Outputs (13)

Conventional non-computing and unconventional musical signal processing (2022)
Book Chapter
Baracskai, Z. (2022). Conventional non-computing and unconventional musical signal processing. In A. Adamatzky (Ed.), Unconventional Computing, Arts, Philosophy (339-365). World Scientific Publishing. https://doi.org/10.1142/9789811257155_0020

As the scepsis maintains its lead in scientific enquiry giving birth to unconventional computing, one must poke at the newborn as well. By manipulating the terms convention and computing, challenges are posed to their meaning in the contemporary cont... Read More about Conventional non-computing and unconventional musical signal processing.

A haploid-diploid evolutionary algorithm optimizing nanoparticle based cancer treatments (2022)
Book Chapter
Tsompanas, M., Bull, L., Adamatzky, A., & Balaz, I. (2022). A haploid-diploid evolutionary algorithm optimizing nanoparticle based cancer treatments. In I. Balaz, & A. Adamatzky (Eds.), Cancer, Complexity, Computation (237-251). Springer. https://doi.org/10.1007/978-3-031-04379-6_10

This paper uses a recent explanation for the fundamental haploid-diploid lifecycle of eukaryotic organisms to present a new evolutionary algorithm that differs from all previous known work using diploid representations. A form of the Baldwin effect h... Read More about A haploid-diploid evolutionary algorithm optimizing nanoparticle based cancer treatments.

Interspecies Urban Planning, Reimaging City Infrastructures with Slime Mould (2019)
Book Chapter
Dillon, T. (2019). Interspecies Urban Planning, Reimaging City Infrastructures with Slime Mould. . River Publishers

The slime mould Physarum polycephalum optimises its shape in a geometrically constrained space. We explore this property in order to reconsider how we could develop more inclusive, interspecies approaches to urban planning and infrastructure. Working... Read More about Interspecies Urban Planning, Reimaging City Infrastructures with Slime Mould.

Phase transitions in swarm optimization algorithms (2018)
Book Chapter
Adamatzky, A. (2018). Phase transitions in swarm optimization algorithms. In S. Stepney, & S. Verlan (Eds.), Unconventional Computation and Natural Computation (204-2016). Spinrger

Natural systems often exhibit chaotic behavior in their space-time evolution. Systems transiting between chaos and order manifest a potential to compute, as shown with cellular automata and artificial neural networks. We demonstrate that swarms optim... Read More about Phase transitions in swarm optimization algorithms.

Computers from plants (2018)
Book Chapter
Adamatzky, A. (2018). Computers from plants. In A. Adamatzky (Ed.), Inspired by Nature. Springer. https://doi.org/10.1007/978-3-319-67997-6_17

Plants are highly intelligent organisms. They continuously make distributed processing of sensory information, concurrent decision making and parallel actuation. The plants are efficient green computers per se. Outside in nature, the plants are progr... Read More about Computers from plants.

Discovering Boolean gates in slime mould (2018)
Book Chapter
Adamatzky, A. (2018). Discovering Boolean gates in slime mould. In A. Adamatzky (Ed.), Inspired by nature. Springer

Slime mould of Physarum polycephalum is a large cell exhibiting rich spatial non-linear electrical characteristics. We exploit the electrical properties of the slime mould to implement logic gates using a flexible hardware platform designed for inves... Read More about Discovering Boolean gates in slime mould.

A computation in a cellular automaton collider rule 110 (2016)
Book Chapter
Martinez, G., Adamatzky, A., & McIntosh, H. V. (2016). A computation in a cellular automaton collider rule 110. In A. Adamatzky (Ed.), Advances in Unconventional Computing (391-428). Switzerland: Springer. https://doi.org/10.1007/978-3-319-33924-5_15

A cellular automaton collider is a finite state machine build of rings of one-dimensional cellular automata. We show how a computation can be performed on the collider by exploiting interactions between gliders (particles, localisations). The constru... Read More about A computation in a cellular automaton collider rule 110.

Multi-agent model of slime mould for computing and robotics (2015)
Book Chapter
Jones, J. (2015). Multi-agent model of slime mould for computing and robotics. In A. Adamatzky (Ed.), Atlas of Physarum Computing (35-46). World Scientific. https://doi.org/10.1142/9789814675321_0002

Toward turing’s A-type unorganised machines in an unconventional substrate: A dynamic representation in compartmentalised excitable chemical media (2013)
Book Chapter
Bull, L., Holley, J., De Lacy Costello, B., & Adamatzky, A. (2013). Toward turing’s A-type unorganised machines in an unconventional substrate: A dynamic representation in compartmentalised excitable chemical media. . Springer. https://doi.org/10.1007/978-3-642-37225-4_11

© Springer-Verlag Berlin Heidelberg 2013. Turing presented a general representation scheme by which to achieve artificial intelligence – unorganised machines. Significantly, these were a form of discrete dynamical system and yet such representations... Read More about Toward turing’s A-type unorganised machines in an unconventional substrate: A dynamic representation in compartmentalised excitable chemical media.

Different behaviour seen in flexible titanium dioxide sol-gel memristors dependent on the choice of electrode material (2012)
Book Chapter
Gale, E., Pearson, D., Kitson, S., Adamatzky, A., & de Lacy Costello, B. (2012). Different behaviour seen in flexible titanium dioxide sol-gel memristors dependent on the choice of electrode material. In J. Heber, D. Schlom, Y. Tokura, R. Waser, & M. Wuttig (Eds.), Technical Digest of Frontiers in Electronic Materials (577-578). Germany: Nature Conferences & Wiley VCH