A demand response management system which may be implemented with demand response logic. The system may be used by utilities, independent system operators, intermediaries and others to manage operations of demand response programs relative to customers, clients, participants, and users of outputs fr
A demand response management system which may be implemented with demand response logic. The system may be used by utilities, independent system operators, intermediaries and others to manage operations of demand response programs relative to customers, clients, participants, and users of outputs from the utilities, independent system operators, and the like. Demand response logic of the demand response management system may provide demand signal propagation and generation from demand response events.
대표청구항▼
1. A demand response management system comprising: a computer;an input connected to the computer for providing at least one demand response (DR) event;a first customizer that modifies, as needed, one or more schedules of the DR event to fit a schedule of a client;a second customizer that modifies, a
1. A demand response management system comprising: a computer;an input connected to the computer for providing at least one demand response (DR) event;a first customizer that modifies, as needed, one or more schedules of the DR event to fit a schedule of a client;a second customizer that modifies, as desired or required by the client, information about the DR event;a translator that translates, as desired or required by the client, information of the DR event into to another form; andan output connected from the computer for providing one or more DR signals to a client; andwherein:the computer comprises the first and second customizers, and the translator;a DR signal comprises information, if any, about the one or more customized schedules of the DR event, customized information about the DR event, and/or translated information about the DR event into another form;wherein the one or more schedules of the DR event are customized according to participation rules of the client; andthe information about the DR event is translated according to preferences and/or translation rules of the client. 2. The system of claim 1, wherein the computer comprises DR logic which provides an operational basis for the first and second customizers, and the translator. 3. The system of claim 1, wherein information about a DR event is customized according to one or more variables. 4. The system of claim 3, wherein the one or more variables comprise an item or items selected from a group consisting of bids, sheds, prices, demands, and usage. 5. The system of claim 1, further comprising a table of rules for customizing a schedule of the DR event for the client, for customizing information of the DR event for the client, and for translating information of the DR event to a form appropriate for the client. 6. The system of claim 5, wherein: the rules are in a form of Boolean equations; andif all the conditions of a rule are true, then a predetermined operation is effected. 7. A mechanism for demand response management comprising: a computer having demand resource (DR) logic;a source of one or more DR events, connected to the computer; anda DR resource of a customer, connected to the computer; andwherein:the DR logic generates a DR signal with information associated with a DR event from the source;the DR logic transforms information associated with the DR event into a specific form for automation equipment of the DR resource for easier consumption by the customer of the information associated with the DR event;information associated with the DR event is translated into a finite set of levels;the levels are translated by the DR logic into load control commands;wherein the one or more schedules of the DR event are customized according to participation rules of the client; andthe information about the DR event is translated according to preferences and/or translation rules of the client. 8. The mechanism of claim 7, wherein the finite set of levels comprises normal, moderate and high. 9. The mechanism of claim 7, wherein: the information associated with the DR event is customized according to one or more variables; andthe one or more variables comprise an item or items selected from a group consisting of bids, schedules, sheds, prices, demands, and usage. 10. The mechanism of claim 7, wherein: a schedule of the DR event is customized for the customer; andthe price in the DR signal is customized for the customer. 11. The mechanism of claim 10, wherein the schedule of the DR event is customized according to participation rules of the customer. 12. The mechanism of claim 10, further comprising: a table of rules for customizing the schedule of the DR event for the customer, for customizing the price in the DR signal for the customer, or for customizing information associated with the DR event for the customer; andwherein:the rules are in a form of Boolean equations; andif all the conditions of a rule are true, then a predetermined operation for customizing is effected. 13. The mechanism of claim 7, wherein feedback can be received from the customer to the computer for further customizing of information associated with the DR event or the schedule of the DR event as needed or requested by the customer. 14. The mechanism of claim 7, further comprising a utility/independent service operator connected to the computer.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (82)
Lindholm, John Erik; Coon, Brett; Moy, Simon S., Across-thread out-of-order instruction dispatch in a multithreaded microprocessor.
Castelli, Vittorio; Hamilton, II, Rick A.; O'Connell, Brian M.; Pickover, Clifford A.; Walker, Keith R., Adaptive computing responsive to environmental conditions.
King, Martin T.; Grover, Dale L.; Kushler, Clifford A.; Stafford-Fraser, James Q., Adding information or functionality to a rendered document via association with an electronic counterpart.
