Tyrone L. Vincent scite author profile

Abstract-It is widely accepted that Thermostatically Controlled Loads (TCLs) can be used to provide regulation reserve to the grid. We first argue that the aggregate flexibility offered by a collection of TCLs can be succinctly modeled as a stochastic battery with dissipation. We next characterize the power limits and energy capacity of this battery model in terms of TCL parameters and random exogenous variables such as ambient temperature and user-specified set-points. We then describe a direct load control architecture for regulation service provision. Here, we use a priority-stack-based control framework to select which TCLs to control at any time. The control objective is for the aggregate power deviation from baseline to track an automatic generation control signal supplied by the system operator. Simulation studies suggest the practical promise of our methods.

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Game Theory as a Design Tool

Vincent

1983

138

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Game theory encompasses not only the familiar concept of scalar optimization, but the less known concepts of multicriteria optimization and multiple optimizers as well. This paper examines the role of game theory in the engineering design process. This is done by demonstrating how game theory as a design tool applies beyond scalar optimization to the multicriteria optimization problem. The multicriteria optimization task is examined not only from the perspective of a single designer but from the perspective of team design as well. In the latter case the design problem has been assigned to several designers each responsible for one aspect of the total design.

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Exact topology identification of large-scale interconnected dynamical systems from compressive observations

Sanandaji

Vincent

Wakin

2011

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Analysis of head pose accuracy in augmented reality

Hoff

Vincent

2000

IEEE Trans. Visual. Comput. Graphics

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ÐA method is developed to analyze the accuracy of the relative head-to-object position and orientation (pose) in augmented reality systems with head-mounted displays. From probabilistic estimates of the errors in optical tracking sensors, the uncertainty in head-to-object pose can be computed in the form of a covariance matrix. The positional uncertainty can be visualized as a 3D ellipsoid. One useful benefit of having an explicit representation of uncertainty is that we can fuse sensor data from a combination of fixed and head-mounted sensors in order to improve the overall registration accuracy. The method was applied to the analysis of an experimental augmented reality system, incorporating an optical see-through head-mounted display, a head-mounted CCD camera, and a fixed optical tracking sensor. The uncertainty of the pose of a movable object with respect to the head-mounted display was analyzed. By using both fixed and head mounted sensors, we produced a pose estimate that is significantly more accurate than that produced by either sensor acting alone.

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Ramping Rate Flexibility of Residential HVAC Loads

Sanandaji

Vincent

Poolla

2016

IEEE Trans. Sustain. Energy

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Tyrone L. Vincent

Aggregate Flexibility of Thermostatically Controlled Loads

Game Theory as a Design Tool

Exact topology identification of large-scale interconnected dynamical systems from compressive observations

Analysis of head pose accuracy in augmented reality

Ramping Rate Flexibility of Residential HVAC Loads

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