TY - CONF
T1 - Mechanism design for self-reporting baselines in Demand Response
T2 - 2016 American Control Conference (ACC)
Y1 - 2016/07//
SP - 1446
EP - 1451
A1 - Muthirayan, Deepan
A1 - Kalathil, Dileep
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - RM11-006
AB - Incentive-based Demand Response (DR) is a widely used tool to reduce the demand for electricity at times when the supply is scarce and expensive. In such DR programs, participating consumers are paid for reducing their energy consumption from an established baseline. This baseline is often based on the average historical consumption of a peer group on days that are similar to the upcoming DR event. In essence, baselines are estimates of the counter-factual consumption against which the aggregator measures load reductions and determines payments to the consumers in DR programs. Consumers have an incentive to inflate their baseline to increase the payments they receive. There are celebrated cases of consumers gaming this baseline to derive economic benefit. Several researchers have questioned the fairness of these baseline schemes used in current practice. We propose a novel DR mechanism to address gaming and fairness concerns. In our mechanism, each consumer forecasts their baseline consumption and reports their marginal utility to the aggregator who manages the DR program. Deviations in consumption from the self-reported baseline are penalized, providing an incentive for best-effort truthful estimation of baselines. The aggregator selects a set of consumers for each DR event to meet a load reduction requirement and are paid according to the observed reductions from their reported baseline. We show that truthful reporting of baseline and marginal utility is both incentive compatible and individually rational for every consumer. This establishes the correct baseline and the aggregator is able to meet any random load reduction requirement reliably.
JF - 2016 American Control Conference (ACC)
PB - IEEE
CY - Boston, MA, USA
DO - 10.1109/ACC.2016.7525120
ER -
TY - CONF
T1 - Model and data analysis of two-settlement electricity market with virtual bidding
T2 - 2016 IEEE 55th Conference on Decision and Control (CDC)
Y1 - 2016/12//
SP - 6645
EP - 6650
A1 - Tang, Wenyuan
A1 - Ram Rajagopal
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - RM11-006
AB - Systematic nonzero spreads, defined as the differences between day-ahead and real-time prices, are routinely observed in the wholesale electricity markets. Virtual bidding is a financial mechanism which aims to reduce the magnitude of spreads by allowing market participants to arbitrage on the spread. We follow a data-driven approach to develop a two-settlement market model, and consider a game-theoretic setting with virtual bidders as strategic players. We interpret the spread as a measure of the average forecast accuracy of the market and all the virtual bidders. The main results convey the implication that introducing more qualified virtual bidders into the market help the convergence of the spread.
JF - 2016 IEEE 55th Conference on Decision and Control (CDC)
PB - IEEE
CY - Las Vegas, NV, USA
DO - 10.1109/CDC.2016.7799292
ER -
TY - CONF
T1 - Equilibria in two-stage electricity markets
T2 - IEEE Annual Conference on Decision and Control
Y1 - 2015/12//
A1 - Gupta, Abhishek
A1 - Jain, Rahul
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - RM11-006
AB - Most electricity markets have multiple stages, which include one or more forward markets and the spot market. We consider two stages - a day-ahead market and a real-time market. We study equilibrium outcomes in such markets assuming demand to be deterministic. We show via counterexamples that in such two-stage electricity markets, (i) a Nash equilibrium may not exist, or (ii) there may be multiple inefficient Nash equilibria. We also give two sufficient conditions - a "congestion-free" condition and a "monopoly-free" condition - under which a subgame perfect Nash equilibrium exists and yields efficient outcome.
JF - IEEE Annual Conference on Decision and Control
PB - IEEE
CY - Osaka, Japan
UR - http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=7403136&refinements%3D4229014380%26filter%3DAND%28p_IS_Number%3A7402066%29
DO - 10.1109/CDC.2015.7403136
ER -
TY - CONF
T1 - Low-dimensional models in spatio-temporal wind speed forecasting
T2 - 2015 American Control Conference (ACC)
Y1 - 2015/07//
SP - 4485
EP - 4490
A1 - Sanandaji, Borhan M.
A1 - Tascikaraoglu, Akin
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - RM11-006
AB - Integrating wind power into the grid is challenging because of its random nature. Integration is facilitated with accurate short-term forecasts of wind power. The paper presents a spatio-temporal wind speed forecasting algorithm that incorporates the time series data of a target station and data of surrounding stations. Inspired by Compressive Sensing (CS) and structured-sparse recovery algorithms, we claim that there usually exists an intrinsic low-dimensional structure governing a large collection of stations that should be exploited. We cast the forecasting problem as recovery of a block-sparse signal x from a set of linear equations b = Ax for which we propose novel structure-sparse recovery algorithms. Results of a case study in the east coast show that the proposed Compressive Spatio-Temporal Wind Speed Forecasting (CSTWSF) algorithm significantly improves the short-term forecasts compared to a set of widely-used benchmark models.
