the propulsion and service loads, has become a trend for future ship designing due to higher efficiency and flexibility, as well as providing a better platform for CCS integration and paving a new way for maritime GHG emission control. To address the power shortage issue led by the CCS integration, this paper first incorporates the demand-side management on the propulsion load and a corresponding joint generation and demand-side management model is proposed. The mathematical model is formulated as a bi-level optimization after certain constraint decomposition and solved by the column and constraint generation algorithm. Extensive simulations demonstrate that, the proposed method is able to relieve the power shortage issue of shipboard CCS, and the corresponding carbon capture level increases from 86% to 93%.



Standards related to Demand-side Management

Back to Top

No standards are currently tagged "Demand-side Management"


Jobs related to Demand-side Management

Back to Top