Chao Sun scite author profile

Abstract-This paper studies a nonlinear predictive energy management strategy for a residential building with a rooftop photovoltaic (PV) system and second-life lithium-ion battery energy storage. A key novelty of this manuscript is closing the gap between building energy management formulations, advanced load forecasting techniques, and nonlinear battery/PV models. Additionally, we focus on the fundamental trade-off between lithium-ion battery aging and economic performance in energy management. The energy management problem is formulated as a model predictive controller (MPC). Simulation results demonstrate that the proposed control scheme achieves 96%-98% of the optimal performance given perfect forecasts over a long-term horizon. Moreover, the rate of battery capacity loss can be reduced by 25% with negligible losses in economic performance, through an appropriate cost function formulation.

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Optimal Eco-Driving Control of Connected and Autonomous Vehicles Through Signalized Intersections

Sun

Guanetti

Borrelli

et al. 2020

IEEE Internet Things J.

169

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Theoretical and Practical Solutions for High-Order Superdirectivity of Circular Sensor Arrays

Yang

et al. 2013

IEEE Trans. Ind. Electron.

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ARIMA-Based Road Gradient and Vehicle Velocity Prediction for Hybrid Electric Vehicle Energy Management

Guo

Sun

2019

IEEE Trans. Veh. Technol.

131

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Chao Sun

Investigating adaptive-ECMS with velocity forecast ability for hybrid electric vehicles

Nonlinear predictive energy management of residential buildings with photovoltaics & batteries

Optimal Eco-Driving Control of Connected and Autonomous Vehicles Through Signalized Intersections

Theoretical and Practical Solutions for High-Order Superdirectivity of Circular Sensor Arrays

ARIMA-Based Road Gradient and Vehicle Velocity Prediction for Hybrid Electric Vehicle Energy Management

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