Follow
Gabriela P. Henning
Gabriela P. Henning
Principal CONICET Researcher at INTEC (CONICET, UNL), Professor at FIQ-UNL
Verified email at intec.unl.edu.ar - Homepage
Title
Cited by
Cited by
Year
An MILP continuous-time approach to short-term scheduling of resource-constrained multistage flowshop batch facilities
CA Méndez, GP Henning, J Cerdá
Computers & Chemical Engineering 25 (4-6), 701-711, 2001
2332001
A mixed-integer linear programming model for short-term scheduling of single-stage multiproduct batch plants with parallel lines
J Cerdá, GP Henning, IE Grossmann
Industrial & Engineering Chemistry Research 36 (5), 1695-1707, 1997
1821997
Optimal scheduling of batch plants satisfying multiple product orders with different due-dates
CA Méndez, GP Henning, J Cerdá
Computers & Chemical Engineering 24 (9-10), 2223-2245, 2000
1742000
MODEL. LA. A modeling language for process engineering—I. The formal framework
G Stephanopoulos, G Henning, H Leone
Computers & chemical engineering 14 (8), 813-846, 1990
1711990
PRoduct ONTOlogy: Defining product-related concepts for logistics planning activities
DM Giménez, M Vegetti, HP Leone, GP Henning
Computers in Industry 59 (2-3), 231-241, 2008
902008
Reactive scheduling framework based on domain knowledge and constraint programming
JM Novas, GP Henning
Computers & Chemical Engineering 34 (12), 2129-2148, 2010
802010
PRONTO: An ontology for comprehensive and consistent representation of product information
M Vegetti, H Leone, G Henning
Engineering Applications of Artificial Intelligence 24 (8), 1305-1327, 2011
772011
Knowledge-based predictive and reactive scheduling in industrial environments
GP Henning, J Cerdá
Computers & Chemical Engineering 24 (9-10), 2315-2338, 2000
692000
Integrated scheduling of resource-constrained flexible manufacturing systems using constraint programming
JM Novas, GP Henning
Expert Systems with Applications 41 (5), 2286-2299, 2014
662014
A constraint programming model for the scheduling of flexible manufacturing systems with machine and tool limitations
LJ Zeballos, OD Quiroga, GP Henning
Engineering Applications of Artificial Intelligence 23 (2), 229-248, 2010
632010
MODEL. LA—a modeling language for process engineering: II. Multifaceted modeling of processing systems
L Stephanopoulos, Henning
Computers and Chemical Engineering 14 (8), 847-869, 1990
591990
A model for capturing and representing the engineering design process
S Gonnet, G Henning, H Leone
Expert Systems with Applications 33 (4), 881-902, 2007
582007
A novel network-based continuous-time representation for process scheduling: Part I. Main concepts and mathematical formulation
DM Giménez, GP Henning, CT Maravelias
Computers & Chemical Engineering 33 (9), 1511-1528, 2009
522009
Product ontology: definition of an ontology for the complex product modelling domain
M Vegetti, GP Henning, HP Leone
Proceedings of the Mercosur Congress on Process Systems Engineering, 2005
462005
Production scheduling in the process industries: current trends, emerging challenges and opportunities
GP Henning
Computer Aided Chemical Engineering 27, 23-28, 2009
452009
A CP formulation for scheduling multiproduct multistage batch plants
LJ Zeballos, JM Novas, GP Henning
Computers & Chemical Engineering 35 (12), 2973-2989, 2011
422011
Parametric sensitivity in fixed-bed catalytic reactors
GP Henning, GA Perez
Chemical engineering science 41 (1), 83-88, 1986
411986
A comprehensive constraint programming approach for the rolling horizon-based scheduling of automated wet-etch stations
JM Novas, GP Henning
Computers & chemical engineering 42, 189-205, 2012
312012
Modeling and understanding different types of process design activities
M Eggersmann, S Gonnet, GP Henning, C Krobb, HP Leone, ...
Latin American applied research 33 (2), 167-175, 2003
282003
A novel network-based continuous-time representation for process scheduling: Part II. General framework
DM Giménez, GP Henning, CT Maravelias
Computers & Chemical Engineering 33 (10), 1644-1660, 2009
262009
The system can't perform the operation now. Try again later.
Articles 1–20