JF - 2015 American Control Conference (ACC)
PB - IEEE
CY - Chicago, IL, USA
DO - 10.1109/ACC.2015.7172035
ER -
TY - CONF
T1 - The real value of load flexibility — congestion free dispatch
T2 - 2015 American Control Conference (ACC)
Y1 - 2015/07//
SP - 5002
EP - 5009
A1 - Mather, Jonathan
A1 - Enrique Baeyens
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - reliability and markets
KW - RM11-006
AB - In this paper we present a new value proposition for load flexibility. This value is derived through enabling a congestion free dispatch, which brings economic benefits to the market participants (loads and generators), subject to certain conditions on the network. If participant classes are considered as collectives, then no class of participants is economically disadvantaged. We show that load flexibility increases the opportunity for congestion free dispatch. The economic implications of this new paradigm are studied using a simple two bus example.
JF - 2015 American Control Conference (ACC)
PB - IEEE
CY - Chicago, IL, USA
DO - 10.1109/ACC.2015.7172118
ER -
TY - CONF
T1 - Duration-differentiated energy services with a continuum of loads
T2 - 2014 IEEE 53rd Annual Conference on Decision and Control (CDC)
Y1 - 2014/12//
SP - 1714
EP - 1719
A1 - Ashutosh Nayyar
A1 - Negrete-Pincetic, Matias
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - CERTS
KW - RM11-006
AB - The problem of balancing supply and demand in the power grid becomes more challenging with the integration of uncertain and intermittent renewable supply. The usual scheme of supply following load may not be appropriate for large penetration levels of renewable supply. The reason is the increased level of reserves required to maintain a reliable grid, which affects both operational costs (reserves are expensive) and the environmental benefits of renewables (on-line reserves might increase CO2 emissions). An alternative paradigm is to use demand side flexibility for power balance. In this paper, we focus on one particular way of exploiting the demand side flexibility. We consider a group of loads with each load requiring a constant power level for a specified duration within an operational period. The loads are differentiated in terms of the duration of service they require. The flexibility of a load resides in the fact that the power delivery may occur at any subset of the total operational period. We consider the problems of scheduling, control and market implementation for a continuum of these loads. If the loads and the available power are known in advance, we find conditions under which the available power can service all the loads, and we describe an algorithm that constructs an appropriate allocation. In the event the available supply is inadequate, we characterize the minimum amount of power that must be purchased to service the loads. In addition, we investigate the implementation of a forward market in which consumers can purchase duration differentiated services. We first characterize the social welfare maximization problem and then show the existence of an efficient competitive equilibrium in this forward market.
JF - 2014 IEEE 53rd Annual Conference on Decision and Control (CDC)
PB - IEEE
CY - Los Angeles, CA, USA
SN - 978-1-4799-7746-8
DO - 10.1109/CDC.2014.7039646
ER -
TY - CONF
T1 - Aggregate flexibility of a collection of loads
T2 - 2013 IEEE 52nd Annual Conference on Decision and Control (CDC)
Y1 - 2013/12//
SP - 5600
EP - 5607
A1 - Ashutosh Nayyar
A1 - Taylor, Josh
A1 - Anand Subramanian
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - load modeling
KW - load regulation
KW - reliability and markets
KW - RM11-006
AB - We consider a collection of flexible loads. Each load is modeled as requiring energy E on a service interval [a; d] at a maximum rate of m. The collection is serviced by available generation g(t) which must be allocated causally to the various tasks. Our objective is to characterize the aggregate flexibility offered by this collection. In the absence of rate limits, we offer necessary and sufficient conditions for the generation g(t) to service the loads under causal scheduling without surplus or deficit. Our results show that the flexibility in the collection can be modeled as electricity storage. The capacity Q(t) and maximum charge/discharge rate m(t) of the equivalent storage can be computed in real time. Ex ante, these parameters must be estimated based on arrival/departure statistics and charging needs. Thus, the collection is equivalent a stochastic time-varying electricity storage. We next consider the case with charging rate limits. Here, we offer bounds on the capacity and rate of the equivalent electricity storage. We offer synthetic examples to illustrate our results.
