An Embodied Model of Learning, Plasticity, and Reward  

Oleh:

Alexander, William H. ; Sporns, Olaf

Jenis: Article from Journal - e-Journal
Dalam koleksi: Adaptive Behavior vol. 10 no. 3-4 (Jul. 2002), page 143–159.
Topik: learning; neuromodulation; robot; embodiment; plasticity
Fulltext: 143.pdf (827.95KB)

Isi artikel

We describe and discuss a neural network model of the dopaminergic system based on observed anatomical and physiological properties of the primate midbrain. The model relies on value-dependent synaptic modification to acquire temporal information regarding reward-related events and the stimuli with which such events are paired. Experience-dependent changes in synaptic plasticity allow the model to generate neuromodulatory responses corresponding to prediction errors. These phasic neural responses act as a value signal with positive and negative components, representing the unpredicted occurrence of rewarding stimuli and the omission of an expected reward, respectively. The value signal modulates widespread synaptic changes, including afferent connections of the value system itself. The model is embedded in an autonomous robot, and its behavior is tested as changes are applied to the robot’s motor characteristics and as the stimulus content of the environment is varied. We observe the development of the system as a consequence of environmental stimuli and autonomous movement, leading to the conditioning of reward-related behaviors through the interaction between the robot and its surroundings.

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