1. Ma, Z., Jørgensen, B.N.: Energy flexibility of the commercial greenhouse growers: the potential and benefits of participating in the electricity market. In: 2018 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT) (2018)
2. Howard, D.A., Ma, Z., Jørgensen, B.N.: Digital twin framework for energy efficient greenhouse industry 4.0. In: Novais, P., Vercelli, G., Larriba-Pey, J.L., Herrera, F., Chamoso, P. (eds.) Ambient Intelligence – Software and Applications: 11th International Symposium on Ambient Intelligence, pp. 293–297. Springer International Publishing, Cham (2021). https://doi.org/10.1007/978-3-030-58356-9_34
3. Howard, D., et al.: Optimization of energy flexibility in cooling process for brewery fermentation with multi-agent simulation. In: 6th IEEJ International Workshop on Sensing, Actuation, Motion Control, and Optimization. Shibaura Institute of Technology, Tokyo, Japan (2020)
4. Christensen, K., et al.: Agent-based modeling for optimizing CO2 reduction in commercial greenhouse production with the implicit demand response. In: 6th IEEJ International Workshop on Sensing, Actuation, Motion Control, and Optimization (SAMCON2020). IEEJ Digital Library: Tokyo, Japan, p. 6 (2020)
5. Chowdhury, B.H., Rahman, S.: A review of recent advances in economic dispatch. IEEE Trans. Power Syst. 5(4), 1248–1259 (1990)