Alekman, S. (1994). Significance tests can determine steady-state with confidence. Control for the Process Industries, Putman Publications, Chicago, IL, 3(11), 62.
Amara, A.B. (2017). Gas lift: past and future. In Society of Petroleum Engineers - SPE Middle East Artificial Lift Conference and Exhibition 2016, 420-425.
Amrit, R., Rawlings, J.B., and Angeli, D. (2011). Economic optimization using mpc with a terminal cost. Annual Reviews in Control, 35(2), 178-186.
Bhat, S.A. and Saraf, D.N. (2004). Steady-state identification, gross error detection, and data reconciliation for industrial process units. Industrial and Engineering Chemistry Research, 43(15), 4323-4336.
Camara, M.M., Quelhas, A.D., and Pinto, J.C. (2016). Performance evaluation of real industrial rto systems. Processes, 4(4), 44.
Cao, S. and Rhinehart, R.R. (1997). Critical values for a steady-state identifier. Journal of Process Control, 7(2), 149-152.
Chen, C.Y. and Joseph, B. (1987). On-line optimization using a two-phase approach: An application study. Industrial and Engineering Chemistry Research, 26(9), 1924-1930.
Friedman, Y.Z. (1995). What's wrong with unit closed loop optimization? Hydrocarbon Processing, 74(10), 107-116.
Kelly, J.D. and Hedengren, J.D. (2013). A steady-state detection (ssd) algorithm to detect non-stationary drifts in processes. Journal of Process Control, 23(3), 326-331.
Krishnamoorthy, D., Foss, B., and Skogestad, S. (2018). Steady-state real-time optimization using transient measurements. Computers and Chemical Engineering, 115, 34-45.
Matias, J. and Le Roux, G.A.C. (2018). Real-time optimization with persistent parameter adaptation using online parameter estimation. Journal of Process Control, 68, 195-204.
Matias, J. and Le Roux, G.A.C. (2020). Plantwide optimization via real-time optimization with persistent parameter adaptation. Journal of Process Control, 92, 62-78.
Menezes, D.R.C. (2016). Aplicacao e avaliacao de desempenho de um sistema de otimizacao em tempo real. Masters thesis, Universidade de Sao Paulo.