In this paper we present the following hypothesis: the neuromodulatory
mechanisms that control th... more In this paper we present the following hypothesis: the neuromodulatory mechanisms that control the emotional states of mammals could be translated and re-implemented in a computer by means of controlling the computational performance of a hosted computational system. In our specific implementation we represent the simulation of the fear-like state based on the three dimensional neuromodulatory model of affects (here the basic emotional inborn states) that we have inherited from works of Hugo Lövheim. We have managed to simulate 1000 ms of work of the dopamine system using NEST Neural Simulation Tool and the rat brain as the model. We also present the results of that simulation and evaluate them to validate the overall correctness of our hypothesis.
In this paper we present the following hypothesis: the neuromodulatory
mechanisms that control th... more In this paper we present the following hypothesis: the neuromodulatory mechanisms that control the emotional states of mammals could be translated and re-implemented in a computer by means of controlling the computational performance of a hosted computational system. In our specific implementation we represent the simulation of the fear-like state based on the three dimensional neuromodulatory model of affects (here the basic emotional inborn states) that we have inherited from works of Hugo Lövheim. We have managed to simulate 1000 ms of work of the dopamine system using NEST Neural Simulation Tool and the rat brain as the model. We also present the results of that simulation and evaluate them to validate the overall correctness of our hypothesis.
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Papers by Ilia G Sozutov
mechanisms that control the emotional states of mammals could be translated and
re-implemented in a computer by means of controlling the computational performance
of a hosted computational system. In our specific implementation we represent
the simulation of the fear-like state based on the three dimensional
neuromodulatory model of affects (here the basic emotional inborn states) that we
have inherited from works of Hugo Lövheim. We have managed to simulate
1000 ms of work of the dopamine system using NEST Neural Simulation Tool and
the rat brain as the model. We also present the results of that simulation and
evaluate them to validate the overall correctness of our hypothesis.
mechanisms that control the emotional states of mammals could be translated and
re-implemented in a computer by means of controlling the computational performance
of a hosted computational system. In our specific implementation we represent
the simulation of the fear-like state based on the three dimensional
neuromodulatory model of affects (here the basic emotional inborn states) that we
have inherited from works of Hugo Lövheim. We have managed to simulate
1000 ms of work of the dopamine system using NEST Neural Simulation Tool and
the rat brain as the model. We also present the results of that simulation and
evaluate them to validate the overall correctness of our hypothesis.