Optimal model-based deficit irrigation scheduling using AquaCrop: A simulation study with cotton, potato and tomato R Linker, I Ioslovich, G Sylaios, F Plauborg, A Battilani Agricultural Water Management 163, 236-243, 2016 | 158 | 2016 |
Optimal steady-state control for isolated traffic intersections J Haddad, B De Schutter, D Mahalel, I Ioslovich, PO Gutman IEEE Transactions on automatic control 55 (11), 2612-2617, 2010 | 70 | 2010 |
Hamilton–Jacobi–Bellman formalism for optimal climate control of greenhouse crop I Ioslovich, PO Gutman, R Linker Automatica 45 (5), 1227-1231, 2009 | 60 | 2009 |
A non-linear optimal greenhouse control problem solved by linear programming PO Gutman, PO Lindberg, I Ioslovich, I Seginer Journal of agricultural engineering research 55 (4), 335-351, 1993 | 57 | 1993 |
Sub-optimal CO2 enrichment of greenhouses I Ioslovich, I Seginer, PO Gutman, M Borshchevsky Journal of Agricultural Engineering Research 60 (2), 117-136, 1995 | 55 | 1995 |
Robust reduction of a class of large-scale linear programs I Ioslovich SIAM Journal on Optimization 12 (1), 262-282, 2001 | 45 | 2001 |
Optimal traffic control synthesis for an isolated intersection I Ioslovich, J Haddad, PO Gutman, D Mahalel Control Engineering Practice 19 (8), 900-911, 2011 | 43 | 2011 |
Improved strategy for a constant daily light integral in greenhouses I Seginer, LD Albright, I Ioslovich Biosystems engineering 93 (1), 69-80, 2006 | 43 | 2006 |
Optimal control strategy for greenhouse lettuce: incorporating supplemental lighting I Ioslovich Biosystems Engineering 103 (1), 57-67, 2009 | 40 | 2009 |
Optimal spacing and cultivation intensity for an industrialized crop production system I Seginer, I Ioslovich Agricultural Systems 62 (3), 143-157, 1999 | 40 | 1999 |
Seasonal optimization of the greenhouse environment for a simple two-stage crop growth model I Seginer, I Ioslovich Journal of agricultural engineering research 70 (2), 145-155, 1998 | 39 | 1998 |
Approximate seasonal optimization of the greenhouse environment for a multi-state-variable tomato model I Ioslovich, I Seginer Transactions of the ASAE 41 (4), 1139-1149, 1998 | 39 | 1998 |
Dominant parameter selection in the marginally identifiable case I Ioslovich, PO Gutman, I Seginer Mathematics and Computers in Simulation 65 (1-2), 127-136, 2004 | 36 | 2004 |
Optimal control of crop spacing in a plant factory I Ioslovich, PO Gutman Automatica 36 (11), 1665-1668, 2000 | 36 | 2000 |
SE—Structures and Environment: Acceptable Nitrate Concentration of Greenhouse Lettuce: Two Optimal Control Policies I Ioslovich, I Seginer Biosystems Engineering 83 (2), 199-215, 2002 | 35* | 2002 |
Assimilation of canopy cover and biomass measurements in the crop model AquaCrop R Linker, I Ioslovich Biosystems engineering 162, 57-66, 2017 | 34 | 2017 |
A model for the global optimization of water prices and usage for the case of spatially distributed sources and consumers I Ioslovich, PO Gutman Mathematics and Computers in Simulation 56 (4-5), 347-356, 2001 | 34 | 2001 |
A non‐linear optimal greenhouse control problem with heating and ventilation I Ioslovich, PO Gutman, I Seginer Optimal Control applications and methods 17 (3), 157-169, 1996 | 30 | 1996 |
Optimal control of solar sludge dryers I Seginer, I Ioslovich, M Bux Drying Technology 25 (2), 401-415, 2007 | 26 | 2007 |
Constrained optimal steady-state control for isolated traffic intersections J Haddad, D Mahalel, I Ioslovich, PO Gutman Control Theory and Technology 12, 84-94, 2014 | 25 | 2014 |