JF - 2013 IEEE 52nd Annual Conference on Decision and Control (CDC)
PB - IEEE
CY - Firenze
SN - 978-1-4673-5714-2
DO - 10.1109/CDC.2013.6760772
ER -
TY - JOUR
T1 - Real-Time Scheduling of Distributed Resources
JF - IEEE Transactions on Smart Grid
Y1 - 2013/12//
SP - 2122
EP - 2130
A1 - Anand Subramanian
A1 - Manuel J. Garcia
A1 - Duncan S. Callaway
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - CERTS
KW - distributed energy resources (der)
KW - load modeling
KW - optimization
KW - reliability and markets
KW - renewables integration
KW - RM11-006
AB - We develop and analyze real-time scheduling algorithms for coordinated aggregation of deferrable loads and storage. These distributed resources offer flexibility that can enable the integration of renewable generation by reducing reserve costs. We present three scheduling policies: earliest deadline first (EDF), least laxity first (LLF), and receding horizon control (RHC). We offer a novel cost metric for RHC-based scheduling that explicitly accounts for reserve costs. We study the performance of these algorithms in the metrics of reserve energy and capacity through simulation studies. We conclude that the benefits of coordinated aggregation can be realized from modest levels of both deferrable load participation and flexibility.
VL - 4
IS - 4
JO - IEEE Trans. Smart Grid
DO - 10.1109/TSG.2013.2262508
ER -
TY - JOUR
T1 - Risk-limiting dispatch for integrating renewable power
JF - International Journal of Electrical Power & Energy Systems
Y1 - 2013/01//
SP - 615
EP - 628
A1 - Ram Rajagopal
A1 - Eilyan Bitar
A1 - Pravin Varaiya
A1 - Felix Wu
KW - CERTS
KW - reliability and markets
KW - renewables integration
KW - reserve markets
KW - RM11-006
AB - Risk-limiting dispatch or RLD is formulated as the optimal solution to a multi-stage, stochastic decision problem. At each stage, the system operator (SO) purchases forward energy and reserve capacity over a block or interval of time. The blocks get shorter as operations approach real time. Each decision is based on the most recent available information, including demand, renewable power, weather forecasts. The accumulated energy blocks must at each time t match the net demand D(t) = L(t) − W(t). The load L and renewable power W are both random processes. The expected cost of a dispatch is the sum of the costs of the energy and reserve capacity and the penalty or risk from mismatch between net demand and energy supply. The paper derives computable ‘closed-form’ formulas for RLD. Numerical examples demonstrate that the minimum expected cost can be substantially reduced by recognizing that risk from current decisions can be mitigated by future decisions; by additional intra-day energy and reserve capacity markets; and by better forecasts. These reductions are quantified and can be used to explore changes in the SO’s decision structure, forecasting technology, and renewable penetration.
VL - 44
IS - 1
JO - International Journal of Electrical Power & Energy Systems
DO - 10.1016/j.ijepes.2012.07.048
ER -
TY - CONF
T1 - A statistically robust payment sharing mechanism for an aggregate of renewable energy producers
T2 - 2013 European Control Conference
Y1 - 2013/07//
A1 - Ashutosh Nayyar
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - electricity markets
KW - reliability and markets
KW - renewables
KW - RM11-006
AB - Variability of supply is a fundamental difficulty associated with renewable resources in the electricity market. One way of mitigating this difficulty is to aggregate a diverse collection of resources in order to exploit the negative correlations that may exist among them. We consider an aggregation scheme where individual renewable energy producers offer day-ahead contracts to an aggregate manager which in turn participates in a two stage electricity market. The net payment received by the aggregate manager from the market has to be fairly distributed among the participants in the aggregate. Since the actual power supplied by the aggregate is random, the net payment it receives is also random. The problem of sharing this random payment is complicated by the fact that different participants may have different statistical models for the payment because they have different statistical models for their and other producers' net generation. We propose a simple payment sharing mechanism that is independent of the statistical models of the participants. We show that our payment sharing mechanism ensures that individual producers are better off in the aggregate than on their own. Further, under certain conditions, aggregation provides the social benefit of increasing the amount of renewable energy available in the day-ahead market.
JF - 2013 European Control Conference
PB - IEEE
CY - Zurich, Switzerland
UR - http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6669463&tag=1
ER -
TY - CONF
T1 - Optimal power and reserve capacity procurement policies with deferrable loads
T2 - 2012 IEEE 51st Annual Conference on Decision and Control (CDC)
Y1 - 2012/12//
SP - 450
EP - 456
A1 - Anand Subramanian
A1 - Taylor, J. A.
A1 - Eilyan Bitar
A1 - Duncan S. Callaway
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - load management
KW - load modeling
KW - power system economics
KW - reliability and markets
KW - renewables
KW - RM11-006
AB - Deferrable loads can be used to mitigate the variability associated with renewable generation. In this paper, we study the impact of deferrable loads on forward market operations. Specifically, we compute cost-minimizing ex-ante bulk power and reserve capacity procurement policies in the cases of fully deferrable and non-deferrable loads. For non-deferrable loads, we analytically express this policy on a partition of procurement prices. We also formulate a threshold policy for deferrable load scheduling in the face of uncertain supply, that minimizes grid operating costs.
