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Francisco Bellas
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2020 – today
- 2024
- [c103]Abraham Prieto, Alejandro Romero, Francisco Bellas:
Advancing Robotics Education: Integrating Large Language Models for Natural Language Programming in VET. IDEAL (2) 2024: 517-528 - 2023
- [j31]Francisco Bellas, Sara Guerreiro-Santalla, Martin Naya, Richard J. Duro:
AI Curriculum for European High Schools: An Embedded Intelligence Approach. Int. J. Artif. Intell. Educ. 33(2): 399-426 (2023) - [j30]Francisco Bellas, Armando Sousa:
Editorial: Computational intelligence advances in educational robotics. Frontiers Robotics AI 10 (2023) - [j29]Alejandro Romero, Blaz Meden, Francisco Bellas, Richard J. Duro:
Using perceptual classes to dream policies in open-ended learning robotics. Integr. Comput. Aided Eng. 30(3): 205-222 (2023) - [j28]Alejandro Romero, Francisco Bellas, Richard J. Duro:
A Perspective on Lifelong Open-Ended Learning Autonomy for Robotics through Cognitive Architectures. Sensors 23(3): 1611 (2023) - [j27]Martín Naya-Varela, Sara Guerreiro-Santalla, Tamara Baamonde, Francisco Bellas:
Robobo SmartCity: An Autonomous Driving Model for Computational Intelligence Learning Through Educational Robotics. IEEE Trans. Learn. Technol. 16(4): 543-559 (2023) - [c102]Sara Guerreiro-Santalla, Helen Crompton, Francisco Bellas:
RoboboITS: A Simulation-Based Tutoring System to Support AI Education Through Robotics. AIED (Posters/Late Breaking Results/...) 2023: 396-402 - [c101]Abraham Prieto, Sara Guerreiro-Santalla, Francisco Bellas:
AIM@VET: Tackling Equality on Employment Opportunities Through a Formal and Open Curriculum About AI. CISIS-ICEUTE 2023: 228-237 - [c100]Sara Guerreiro-Santalla, Dalila Durães, Helen Crompton, Paulo Novais, Francisco Bellas:
Simulation-Based Adaptive Interface for Personalized Learning of AI Fundamentals in Secondary School. EPIA (1) 2023: 3-15 - [c99]Alejandro Romero, Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Towards Efficient Knowledge Reuse for Open-ended Learning in Real Robots through Motivation. IJCNN 2023: 1-7 - [c98]Cristina Renda, Abraham Prieto, Francisco Bellas:
Teaching Reinforcement Learning Fundamentals in Vocational Education and Training with RoboboSim. ROBOT (2) 2023: 526-538 - [i1]Dara Cassidy, Yann-Aël Le Borgne, Francisco Bellas, Riina Vuorikari, Elise Rondin, Madhumalti Sharma, Jessica Niewint-Gori, Johanna Gröpler, Anne Gilleran, Lidija Kralj:
Use Scenarios & Practical Examples of AI Use in Education. CoRR abs/2309.12320 (2023) - 2022
- [c97]Sara Guerreiro-Santalla, Alma Mallo, Tamara Baamonde, Francisco Bellas:
Smartphone-Based Game Development to Introduce K12 Students in Applied Artificial Intelligence. AAAI 2022: 12758-12765 - [c96]Alejandro Romero, Justus H. Piater, Francisco Bellas, Richard J. Duro:
ANN-based Representation Learning in a Lifelong Open-ended Learning Cognitive Architecture. IJCNN 2022: 1-8 - [c95]Alejandro Romero, Blaz Meden, Francisco Bellas, Richard J. Duro:
Autonomous Knowledge Representation for Efficient Skill Learning in Cognitive Robots. IWINAC (1) 2022: 253-263 - [c94]Daniel Vidal-Soroa, Pedro Furelos, Francisco Bellas, José Antonio Becerra:
An Approach to 3D Object Detection in Real-Time for Cognitive Robotics Experiments. ROBOT (1) 2022: 283-294 - [c93]Sara Guerreiro-Santalla, Francisco Bellas, Alma Mallo:
Introducing High School Students in Natural Interaction Through the Robobo Educational Robot. ROBOT (1) 2022: 500-512 - 2021
- [j26]José Antonio Becerra, Alejandro Romero, Francisco Bellas, Richard J. Duro:
Motivational engine and long-term memory coupling within a cognitive architecture for lifelong open-ended learning. Neurocomputing 452: 341-354 (2021) - [c92]Sara Guerreiro-Santalla, Francisco Bellas, Oscar Fontenla-Romero:
The School Path Guide: A Practical Introduction to Representation and Reasoning in AI for High School Students. AIED (2) 2021: 88-92 - [c91]Alejandro Romero, Francisco Bellas, Richard J. Duro:
An Autonomous Drive Balancing Strategy for the Design of Purpose in Open-ended Learning Robots. AAMAS 2021: 1631-1633 - [c90]Oscar Fontenla-Romero, Francisco Bellas, Noelia Sánchez-Maroño, José Antonio Becerra:
Learning by Doing in Higher Education: An Experience to Increase Self-learning and Motivation in First Courses. CISIS-ICEUTE 2021: 336-345 - [c89]Alejandro Romero, Francisco Bellas, Richard J. Duro:
Open-Ended Learning of Reactive Knowledge in Cognitive Robotics Based on Neuroevolution. HAIS 2021: 65-76 - [c88]Alejandro Romero, Francisco Bellas, Richard J. Duro:
Exploring the Effect of Dynamic Drive Balancing in Open-ended Learning Robots. IJCNN 2021: 1-8 - 2020
- [j25]Alejandro Romero, Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Motivation as a tool for designing lifelong learning robots. Integr. Comput. Aided Eng. 27(4): 353-372 (2020) - [c87]Blaz Meden, Abraham Prieto, Peter Peer, Francisco Bellas:
First Steps Towards State Representation Learning for Cognitive Robotics. HAIS 2020: 499-510 - [c86]Alejandro Romero, Francisco Bellas, Abraham Prieto, Richard J. Duro:
Developmental Learning of Value Functions in a Motivational System for Cognitive Robotics. IJCNN 2020: 1-8
2010 – 2019
- 2019
- [j24]Abraham Prieto, Alejandro Romero, Francisco Bellas, Rodrigo Salgado, Richard J. Duro:
Introducing separable utility regions in a motivational engine for cognitive developmental robotics. Integr. Comput. Aided Eng. 26(1): 3-20 (2019) - [j23]Richard J. Duro, José Antonio Becerra, Juan Monroy, Francisco Bellas:
Perceptual Generalization and Context in a Network Memory Inspired Long-Term Memory for Artificial Cognition. Int. J. Neural Syst. 29(6): 1850053:1-1850053:26 (2019) - [j22]Alejandro Romero, Abraham Prieto, Francisco Bellas, Richard J. Duro:
Simplifying the creation and management of utility models in continuous domains for cognitive robotics. Neurocomputing 353: 106-118 (2019) - [c85]Alejandro Romero, José Antonio Becerra, Francisco Bellas, Richard J. Duro:
Modulation Based Transfer Learning of Motivational Cues in Developmental Robotics. IJCNN 2019: 1-8 - [c84]Alejandro Romero, Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Bootstrapping Autonomous Skill Learning in the MDB Cognitive Architecture. IWINAC (1) 2019: 120-129 - [c83]Ariel Rodríguez-Jiménez, José Antonio Becerra Permuy, Francisco Bellas-Bouza, Esteban Arias-Méndez:
Deep Learning application to learn models in Cognitive Robotics. IWOBI 2019: 15-20 - [c82]Francisco Bellas, Alma Mallo, Martin Naya, Daniel Souto, Álvaro Deibe, Abraham Prieto, Richard J. Duro:
