Validizace bayesovského modelu kauzálního usuzování na základě vnímané koincidence událostí / Validation of Bayesian Model of Causal Inferences Made on the Basis of Perceived Coincidences

Stehlík, Luděk

January 2017

1 SUMMARY In general this thesis deals with the question whether or to what extent human thinking is rational in terms of the optimality of the way people achieve their goals and in terms of the consistency between people's beliefs and the structure of the world. This question is quite difficult to answer unequivocally because the answer will always depend on the nature of the particular task and the exact way in which we define rationality. Among other things, that's the reason why we can meet two contradictory schools of thought within the so-called Great Rationality Debate, one of which is convinced of the systematic irrationality of human thinking (in the sense of the systematic deviation of human thinking from normative predictions stemming from the principles of rational thinking as they are captured by the statistical theory of probability, formal logic or decision theory), while the other one considers human thought to be more or less rational, and finds the source of its (alleged) failure elsewhere. In the case of the latter, however, the question is how to explain the apparent existence of irrational behavior and interindividual differences in such behavior. One possible answer to this question is illustrated by Griffiths and Tenenbaum's Bayesian model of causal reasoning based on perceived...

Modelování prostorového slyšení / Models of binaural hearing

Drápal, Marek

January 2011

In this work is presented stochastic model of binaural hearing in context of another alternative models. According to latest experimental data on mammals, inhibition plays a role in interaural time difference recognition, which is a key for low frequency sound source localization. The outputs of experiments may lead to the conclusion that the binaural hearing works differently in mammals compared to birds. Nowadays there are a few theoretical works addressing this new phenomena, but all of them are relaying on a very precise inhibition timing, which was never proved as physiologically valid. On the other hand, models described in this work are based on the fact, that every neuron has a random delay when reacting to an excitation. If this time jitter is taken into account and combined with inhibitory signal, delay in the neuronal circuit and coincidence detection, then the output firing rate corresponds to the azimuth of the sound source. In this work it is shown, that such a neuronal circuits are giving the same output results compared to experimental data. The models are supported by analytical computations and numerical simulations including simulation of cochlear implant.

Modelování prostorového slyšení / Models of binaural hearing

Drápal, Marek

January 2011

In this work is presented stochastic model of binaural hearing in context of another alternative models. According to latest experimental data on mammals, inhibition plays a role in interaural time difference recognition, which is a key for low frequency sound source localization. The outputs of experiments may lead to the conclusion that the binaural hearing works differently in mammals compared to birds. Nowadays there are a few theoretical works addressing this new phenomena, but all of them are relaying on a very precise inhibition timing, which was never proved as physiologically valid. On the other hand, models described in this work are based on the fact, that every neuron has a random delay when reacting to an excitation. If this time jitter is taken into account and combined with inhibitory signal, delay in the neuronal circuit and coincidence detection, then the output firing rate corresponds to the azimuth of the sound source. In this work it is shown, that such a neuronal circuits are giving the same output results compared to experimental data. The models are supported by analytical computations and numerical simulations including simulation of cochlear implant.