sameAs
A jump persistent turning walker to model zebrafish locomotion.Zebrafish response to a robotic replica in three dimensionsCollective response of zebrafish shoals to a free-swimming robotic fish.Three-dimensional scoring of zebrafish behavior unveils biological phenomena hidden by two-dimensional analyses.Fish and robots swimming together in a water tunnel: robot color and tail-beat frequency influence fish behaviorCan force feedback and science learning enhance the effectiveness of neuro-rehabilitation? An experimental study on using a low-cost 3D joystick and a virtual visit to a zoo.Increasing patient engagement in rehabilitation exercises using computer-based citizen scienceA natural user interface to integrate citizen science and physical exercise.In-silico experiments of zebrafish behaviour: modeling swimming in three dimensions.simUfish: An Interactive Application to Teach K-12 Students About Zebrafish Behavior.Detecting causality in policy diffusion processesActivating social strategies: Face-to-face interaction in technology-mediated citizen science.Model-free information-theoretic approach to infer leadership in pairs of zebrafish.Zebrafish response to 3D printed shoals of conspecifics: the effect of body size.Flow monitoring with a camera: a case study on a flood event in the Tiber River.A network model for Ebola spreading.Water Impact of Syntactic Foams.Acute caffeine administration affects zebrafish response to a robotic stimulus.Measuring zebrafish turning rate.Understanding Policy Diffusion in the U.S.: An Information-Theoretical Approach to Unveil Connectivity Structures in Slowly Evolving Complex Systems.Plasticity in leader-follower roles in human teams.Classification of collective behavior: a comparison of tracking and machine learning methods to study the effect of ambient light on fish shoaling.Zebrafish swimming in the flow: a particle image velocimetry study.Zebrafish (Danio rerio) behavioural response to bioinspired robotic fish and mosquitofish (Gambusia affinis).Effect of acute ethanol administration on zebrafish tail-beat motion.Live predators, robots, and computer-animated images elicit differential avoidance responses in zebrafish.In Memoriam: Paolo Cappa.Data-driven modelling of social forces and collective behaviour in zebrafish.Symbolic dynamics of animal interaction.Information theory and robotics meet to study predator-prey interactions.How different is a 3D-printed replica from a conspecific in the eyes of a zebrafish?Closed-loop control of zebrafish behaviour in three dimensions using a robotic stimulus.Sociality modulates the effects of ethanol in zebra fish.On effective temperature in network models of collective behavior.Analysis and classification of collective behavior using generative modeling and nonlinear manifold learning.Tracking Nemo: Help Scientists Understand Zebrafish Behavior.In situ temperature sensing with fluorescent chitosan-coated PNIPAAm/alginate beadsMechanochromic response of pyrene functionalized nanocomposite hydrogelsInference of time-varying networks through transfer entropy, the case of a Boolean network modelErratum to “Acute caffeine administration affects zebrafish response to a robotic stimulus” [Behav. Brain Res. 289 (2015) 48–54]
P50
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P50
description
Italian electrical engineer, researcher
@en
elektrotechnisch ingenieur, onderzoeker
@nl
հետազոտող
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name
Maurizio Porfiri
@ast
Maurizio Porfiri
@en
Maurizio Porfiri
@es
Maurizio Porfiri
@nl
Maurizio Porfiri
@sl
type
label
Maurizio Porfiri
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Maurizio Porfiri
@en
Maurizio Porfiri
@es
Maurizio Porfiri
@nl
Maurizio Porfiri
@sl
prefLabel
Maurizio Porfiri
@ast
Maurizio Porfiri
@en
Maurizio Porfiri
@es
Maurizio Porfiri
@nl
Maurizio Porfiri
@sl
P214
P269
P1412
P1960
1KQ1VqsAAAAJ
P21
P213
0000 0003 5816 7383
P214
P269
P31
P496
0000-0002-1480-3539
P569
1976-01-01T00:00:00Z
P735
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viaf-203253354