STEAM Approach to Autonomous Robotics Curriculum for High School Using the Robobo Robot. RiE 2019: 77-89 - [c81]Alejandro Romero, Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Producing Parameterized Value Functions Through Modulation for Cognitive Developmental Robots. ROBOT (2) 2019: 250-262 - [c80]Luis F. Llamas, Alejandro Paz-Lopez, Abraham Prieto, Felix Orjales, Francisco Bellas:
Artificial Intelligence Teaching Through Embedded Systems: A Smartphone-Based Robot Approach. ROBOT (1) 2019: 515-527 - 2018
- [c79]Alejandro Romero, Francisco Bellas, Abraham Prieto, Richard J. Duro:
A Re-description Based Developmental Approach to the Generation of Value Functions for Cognitive Robots. HAIS 2018: 671-683 - [c78]Alejandro Romero, Francisco Bellas, Abraham Prieto, Richard J. Duro:
Utility Model Re-description within a Motivational System for Cognitive Robotics. IROS 2018: 2324-2329 - [c77]José Antonio Becerra, Richard J. Duro, Juan Monroy, Francisco Bellas:
A Dreaming Approach to Perceptual Class Delimitation Within the DREAM Architecture. IWOBI 2018: 1-6 - 2017
- [c76]Pedro Trueba, Abraham Prieto, Francisco Bellas:
Embodied evolution versus cooperative coevolution in multi-robot optimization: a practical comparison. GECCO (Companion) 2017: 79-80 - [c75]Martin Naya, Gervasio Varela, Luis Llamas, Moises Bautista, Juan Carlos Becerra, Francisco Bellas, Abraham Prieto, Álvaro Deibe, Richard J. Duro:
A versatile robotic platform for educational interaction. IDAACS 2017: 138-144 - [c74]Rodrigo Salgado, Abraham Prieto, Francisco Bellas, Richard J. Duro:
Motivational Engine for Cognitive Robotics in Non-static Tasks. IWINAC (1) 2017: 32-42 - [c73]Francisco Bellas, Martin Naya, Gervasio Varela, Luis Llamas, Abraham Prieto, Juan Carlos Becerra, Moises Bautista, Andrés Faiña, Richard J. Duro:
The Robobo Project: Bringing Educational Robotics Closer to Real-World Applications. RiE 2017: 226-237 - [c72]Francisco Bellas, Martin Naya, Gervasio Varela, Luis Llamas, Moises Bautista, Abraham Prieto, Richard J. Duro:
Robobo: The Next Generation of Educational Robot. ROBOT (2) 2017: 359-369 - 2016
- [j21]Abraham Prieto, Francisco Bellas, Pedro Trueba, Richard J. Duro:
Real-time optimization of dynamic problems through distributed Embodied Evolution. Integr. Comput. Aided Eng. 23(3): 237-253 (2016) - [j20]Pilar Caamaño, Rodrigo Salgado, Francisco Bellas, Richard J. Duro:
Introducing Synaptic Delays in the NEAT Algorithm to Improve Modelling in Cognitive Robotics. Neural Process. Lett. 43(2): 479-504 (2016) - [c71]Richard J. Duro, Francisco Bellas, Abraham Prieto, Pedro Trueba:
How Complexity Pervades Specialization in Canonical Embodied Evolution. ALIFE 2016: 123-130 - [c70]Rodrigo Salgado, Abraham Prieto, Pilar Caamaño, Francisco Bellas, Richard J. Duro:
MotivEn: Motivational engine with sub-goal identification for autonomous robots. CEC 2016: 4887-4894 - [c69]Rodrigo Salgado, Abraham Prieto, Francisco Bellas, Luis Calvo-Varela, Richard J. Duro:
Neuroevolutionary Motivational Engine for Autonomous Robots. GECCO (Companion) 2016: 1065-1068 - [c68]Rodrigo Salgado, Abraham Prieto, Pilar Caamaño, Francisco Bellas, Richard J. Duro:
Motivational Engine with Sub-goal Identification in Neuroevolution Based Cognitive Robotics. HAIS 2016: 659-670 - [c67]Rodrigo Salgado, Abraham Prieto, Francisco Bellas, Richard J. Duro:
Improving extrinsically motivated developmental robots through intrinsic motivations. ICDL-EPIROB 2016: 154-155 - 2015
- [j19]Pilar Caamaño, Francisco Bellas, Richard J. Duro:
τ-NEAT: Initial experiments in precise temporal processing through neuroevolution. Neurocomputing 150: 43-49 (2015) - [j18]Abraham Prieto, Francisco Bellas, Pedro Trueba, Richard J. Duro:
Towards the standardization of distributed Embodied Evolution. Inf. Sci. 312: 55-77 (2015) - [j17]Andrés Faiña, Francisco Bellas, Felix Orjales, Daniel Souto, Richard J. Duro:
An evolution friendly modular architecture to produce feasible robots. Robotics Auton. Syst. 63: 195-205 (2015) - [c66]Rodrigo Salgado, Francisco Bellas, Richard J. Duro:
Autonomous Learning of Procedural Knowledge in an Evolutionary Cognitive Architecture for Robots. EvoApplications 2015: 807-818 - [c65]Pedro Trueba, Abraham Prieto, Francisco Bellas, Richard J. Duro:
Embodied Evolution for Collective Indoor Surveillance and Location. GECCO (Companion) 2015: 1241-1242 - [c64]Becerra Priego, Francisco Bellas, Richard J. Duro:
ECAS-II: A hybrid algorithm for the construction of multidimensional image segmenters. IJCNN 2015: 1-8 - [c63]Pedro Trueba, Abraham Prieto, Francisco Bellas, Richard J. Duro:
Applying the canonical distributed Embodied Evolution algorithm in a collective indoor navigation task. IJCNN 2015: 1-8 - [c62]Becerra Priego, Francisco Bellas, Richard J. Duro:
Evolving Cellular Automata to Segment Hyperspectral Images Using Low Dimensional Images for Training. IWINAC (2) 2015: 117-126 - [c61]Pedro Trueba, Abraham Prieto, Francisco Bellas, Richard J. Duro:
Embodied Evolution for Collective Indoor Surveillance and Location. IWINAC (2) 2015: 138-147 - [c60]Rodrigo Salgado, Francisco Bellas, Richard J. Duro:
Studying the Coupled Learning of Procedural and Declarative Knowledge in Cognitive Robotics. Living Machines 2015: 304-315 - 2014
- [j16]Francisco Bellas, Pilar Caamaño, Andrés Faiña, Richard J. Duro:
Dynamic learning in cognitive robotics through a procedural long term memory. Evol. Syst. 5(1): 49-63 (2014) - [c59]Bruno Fernandez, Juan Monroy, Francisco Bellas, Richard J. Duro:
Visual Behavior Definition for 3D Crowd Animation through Neuro-evolution. HAIS 2014: 354-364 - [c58]Pilar Caamaño, Francisco Bellas, Richard J. Duro:
Augmenting the NEAT algorithm to improve its temporal processing capabilities. IJCNN 2014: 1467-1473 - [c57]Richard J. Duro, Francisco Bellas, José Antonio Becerra, Rodrigo Salgado:
A Role for Sleep in Artificial Cognition through Deferred Restructuring of Experience in Autonomous Machines. SAB 2014: 1-10 - 2013
- [j15]Pilar Caamaño, Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Evolutionary algorithm characterization in real parameter optimization problems. Appl. Soft Comput. 13(4): 1902-1921 (2013) - [j14]Andrés Faiña, Francisco Bellas, Fernando López-Peña, Richard J. Duro:
EDHMoR: Evolutionary designer of heterogeneous modular robots. Eng. Appl. Artif. Intell. 26(10): 2408-2423 (2013) - [j13]Blanca Maria Priego Torres, Daniel Souto, Francisco Bellas, Richard J. Duro:
Hyperspectral image segmentation through evolved cellular automata. Pattern Recognit. Lett. 34(14): 1648-1658 (2013) - [j12]Pedro Trueba, Abraham Prieto, Francisco Bellas, Pilar Caamaño, Richard J. Duro:
Specialization analysis of embodied evolution for robotic collective tasks. Robotics Auton. Syst. 61(7): 682-693 (2013) - [c56]Pedro Trueba, Abraham Prieto, Francisco Bellas:
Distributed embodied evolution for collective tasks: parametric analysis of a canonical algorithm. GECCO (Companion) 2013: 37-38 - [c55]Blanca Maria Priego Torres, Daniel Souto, Francisco Bellas, Richard J. Duro:
Addressing the training problem in cellular automata based hyperspectral image segmentation. IDAACS 2013: 382-387 - [c54]Andrés Faiña, Felix Orjales, Daniel Souto, Francisco Bellas, Richard J. Duro:
Designing a modular robotic architecture for industrial applications. IDAACS 2013: 874-879 - [c53]Pilar Caamaño, Andrés Faiña, Francisco Bellas, Richard J. Duro:
Multiscale Dynamic Learning in Cognitive Robotics. IWINAC (2) 2013: 56-65 - [c52]Andrés Faiña, Felix Orjales, Francisco Bellas, Richard J. Duro:
Implicit and Robust Evaluation Methodology for the Evolutionary Design of Feasible Robots. IWINAC (2) 2013: 102-111 - 2012
- [j11]Abraham Prieto, Francisco Bellas, Pilar Caamaño, Richard J. Duro:
Automatic neural-based pattern classification of motion behaviors in autonomous robots. Neurocomputing 75(1): 146-155 (2012) - [c51]Pilar Caamaño, Francisco Bellas, José Antonio Becerra, Vicente Díaz Casás, Richard J. Duro:
Experimental analysis of the relevance of fitness landscape topographical characterization. IEEE Congress on Evolutionary Computation 2012: 1-8 - [c50]Rodrigo Salgado, Francisco Bellas, Pilar Caamaño, Borja Santos-Diez, Richard J. Duro:
A procedural Long Term Memory for cognitive robotics. EAIS 2012: 57-62 - [c49]Pedro Trueba, Abraham Prieto, Francisco Bellas, Pilar Caamaño, Richard J. Duro:
Self-organization and Specialization in Multiagent Systems through Open-Ended Natural Evolution. EvoApplications 2012: 93-102 - [c48]Becerra Priego, Francisco Bellas, Daniel Souto, F. López-Peña, Richard J. Duro:
Evolving cellular automata for detecting edges in hyperspectral images. FUZZ-IEEE 2012: 1-6 - [c47]Blanca Maria Priego Torres, Richard J. Duro, Francisco Bellas, Daniel Souto:
Neural based Rotation and Scale Independent Detection of Targets in a Hyperspectral Waterway Monitoring System. ICPRAM (1) 2012: 419-425 - [c46]Blanca Maria Priego Torres, Daniel Souto, Francisco Bellas, Richard J. Duro:
Unsupervised Segmentation of Hyperspectral Images through Evolved Cellular Automata. KES 2012: 2160-2169 - 2011
- [j10]Richard J. Duro, Francisco Bellas, Abraham Prieto, Alejandro Paz-Lopez:
Social learning for collaboration through ASiCo based neuroevolution. J. Intell. Fuzzy Syst. 22(2-3): 125-139 (2011) - [c45]Pilar Caamaño, José Antonio Becerra, Francisco Bellas, Richard J. Duro:
Are evolutionary algorithm competitions characterizing landscapes appropriately. GECCO (Companion) 2011: 695-702 - [c44]Pilar Caamaño, José Antonio Becerra, Francisco Bellas, Abraham Prieto, Richard J. Duro:
Evolutionary Procedure for the Progressive Design of Controllers for Collective Behaviors. HAIS (2) 2011: 471-478 - [c43]Blanca Maria Priego Torres, Daniel Souto, Francisco Bellas, Richard J. Duro, Fernando López-Peña:
Time in hyperspectral processing: A temporal based classification approach. IDAACS (1) 2011: 341-346 - [c42]Andrés Faiña, Francisco Bellas, Daniel Souto, Richard J. Duro:
Towards an Evolutionary Design of Modular Robots for Industry. IWINAC (1) 2011: 50-59 - [c41]Pedro Trueba, Abraham Prieto, Pilar Caamaño, Francisco Bellas, Richard J. Duro:
Task-Driven Species in Evolutionary Robotic Teams. IWINAC (1) 2011: 138-147 - 2010
- [j9]Richard J. Duro, Francisco Bellas, Pilar Caamaño, Gervasio Varela:
Automatic model decomposition and reuse in an evolutionary cognitive mechanism. Evol. Syst. 1(2): 129-141 (2010) - [j8]Abraham Prieto, José Antonio Becerra, Francisco Bellas, Richard J. Duro:
Open-ended evolution as a means to self-organize heterogeneous multi-robot systems in real time. Robotics Auton. Syst. 58(12): 1282-1291 (2010) - [j7]Francisco Bellas, Richard J. Duro, Andrés Faiña, Daniel Souto:
Multilevel Darwinist Brain (MDB): Artificial Evolution in a Cognitive Architecture for Real Robots. IEEE Trans. Auton. Ment. Dev. 2(4): 340-354 (2010) - [j6]Abraham Prieto, Francisco Bellas, Richard J. Duro, Fernando López-Peña:
An Adaptive Approach for the Progressive Integration of Spatial and Spectral Features When Training Ground-Based Hyperspectral Imaging Classifiers. IEEE Trans. Instrum. Meas. 59(8): 2083-2093 (2010) - [c40]Abraham Prieto, Francisco Bellas, Pilar Caamaño, Richard J. Duro:
Automatic Behavior Pattern Classification for Social Robots. HAIS (1) 2010: 88-95 - [c39]Pilar Caamaño, Abraham Prieto, José Antonio Becerra, Francisco Bellas, Richard J. Duro:
Real-Valued Multimodal Fitness Landscape Characterization for Evolution. ICONIP (1) 2010: 567-574 - [c38]Francisco Bellas, Andrés Faiña, Gervasio Varela, Richard J. Duro:
A cognitive developmental robotics architecture for lifelong learning by evolution in real robots. IJCNN 2010: 1-8 - [c37]Abraham Prieto, Francisco Bellas, José Antonio Becerra, Becerra Priego, Richard J. Duro:
Self-organizing Robot Teams Using Asynchronous Situated Co-evolution. SAB 2010: 565-574
2000 – 2009
- 2009
- [j5]Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Using promoters and functional introns in genetic algorithms for neuroevolutionary learning in non-stationary problems. Neurocomputing 72(10-12): 2134-2145 (2009) - [c36]Abraham Prieto, Pilar Caamaño, Francisco Bellas, Richard J. Duro:
Population dynamics analysis in an agent-based artificial life system for engineering optimization problems. IEEE Congress on Evolutionary Computation 2009: 2724-2731 - [c35]Abraham Prieto, Francisco Bellas, Pilar Caamaño, Richard J. Duro:
Solving a Heterogeneous Fleet Vehicle Routing Problem with Time Windows through the Asynchronous Situated Coevolution Algorithm. ECAL (2) 2009: 200-207 - [c34]Vicente Díaz Casás, Francisco Bellas, Fernando López-Peña, Richard J. Duro:
Hydrodynamic Design of Control Surfaces for Ships Using a MOEA with Neuronal Correction. HAIS 2009: 96-103 - [c33]Abraham Prieto, Francisco Bellas, Richard J. Duro:
Adaptively Coordinating Heterogeneous Robot Teams through Asynchronous Situated Coevolution. ICONIP (2) 2009: 75-82 - [c32]Paula García, Pilar Caamaño, Francisco Bellas, Richard J. Duro:
A Behavior Based Architecture with Auction-Based Task Assignment for Multi-robot Industrial Applications. IWINAC (2) 2009: 372-381 - [c31]Juan Monroy, Francisco Bellas, Richard J. Duro, Rubén López, Antonio Puentes, Jacques Isaac:
Automatic Speech-Lip Synchronization System for 3D Animation. KES (1) 2009: 122-129 - [c30]Abraham Prieto, Francisco Bellas, Andrés Faiña, Richard J. Duro:
Asynchronous Situated Coevolution and Embryonic Reproduction as a Means to Autonomously Coordinate Robot Teams. KES (1) 2009: 351-359 - 2008
- [j4]Juan Monroy, José Antonio Becerra, Francisco Bellas, Richard J. Duro:
Improving Performance in HPC Centers by Modeling Users Through an Evolutionary Virtual Interface. IEEE Trans. Instrum. Meas. 57(9): 1885-1893 (2008) - [c29]Pilar Caamaño, Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Application domain study of evolutionary algorithms in optimization problems. GECCO 2008: 495-502 - [c28]Abraham Prieto, Francisco Bellas, Pilar Caamaño, Richard J. Duro:
A Complex Systems Based Tool for Collective Robot Behavior Emergence and Analysis. HAIS 2008: 633-640 - [c27]Pilar Caamaño, José Antonio Becerra, Francisco Bellas, Richard J. Duro:
Using Spiking Neural Networks for the Generation of Coordinated Action Sequences in Robots. ICONIP (1) 2008: 1013-1020 - [c26]Abraham Prieto, Francisco Bellas, Richard J. Duro, Fernando López-Peña:
An Incremental Learning Algorithm for Optimizing High-Dimensional ANN-Based Classification Systems. ICONIP (1) 2008: 1037-1044 - [c25]Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Internal and External Memory in Neuroevolution for Learning in Non-stationary Problems. SAB 2008: 62-72 - 2007
- [c24]Andrés Faiña, Francisco Bellas, Richard J. Duro:
Initial development of habla (hardware abstraction layer) - a middleware software tool. ICINCO-RA (2) 2007: 53-58 - [c23]Abraham Prieto, Francisco Bellas, Richard J. Duro, Fernando López-Peña:
Auto Adjustable ANN-Based Classification System for Optimal High Dimensional Data Analysis. IWANN 2007: 588-596 - [c22]Pilar Caamaño, Abraham Prieto, José Antonio Becerra, Richard J. Duro, Francisco Bellas:
Evolutionary Tool for the Incremental Design of Controllers for Collective Behaviors. IWINAC (1) 2007: 587-596 - [c21]Pilar Caamaño, José Antonio Becerra, Richard J. Duro, Francisco Bellas:
Incremental Evolution of Stigmergy-Based Multi Robot Controllers Through Utility Functions. KES (2) 2007: 1187-1195 - 2006
- [j3]Fernando López-Peña, Francisco Bellas, Richard J. Duro, Maria Luisa Sanchez Simon:
Using adaptive artificial neural networks for reconstructing irregularly sampled laser Doppler velocimetry signals. IEEE Trans. Instrum. Meas. 55(3): 916-922 (2006) - [c20]Juan Monroy, José Antonio Becerra, Francisco Bellas, Richard J. Duro:
Parallel Job Scheduling through Evolutionary Based Cognitive Strategies. IEEE Congress on Evolutionary Computation 2006: 3274-3280 - [c19]Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Construction of a memory management system in an on-line learning mechanism. ESANN 2006: 95-100 - [c18]Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Some experimental results with a two level memory management system in the multilevel darwinist brain. ESANN 2006: 113-118 - [c17]Abraham Prieto, Francisco Bellas, Fernando López-Peña, Richard J. Duro:
Integration of Spatial Information in Hyperspectral Imaging for Real Time Quality Control in an Andalusite Processing Line. KES (3) 2006: 292-299 - [c16]Francisco Bellas, Andrés Faiña, Abraham Prieto, Richard J. Duro:
Adaptive Learning Application of the MDB Evolutionary Cognitive Architecture in Physical Agents. SAB 2006: 434-445 - [c15]Abraham Prieto, Francisco Bellas, Richard J. Duro, Fernando López-Peña:
An Adaptive Visual Gesture Based Interface for Human Machine Interaction in Intelligent Workspaces. VECIMS 2006: 43-48 - [c14]Juan Monroy, José Antonio Becerra, Francisco Bellas, Richard J. Duro:
Intelligent Virtual Interface for Improving Performance in HPC Centers by Modelling Users and their Satisfaction. VECIMS 2006: 69-74 - 2005
- [c13]Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Evolution of Cooperating ANNs Through Functional Phenotypic Affinity. IWANN 2005: 333-340 - [c12]José Antonio Becerra, Francisco Bellas, José Santos Reyes, Richard J. Duro:
Complex Behaviours Through Modulation in Autonomous Robot Control. IWANN 2005: 717-724 - [c11]Abraham Prieto, Francisco Bellas, Richard J. Duro, Fernando López-Peña:
A Comparison of Gaussian Based ANNs for the Classification of Multidimensional Hyperspectral Signals. IWANN 2005: 829-836 - [c10]Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Induced Behavior in a Real Agent Using the Multilevel Darwinist Brain. IWINAC (2) 2005: 425-434 - [c9]Juan Monroy, José Antonio Becerra, Francisco Bellas, Richard J. Duro, Fernando López-Peña:
A Profiling Based Intelligent Resource Allocation System. KES (1) 2005: 840-846 - [c8]Francisco Bellas, Richard J. Duro, Fernando López-Peña:
Blind Signal Separation Through Cooperating ANNs. KES (1) 2005: 847-853 - 2004
- [j2]Francisco Bellas, Richard J. Duro:
Some thoughts on the use of sampled fitness functions for the multilevel Darwinist brain. Inf. Sci. 161(3-4): 159-179 (2004) - [c7]Francisco Bellas, Richard J. Duro:
Multilevel Darwinist Brain in Robots - Initial Implementation. ICINCO (2) 2004: 25-32 - 2003
- [c6]Francisco Bellas, Richard J. Duro:
Introducing Long Term Memory in an ANN Based Multilevel Darwinist Brain. IWANN (1) 2003: 590-597 - 2002
- [c5]Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Sampled Fitness Functions in Complex Problems (Part 1): Influence of Short Term Memory Size. JCIS 2002: 631-634 - [c4]Francisco Bellas, José Antonio Becerra, Richard J. Duro:
Sampled Fitness Functions in Complex Problems (Part II): Critical Points and Constructing Short Term Memories. JCIS 2002: 635-638 - 2001
- [j1]José Santos Reyes, Richard J. Duro, José Antonio Becerra, José Luis Crespo, Francisco Bellas:
Considerations in the application of evolution to the generation of robot controllers. Inf. Sci. 133(3-4): 127-148 (2001) - [c3]Francisco Bellas, Adolfo Lamas, Richard J. Duro:
Adaptive Behavior through a Darwinist Machine. ECAL 2001: 86-89 - 2000
- [c2]Richard J. Duro, José Santos Reyes, José Antonio Becerra, Francisco Bellas, José Luis Crespo:
Using higher order synapses and nodes to improve sensing capabilities of mobile robots. ESANN 2000: 81-88 - [c1]Francisco Bellas, José Antonio Becerra, José Santos Reyes, Richard J. Duro:
Applying Synaptic Delays for Virtual Sensing and Actuation in Mobile Robots. IJCNN (6) 2000: 144-152
Coauthor Index
aka: José Antonio Becerra Permuy
aka: F. López-Peña
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Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from , , and to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
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last updated on 2024-12-23 20:30 CET by the dblp team
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