Gelvin, David C.; Girod, Lewis D.; Kaiser, William J.; Merrill, William M.; Newberg, Fredric; Pottie, Gregory J.; Sipos, Anton I.; Vardhan, Sandeep, Apparatus for internetworked wireless integrated network sensors (WINS).
Jakobik Bogdan,CAX ; Betts Malcolm,CAX ; Barsetti Sarto,CAX ; Martin David Wright,CAX ; Liu Xinyi,CAX ; Gibbon Mark Acton,GBX, Architectural arrangement for bandwidth management in large central offices.
Choudhury Gagan Lal ; Leung Kin K. ; Whitt Ward, Efficiently providing multiple grades of service with protection against overloads in shared resources.
Schmitz William D. (Indianapolis IN) Turpin Richard H. (Indianapolis IN) Dashiell Robert A. (Indianapolis IN) Hadley Chris L. (Indianapolis IN), Energy management system.
Ciscon, Larry; Reynolds, Steven; Yeager, F. Scott, Globally accessible computer network-based broadband communication system with user-controllable quality of information delivery and flow priority.
Aubin, Raymond; Betts, Malcolm; Shew, Stephen, Method and apparatus for assigning and allocating network resources to packet-based virtual private networks.
Benya, James R.; Snook, Joel W.; Page, Erik R.; Siminovitch, Michael; Papamichael, Konstantinos; Aumann, Margaret, Method and apparatus for using power-line phase-cut signaling to change energy usage.
Beitel Bradley J. (Woodside CA) Gordon Robert D. (Sunnyvale CA) Hao Ming C. (Los Altos Hills CA) Kauffman Steven V. (San Jose CA) Obermarck Ronald L. (Redwood City CA) Sherman Arthur M. (Morgan Hill , Method for sharing common values implicitly among communicating generative objects.
Gifford James K. ; Begur Sridhar ; Lewis Adrian ; Spencer Donald J. ; Kilbourn Thomas E. ; Gochnauer Daniel B., Multiple parallel digital data stream channel controller architecture.
Hammond, Brad T.; Redmond, Daniel J.; Collemer, Jeffrey B.; Giaquinto, Todd J.; L'Heureux, Diane M., Power supply event notification system for sending an electronic notification to multiple destinations.
Cmar Gregory (379 Namant Rd. Namant MA 01908), Process for identifying patterns of electric energy effects of proposed changes, and implementing such changes in the fa.
Bohrer,Philip J.; Merten,Gregory J.; Schnell,Robert J.; Atlass,Michael B., Profile based method for deriving a temperature setpoint using a 'delta' based on cross-indexing a received price-point level signal.
Bohrer, Philip J.; Merten, Gregory J.; Schnell, Robert J.; Atlass, Michael B., Profile based method for deriving a temperature setpoint using a `delta` based on cross-indexing a received price-point level signal.
Elliason Kurt L. (Plymouth MN) Schnell Robert J. (Plymouth MN), Responding to pricing signals from a power supplier using mixed add/shed and profile setback delta schemes.
Verfuerth, Neal R.; Potts, Michael J.; Wang, Jun, System and method for reducing peak and off-peak electricity demand by monitoring, controlling and metering high intensity fluorescent lighting in a facility.
Hedrick, Marc H.; Fraser, John K.; Schulzki, Michael J.; Byrnes, Bobby; Carlson, Grace; Schreiber, Ronda; Wulur, Isabella, Systems and methods for isolating and using clinically safe adipose derived regenerative cells.
Reis James J. (La Palma CA) Luk Anthony L. (Rancho Palos Verdes CA) Lucero Antonio B. (Anaheim CA) Garber David D. (Cypress CA), Target acquisition and tracking system.
Stanbury Evan J. (Lakemba AUX) Watkins Gregory D. (Coogee AUX) Naish Peter J. (Epping AUX) Bellis Graeme J. (Cronulla AUX) Hansford Alan E. (Kings Langley AUX), Telemetry terminal.
Siddaramanna, Lokesh T.; Chandrashekar, Harsha N.; Hobart, Gary J.; Peterson, Thomas G., Thermostat with fixed segment display having both fixed segment icons and a variable text display capacity.
Koch, Edward; McCurnin, David J.; Rourke, Seth; Dalsin, Nicholas, Predicting responses of resources to demand response signals and having comfortable demand responses.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.