• Chapter of Book
  

  Asynchronous Spiking neural P systems with structural plasticity 

  Cabarle, Francis George C.; Adorna, Henry N.; Pérez Jiménez, Mario de Jesús (Springer, 2015)

  Spiking neural P (in short, SNP) systems are computing devices inspired by biological spiking neurons. In this work we ...

• Chapter of Book
  

  Implementing Enzymatic Numerical P Systems for AI Applications by Means of Graphic Processing Units 

  García Quismondo, Manuel; Macías Ramos, Luis Felipe; Pérez Jiménez, Mario de Jesús (Springer, 2013)

  A P system represents a distributed and parallel computing model in which basic data structures are, for instance, multisets ...

• Chapter of Book
  

  Infobiotics Workbench: A P Systems Based Tool for Systems and Synthetic Biology 

  Blakes, Jonathan; Twycross, Jamie; Konur, Savas; Romero Campero, Francisco José; Krasnogor, Natalio; Gheorghe, Marian (Springer, 2014)

  This chapter gives an overview of an integrated software suite, the Infobiotics Workbench, which is based on a novel ...

• Chapter of Book
  

  Evolution of the Flowering Pathways 

  Lucas Reina, Eva; Ortiz Marchena, M Isabel; Romero Campero, Francisco José; Calonje, Myriam; Romero, José M.; Valverde, Federico (Springer, 2016)

  Flowering plants are some of the most successful organisms on Earth, particularly those used in agriculture due to the ...

• Chapter of Book
  

  On the Velocity Update in Multi-Objective Particle Swarm Optimizers 

  Durillo, Juan J.; Nebro, Antonio J.; García Nieto, José Manuel; Alba, Enrique (Springer, 2010)

  Since its appearance, Particle Swarm Optimization (PSO) has become a very popular technique for solving optimization ...

• Chapter of Book
  

  Applications of Membrane Computing 

  Ciobanu, Gabriel; Paun, Gheorghe; Pérez Jiménez, Mario de Jesús (Springer, 2006)
• Chapter of Book
  

  Membrane System-Based Models for Specifying Dynamical Population Systems 

  Colomer Cugat, M. Ángels; García Quismondo, Manuel; Macías Ramos, Luis Felipe; Martínez del Amor, Miguel Ángel; Pérez Hurtado de Mendoza, Ignacio; Pérez Jiménez, Mario de Jesús; Riscos Núñez, Agustín; Valencia Cabrera, Luis (Springer, 2014)

  Population Dynamics P systems (PDP systems, in short) provide a new formal bio-inspired modelling framework, which has ...

• Chapter of Book
  

  Formal Verification of Programs in Molecular Models with Random Access Memory 

  Pérez Jiménez, Mario de Jesús; Sancho Caparrini, Fernando (Fénix Editorial, 2005)

  Formal verification of molecular programs is a first step towards their automatic processing by means of reasoning ...

• Chapter of Book
  

  Skeletonizing Digital Images with Cellular Automata 

  Díaz Pernil, Daniel; Peña Cantillana, Francisco; Gutiérrez Naranjo, Miguel Ángel (Springer, 2014)

  The skeletonization of an image consists of converting the initial image into a more compact representation. In general, ...

• Presentation
  

  Synthetizing Qualitative (Logical) Patterns for Pedestrian Simulation from Data 

  Aranda Corral, Gonzalo A.; Borrego Díaz, Joaquín; Galán Páez, Juan (Springer, 2016)

  This work introduces a (qualitative) data-driven framework to extract patterns of pedestrian behaviour and synthesize ...

• Chapter of Book
  

  On Experimental Efficiency for Retraction Operator to Stem Basis 

  Aranda Corral, Gonzalo A.; Borrego Díaz, Joaquín; Galán Páez, Juan; Trujillo Caballero, Alejandro (Springer, 2018)

  In this paper, we introduce an implementation of an inference rule called “Independence Rule” which lets us reduce the ...

• Chapter of Book
  

  Topología simplicial en ACL2 

  Lambán Pardo, Laureano; Martín Mateos, Francisco Jesús; Ruiz Reina, José Luis (Universidad de la Rioja, 2010)
• Presentation
  

  Towards Emotion Recognition: A Persistent Entropy Application 

  González Díaz, Rocío; Paluzo Hidalgo, Eduardo; Quesada Moreno, José Francisco (Springer, 2019)

  Emotion recognition and classification is a very active area of research. In this paper, we present a first approach to ...

• Chapter of Book
  

  A Simulation Workflow for Membrane Computing: From MeCoSim to PMCGPU Through P-Lingua 

  Valencia Cabrera, Luis; Martínez del Amor, Miguel Ángel; Pérez Hurtado de Mendoza, Ignacio (Springer, 2018)

  P system simulators are of high importance in Membrane Computing, since they provide tools to assist on model validation ...

• Chapter of Book
  

  A Kernel-Based Membrane Clustering Algorithm 

  Yang, Jinyu; Chen, Ru; Zhang, GuoZhou; Peng, Hong; Wang, Jun; Riscos Núñez, Agustín (Springer, 2018)

  The existing membrane clustering algorithms may fail to handle the data sets with non-spherical cluster boundaries. To ...

• Chapter of Book
  

  Design Patterns for Efficient Solutions to NP-Complete Problems in Membrane Computing 

  Romero Jiménez, Álvaro; Orellana Martín, David (Springer, 2018)

  Many variants of P systems have the ability to generate an exponential number of membranes in linear time. This feature ...

• Chapter of Book
  

  Other Buds in Membrane Computing 

  Gutiérrez Naranjo, Miguel Ángel (Springer, 2018)

  It is well-known the huge Mario’s contribution to the development of Membrane Computing. Many researchers may relate his ...

• Chapter of Book
  

  Membrane Computing as a Modelling Tool: Looking Back and Forward from Sevilla 

  García Quismondo, Manuel; Graciani Díaz, Carmen; Riscos Núñez, Agustín (Springer, 2018)

  This paper is a tribute to Prof. Mario de Jesús Pérez- Jiménez. An overview of modelling applications in membrane ...

• Presentation
  

  Population Dynamics P Systems on CUDA 

  Martínez del Amor, Miguel Ángel; Pérez Hurtado de Mendoza, Ignacio; Gastalver Rubio, Adolfo; Elster, Anne C.; Pérez Jiménez, Mario de Jesús (Springer, 2012)

  Population Dynamics P systems (PDP systems, in short) provide a new formal bio-inspired modeling framework, which has been ...

• Presentation
  

  Heterotic Computing Examples with Optics, Bacteria, and Chemicals 

  Stepney, Susan; Abramsky, Samson; Bechmann, Matthias; Gorecki, Jerzy; Kendon, Viv; Naughton, Thomas J.; Pérez Jiménez, Mario de Jesús; Romero Campero, Francisco José; Sebald, Angelika (Springer, 2012)

  Unconventional computers can perform embodied computation that can directly exploit the natural dynamics of the substrate. ...

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