JF - 2012 IEEE 51st Annual Conference on Decision and Control (CDC)
PB - IEEE
CY - Maui, HI, USA
SN - 978-1-4673-2065-8
DO - 10.1109/CDC.2012.6426102
ER -
TY - CONF
T1 - Real-time scheduling of deferrable electric loads
T2 - 2012 American Control Conference (ACC)
Y1 - 2012/06//
SP - 3643
EP - 3650
A1 - Anand Subramanian
A1 - Manuel J. Garcia
A1 - Alejandro D. Dominguez-Garcia
A1 - Duncan S. Callaway
A1 - Kameshwar Poolla
A1 - Pravin Varaiya
KW - distributed energy resources (der)
KW - PEVs
KW - renewables integration
KW - RM11-006
KW - Thermostatically controlled loads
AB - We consider a collection of distributed energy resources [DERs] such as electric vehicles and thermostatically controlled loads. These resources are flexible: they require delivery of a certain total energy over a specified service interval. This flexibility can facilitate the integration of renewable generation by absorbing variability, and reducing the reserve capacity and reserve energy requirements. We first model the energy needs of these resources as tasks, parameterized by arrival time, departure time, energy requirement, and maximum allowable servicing power. We consider the problem of servicing these resources by allocating available power using real-time scheduling policies. The available generation consists of a mix of renewable energy [from utility-scale wind-farms or distributed rooftop photovoltaics], and load-following reserves. Reserve capacity is purchased in advance, but reserve energy use must be scheduled in real-time to meet the energy requirements of the resources. We show that there does not exist a causal optimal scheduling policy that respects servicing power constraints. We then present three heuristic causal scheduling policies: Earliest Deadline First [EDF], Least Laxity First [LLF], and Receding Horizon Control [RHC]. We show that EDF is optimal in the absence of power constraints. We explore, via simulation studies, the performance of these three scheduling policies in the metrics of required reserve energy and reserve capacity.
JF - 2012 American Control Conference (ACC)
PB - IEEE
CY - Montreal, QC
SN - 978-1-4577-1095-7
DO - 10.1109/ACC.2012.6315670
ER -
TY - CONF
T1 - Risk limiting dispatch of wind power
T2 - 2012 American Control Conference (ACC)
Y1 - 2012/06//
SP - 4417
EP - 4422
A1 - Ram Rajagopal
A1 - Eilyan Bitar
A1 - Felix Wu
A1 - Pravin Varaiya
KW - CERTS
KW - reliability and markets
KW - reserve generation
KW - risk-limiting dispatch
KW - RM11-006
KW - wind power
AB - Integrating wind and solar power into the grid requires dispatching various types of reserve generation to compensate for the randomness of renewable power. The dispatch is usually determined by a system operator (SO) or an aggregator who `firms' variable energy by bundling it with conventional power. The optimal dispatch is formulated as the solution to a stochastic control problem and shown to have a closed form that can be quickly computed. Different objectives and risk constraints can be included in the formulation and trade-offs can be evaluated. In particular one can quantify the influence of sequential forecasts on the total integration cost and the choice of dispatched generation. When the forecast error is Gaussian, the optimal dispatch policy can be precomputed.
JF - 2012 American Control Conference (ACC)
PB - IEEE
CY - Montreal, QC
SN - 978-1-4577-1095-7
DO - 10.1109/ACC.2012.6315239
ER -
TY - CONF
T1 - Selling Random Wind
T2 - 2012 45th Hawaii International Conference on System Sciences (HICSS)
Y1 - 2012/01//
SP - 1931
EP - 1937
A1 - Eilyan Bitar
A1 - Kameshwar Poolla
A1 - Pramod P. Khargonekar
A1 - Ram Rajagopal
A1 - Pravin Varaiya
A1 - Felix Wu
KW - CERTS
KW - electricity markets
KW - reliability
KW - reliability and markets
KW - renewables integration
KW - RM11-006
AB - Wind power is inherently random, but we are used to 100 percent reliable or 'firm' electricity, so reserves are used to convert random wind power into firm electricity. The cost of these reserves is frequently a hidden subsidy to wind power producers. We propose an alternative: package random wind power into electricity with different levels of reliability and sell them at different prices. This variable-reliability market is more efficient than the current firm-electricity market, and may require lower subsidy. However, we have to think of electricity differently. We also explore interesting differences between the variable-reliability and related real-time markets.
JF - 2012 45th Hawaii International Conference on System Sciences (HICSS)
PB - IEEE
CY - Maui, HI, USA
SN - 978-1-4577-1925-7
DO - 10.1109/HICSS.2012.523
ER -