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Dr. Mandoye Ndoye
Tuskegee University

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Research Keywords & Expertise

0 Energy
1 Decision Analytics
0 Intelligent transportation
1 Signal processing
0 Sensor and its applications

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Journal article
Published: 09 March 2021 in Energies
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There has been an effort for a few decades to keep energy consumption at a minimum or at least within a low-level range. This effort is more meaningful and complex by including a customer’s satisfaction variable to ensure that customers can achieve the best quality of life that could be derived from how energy is used by different devices. We use the concept of Shapley Value from cooperative game theory to solve the multi-objective optimization problem (MOO) to responsibly fulfill user’s satisfaction by maximizing satisfaction while minimizing the power consumption, with energy constrains since highly limited resources scenarios are studied. The novel method uses the concept of a quantifiable user satisfaction, along the concepts of power satisfaction (PS) and energy satisfaction (ES). The model is being validated by representing a single house (with a small PV system) that is connected to the utility grid. The main objectives are to (i) present the innovative energy satisfaction model based on responsible wellbeing, (ii) demonstrate its implementation using a Shapley-value-based algorithm, and (iii) include the impact of a solar photovoltaic (PV) system in the energy satisfaction model. The proposed technique determines in which hours the energy should be allocated to maximize the ES for each scenario, and then it is compared to cases in which devices are usually operated. Through the proposed technique, the energy consumption was reduced 75% and the ES increased 40% under the energy constraints.

ACS Style

Samira Ortiz; Mandoye Ndoye; Marcel Castro-Sitiriche. Satisfaction-Based Energy Allocation with Energy Constraint Applying Cooperative Game Theory. Energies 2021, 14, 1485 .

AMA Style

Samira Ortiz, Mandoye Ndoye, Marcel Castro-Sitiriche. Satisfaction-Based Energy Allocation with Energy Constraint Applying Cooperative Game Theory. Energies. 2021; 14 (5):1485.

Chicago/Turabian Style

Samira Ortiz; Mandoye Ndoye; Marcel Castro-Sitiriche. 2021. "Satisfaction-Based Energy Allocation with Energy Constraint Applying Cooperative Game Theory." Energies 14, no. 5: 1485.

Journal article
Published: 18 April 2018 in Energies
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The increasing integration of large solar PV and wind farms into the power grid has fueled, over the past two decades, growing demands for high-power, high-voltage, utility-scale inverters. Multilevel inverters have emerged as the industry’s choice for megawatt-range inverters because of their reduced voltage stress, capability for generating an almost-sinusoidal voltage, built-in redundancy and other benefits. This paper presents a novel switched-source multilevel inverter (SS MLI) architecture. This new inverter shows superior capabilities when compared to existing topologies. It has reduced voltage stress on the semiconductor, uses fewer switches (i.e., reduced size/weight/cost) and exhibits increased efficiency. The proposed SS MLI is comprised of two voltage sources ( V1,V2 ) and six switches. It is capable of generating five-level output voltage in symmetric mode (i.e., V1=V2 ) and seven-level output voltage in asymmetric mode (i.e., V1≠V2 ). We present simulations results (using MATLAB®/Simulink®) for five- and seven-level output voltages, and they strongly support the validity of the proposed inverter. These positive results are further supported experimentally using a laboratory prototype.

ACS Style

Kennedy Adinbo Aganah; Cristopher Luciano; Mandoye Ndoye; Gregory Murphy. New Switched-Dual-Source Multilevel Inverter for Symmetrical and Asymmetrical Operation. Energies 2018, 11, 984 .

AMA Style

Kennedy Adinbo Aganah, Cristopher Luciano, Mandoye Ndoye, Gregory Murphy. New Switched-Dual-Source Multilevel Inverter for Symmetrical and Asymmetrical Operation. Energies. 2018; 11 (4):984.

Chicago/Turabian Style

Kennedy Adinbo Aganah; Cristopher Luciano; Mandoye Ndoye; Gregory Murphy. 2018. "New Switched-Dual-Source Multilevel Inverter for Symmetrical and Asymmetrical Operation." Energies 11, no. 4: 984.