02726nam 2200481 450 991013752990332120230621140740.09782889194315(ebook)(CKB)3710000000569680(WaSeSS)IndRDA00059078(oapen)https://directory.doabooks.org/handle/20.500.12854/61847(EXLCZ)99371000000056968020160713d2015 uy 0engur||#||||||||txtrdacontentcrdamediacrrdacarrierValue and reward based learning in neurorobots /topic editors, Jeffrey L. Krichmar and Florian RöhrbeinFrontiers Media SA2015[Lausanne, Switzerland] :Frontiers Media SA,2015.1 online resource (158 pages) illustrations; digital, PDF file(s)Frontiers Research TopicsIncludes bibliographical references.Organisms are equipped with value systems that signal the salience of environmental cues to their nervous system, causing a change in the nervous system that results in modification of their behaviour. These systems are necessary for an organism to adapt its behaviour when an important environmental event occurs. A value system constitutes a basic assumption of what is good and bad for an agent. These value systems have been effectively used in robotic systems to shape behaviour. For example, many robots have used models of the dopaminergic system to reinforce behaviour that leads to rewards. Other modulatory systems that shape behaviour are acetylcholine’s effect on attention, norepinephrine’s effect on vigilance, and serotonin’s effect on impulsiveness, mood, and risk. Moreover, hormonal systems such as oxytocin and its effect on trust constitute as a value system. We seek to gather papers on research involving neurobiologically inspired robots whose behaviour is: 1) Shaped by value and reward learning, 2) adapted through interaction with the environment, and 3) shaped by extracting value from the environment.Reinforcement learningreward-based learningbasal gangliaembodied cognitionvalue systemneuroroboticsaction selectionNeuromodulationreinforcement learningReinforcement learning.Jeffrey L. Krichmarauth1364630Krichmar Jeffrey L.Röhrbein FlorianWaSeSSUkMaJRU9910137529903321Value and reward based learning in neurorobots3386069UNINA