2008 |
32 | | Angel Mora Bonilla,
Enrique Mérida Casermeiro,
Domingo López-Rodríguez,
Luis Fernando López Anguita:
Integration Of Moodle Quizzes.
e-Learning 2008: 45-52 |
2007 |
31 | EE | Enrique Mérida Casermeiro,
Domingo López-Rodríguez,
Juan Miguel Ortiz-de-Lazcano-Lobato:
Image Compression with Competitive Networks and Pre-fixed Prototypes.
AIAI 2007: 339-346 |
30 | EE | Domingo López-Rodríguez,
Enrique Mérida Casermeiro,
Juan Miguel Ortiz-de-Lazcano-Lobato,
Gloria Galán Marín:
K -Pages Graph Drawing with Multivalued Neural Networks.
ICANN (2) 2007: 816-825 |
29 | EE | Enrique Mérida Casermeiro,
Domingo López-Rodríguez,
Gloria Galán Marín,
Juan Miguel Ortiz-de-Lazcano-Lobato:
Improved Production of Competitive Learning Rules with an Additional Term for Vector Quantization.
ICANNGA (1) 2007: 461-469 |
28 | EE | Gloria Galán Marín,
Enrique Mérida Casermeiro,
Domingo López-Rodríguez,
Juan Miguel Ortiz-de-Lazcano-Lobato:
A Study into the Improvement of Binary Hopfield Networks for Map Coloring.
ICANNGA (2) 2007: 98-106 |
27 | EE | Domingo López-Rodríguez,
Enrique Mérida Casermeiro,
Juan Miguel Ortiz-de-Lazcano-Lobato,
Gloria Galán Marín:
Two Pages Graph Layout Via Recurrent Multivalued Neural Networks.
IWANN 2007: 194-202 |
26 | EE | Enrique Mérida Casermeiro,
Domingo López-Rodríguez,
Gloria Galán Marín,
Juan Miguel Ortiz-de-Lazcano-Lobato:
Theoretical Study on the Capacity of Associative Memory with Multiple Reference Points.
IWINAC (1) 2007: 292-302 |
25 | EE | Domingo López-Rodríguez,
Enrique Mérida Casermeiro,
Gloria Galán Marín,
Juan Miguel Ortiz-de-Lazcano-Lobato:
Stochastic Functional Annealing as Optimization Technique: Application to the Traveling Salesman Problem with Recurrent Networks.
KI 2007: 397-411 |
24 | EE | Gloria Galán Marín,
Enrique Mérida Casermeiro,
Domingo López-Rodríguez:
Improving Neural Networks for Mechanism Kinematic Chain Isomorphism Identification.
Neural Processing Letters 26(2): 133-143 (2007) |
2006 |
23 | | Ezequiel López-Rubio,
Juan Miguel Ortiz-de-Lazcano-Lobato,
Domingo López-Rodríguez,
Enrique Mérida Casermeiro,
María del Carmen Vargas-González:
Global-local learning strategies in probabilistic principal components analysis.
Artificial Intelligence and Soft Computing 2006: 46-51 |
22 | EE | Enrique Mérida Casermeiro,
Domingo López-Rodríguez,
Juan Miguel Ortiz-de-Lazcano-Lobato:
Enhanced maxcut clustering with multivalued neural networks and functional annealing.
ESANN 2006: 25-30 |
21 | EE | Ezequiel López-Rubio,
Juan Miguel Ortiz-de-Lazcano-Lobato,
Domingo López-Rodríguez,
Enrique Mérida Casermeiro,
María del Carmen Vargas-González:
Local Selection of Model Parameters in Probability Density Function Estimation.
ICANN (2) 2006: 292-301 |
20 | EE | Domingo López-Rodríguez,
Enrique Mérida Casermeiro,
Juan Miguel Ortiz-de-Lazcano-Lobato,
Ezequiel López-Rubio:
Image Compression by Vector Quantization with Recurrent Discrete Networks.
ICANN (2) 2006: 595-605 |
19 | EE | J. J. Saameño Rodríguez,
C. Guerrero García,
José Muñoz-Pérez,
Enrique Mérida Casermeiro:
A general model for the undesirable single facility location problem.
