Personal Information
Entreprise/Lieu de travail
Oxford, United Kingdom United Kingdom
Profession
Senior Researcher/Assistant Professor/Lab Coleader
Secteur d’activité
Education
Site Web
www.hectorzenil.net/
À propos
I consider myself a 'computational natural scientist' (Greg Chaitin described me as a "new kind of practical theoretician"). My interests lie at the intersection of two major areas of science, namely Computability and Causality leading to what I call Algorithmic Information Dynamics.
I co-lead the Algorithmic Dynamics Lab, and I am the head of the Algorithmic Nature Group, the Paris-based lab behind the Online Algorithmic Complexity Calculator and the Human Randomness Perception and Generation Project, operating from the UK. Previously, I was a Research Associate at the Behavioural and Evolutionary Theory Lab at the University of Sheffield before joining the University of Oxford
Mots-clés
algorithmic randomness
information theory
complex systems
kolmogorov complexity
cellular automata
algorithmic probability
computational biology
network biology
algorithmic nature
algorithmic complexity
program-size complexity
programmability
complexity
turing machines
time complexity
complexity science
fractal complexity
levin distribution
hector zenil
chaitin-levin coding theorem
game of life
elementary cellular automata
dynamical systems
dynamic systems
algorithmic dynamics
multidimensional complexity
shannon entropy
graph complexity
searle
chinese room
turing test
cognition
consciousness
small computer programs
np!=p
fractal dimension
computational complexity
programmable medicine
synthetic biology
computable universe
reprogramming nature
artificial life
artificial intelligence
what is computation
tradeoffs
space-time diagrams
hausdorff complexity
complex networks
compressibility
topology
graph automorphisms
graph theory
similarity metrics
compression distance
bioinformatics
computational medicine
computability
finite randomnes
chaitin omega
martin-loef randomness
levin semi-measure
turing machine
chaitin
jean-paul delahaye
universal distribution
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Présentations
(32)J’aime
(1)Fractal Dimension of Space-time Diagrams and the Runtime Complexity of Small Turing Machines
Hector Zenil
•
il y a 10 ans
Personal Information
Entreprise/Lieu de travail
Oxford, United Kingdom United Kingdom
Profession
Senior Researcher/Assistant Professor/Lab Coleader
Secteur d’activité
Education
Site Web
www.hectorzenil.net/
À propos
I consider myself a 'computational natural scientist' (Greg Chaitin described me as a "new kind of practical theoretician"). My interests lie at the intersection of two major areas of science, namely Computability and Causality leading to what I call Algorithmic Information Dynamics.
I co-lead the Algorithmic Dynamics Lab, and I am the head of the Algorithmic Nature Group, the Paris-based lab behind the Online Algorithmic Complexity Calculator and the Human Randomness Perception and Generation Project, operating from the UK. Previously, I was a Research Associate at the Behavioural and Evolutionary Theory Lab at the University of Sheffield before joining the University of Oxford
Mots-clés
algorithmic randomness
information theory
complex systems
kolmogorov complexity
cellular automata
algorithmic probability
computational biology
network biology
algorithmic nature
algorithmic complexity
program-size complexity
programmability
complexity
turing machines
time complexity
complexity science
fractal complexity
levin distribution
hector zenil
chaitin-levin coding theorem
game of life
elementary cellular automata
dynamical systems
dynamic systems
algorithmic dynamics
multidimensional complexity
shannon entropy
graph complexity
searle
chinese room
turing test
cognition
consciousness
small computer programs
np!=p
fractal dimension
computational complexity
programmable medicine
synthetic biology
computable universe
reprogramming nature
artificial life
artificial intelligence
what is computation
tradeoffs
space-time diagrams
hausdorff complexity
complex networks
compressibility
topology
graph automorphisms
graph theory
similarity metrics
compression distance
bioinformatics
computational medicine
computability
finite randomnes
chaitin omega
martin-loef randomness
levin semi-measure
turing machine
chaitin
jean-paul delahaye
universal distribution
Tout plus