Oper. Res. Lett. 34(4): 427-436 (2006) |
2005 |
18 | EE | Enrique Mérida Casermeiro,
Domingo López-Rodríguez:
Hebbian Iterative Method for Unsupervised Clustering with Automatic Detection of the Number of Clusters with Discrete Recurrent Networks.
CAEPIA 2005: 241-250 |
17 | | Domingo López-Rodríguez,
Enrique Mérida Casermeiro,
Juan Miguel Ortiz-de-Lazcano-Lobato:
Hopfield Network as Associative Memory with Multiple Reference Points.
IEC (Prague) 2005: 62-67 |
16 | EE | Enrique Mérida Casermeiro,
Domingo López-Rodríguez:
Graph Partitioning via Recurrent Multivalued Neural Networks.
IWANN 2005: 1149-1156 |
15 | EE | Jesús Medina,
Enrique Mérida Casermeiro,
Manuel Ojeda-Aciego:
Interval-Valued Neural Multi-adjoint Logic Programs.
IWINAC (1) 2005: 518-527 |
2004 |
14 | EE | Jesús Medina,
Enrique Mérida Casermeiro,
Manuel Ojeda-Aciego:
Decomposing Ordinal Sums in Neural Multi-adjoint Logic Programs.
IBERAMIA 2004: 717-726 |
13 | EE | Jesús Medina,
Enrique Mérida Casermeiro,
Manuel Ojeda-Aciego:
A neural implementation of multi-adjoint logic programming.
J. Applied Logic 2(3): 301-324 (2004) |
2003 |
12 | EE | R. Benítez-Rochel,
José Muñoz-Pérez,
Enrique Mérida Casermeiro:
A Recurrent Multivalued Neural Network for Codebook Generation in Vector Quantization.
IWANN (1) 2003: 294-301 |
11 | EE | Enrique Mérida Casermeiro,
José Muñoz-Pérez,
R. Benítez-Rochel:
Neural Implementation of Dijkstra's Algorithm.
IWANN (1) 2003: 342-349 |
10 | EE | Enrique Mérida Casermeiro,
José Muñoz-Pérez,
Enrique Domínguez Merino:
An N-parallel Multivalued Network: Applications to the Travelling Salesman Problem.
IWANN (1) 2003: 406-413 |
9 | EE | Jesús Medina,
Enrique Mérida Casermeiro,
Manuel Ojeda-Aciego:
A Neural Approach to Extended Logic Programs.
IWANN (1) 2003: 654-661 |
8 | EE | Enrique Domínguez,
José Muñoz,
Enrique Mérida Casermeiro:
A Recurrent Neural Network Model for the p-hub Problem.
IWANN (2) 2003: 734-741 |
7 | EE | Gloria Galán Marín,
Enrique Mérida Casermeiro,
José Muñoz-Pérez:
Modelling competitive Hopfield networks for the maximum clique problem.
Computers & OR 30(4): 603-624 (2003) |
2002 |
6 | EE | Jesús Medina,
Enrique Mérida Casermeiro,
Manuel Ojeda-Aciego:
A Neural Approach to Abductive Multi-adjoint Reasoning.
AIMSA 2002: 213-222 |
5 | EE | Enrique Mérida Casermeiro,
José Muñoz-Pérez,
M. Angeles García-Bernal:
An Associative Multivalued Recurrent Network.
IBERAMIA 2002: 509-518 |
4 | EE | Jesús Medina,
Enrique Mérida Casermeiro,
Manuel Ojeda-Aciego:
Multi-adjoint Logic Programming: A Neural Net Approach.
ICLP 2002: 468 |
3 | EE | Enrique Mérida Casermeiro,
José Muñoz-Pérez:
MREM: An associative autonomous recurrent network.
Journal of Intelligent and Fuzzy Systems 12(3-4): 163-173 (2002) |
2001 |
2 | EE | Enrique Mérida Casermeiro,
José Muñoz,
Rafaela Benítez:
A Recurrent Multivalued Neural Network for the N-Queens Problem.
IWANN (1) 2001: 522-529 |
1 | | Enrique Mérida Casermeiro,
Gloria Galán Marín,
José Muñoz-Pérez:
An Efficient Multivalued Hopfield Network for the Traveling Salesman Problem.
Neural Processing Letters 14(3): 203-216 (2001) |