Who Needs Emotions? The Brain Meets the Robot

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an evolutionary theory of emotion 145 sions in orbitofrontal and dorsolateral prefrontal cortex in humans. Journal of Cognitive Neuroscience, 16, 463–478. Hornak, J., Rolls, E. T., & Wade, D. (1996). Face and voice expression identification in patients with emotional and behavioural changes following ventral frontal lobe damage. Neuropsychologia, 34, 247–261. Izard, C. E. (1991). The psychology of emotions. New York: Plenum. Krebs, J. R., & Kacelnik, A. (1991). Decision making. In J. R. Krebs & N. B. Davies (Eds.), Behavioural ecology (3rd ed., pp. 105–136). Oxford: Blackwell. Kringelbach, M. L., & Rolls, E. T. (2003). Neural correlates of rapid reversal learning in a simple model of human social interaction. Neuroimage, 20, 1371– 1383. Lazarus, R. S. (1991). Emotion and adaptation. New York: Oxford University Press. Leak, G. K., & Christopher, S. B. (1982). Freudian psychoanalysis and sociobiology: A synthesis. American Psychologist, 37, 313–322. LeDoux, J. (2000). The amygdala and emotion: A view through fear. In J. P. Aggleton (Ed.), The amygdala: A functional analysis (2nd ed., pp. 289–310). Oxford: Oxford University Press. LeDoux, J. E. (1996). The emotional brain. New York: Simon & Schuster. Mackintosh, N. J. (1983). Conditioning and associative learning. Oxford: Oxford University Press. Millenson, J. R. (1967). Principles of behavioral analysis. New York: MacMillan. Moniz, E. (1936). Tentatives opératoires dans le traitement de certaines psychoses. Paris: Masson. Nesse, R. M., & Lloyd, A. T. (1992). The evolution of psychodynamic mechanisms. In J. H. Barlow, L. Cosmides, & J. Tooby (Eds.), The adapted mind (pp. 601– 624). New York: Oxford University Press. Oatley, K., & Jenkins, J. M. (1996). Understanding emotions. Oxford: Blackwell. O’Doherty, J., Kringelbach, M. L., Rolls, E. T., Hornak, J., & Andrews, C. (2001). Abstract reward and punishment representations in the human orbitofrontal cortex. Nature Neuroscience, 4, 95–102. Petrides, M. (1996). Specialized systems for the processing of mnemonic information within the primate frontal cortex. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences, 351, 1455–1462. Rolls, B. J., & Rolls, E. T. (1973). Effects of lesions in the basolateral amygdala on fluid intake in the rat. Journal of Comparative and Physiological Psychology, 83, 240–247. Rolls, E. T. (1986a), Neural systems involved in emotion in primates. In R. Plutchik & H. Kellerman (Eds.), Emotion: Theory, research, and experience. Biological foundations of emotion (Vol. 3, pp. 125–143). New York: Academic Press. Rolls, E. T. (1986b). A theory of emotion, and its application to understanding the neural basis of emotion. In Y. Oomura (Ed.), Emotions. Neural and chemical control (pp. 325–344). Tokyo: Japan Scientific Societies Press. Rolls, E. T. (1990). A theory of emotion, and its application to understanding the neural basis of emotion. Cognition and Emotion, 4, 161–190.
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TLFeBOOK Who Needs Emotions? The Br
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The Nature of Emotion: Fundamental
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3 Oxford University Press, Inc., pu
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vi preface want their computer prog
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viii preface is required because th
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x preface prefer to read Part III b
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xii contents PART III: ROBOTS 7 Aff
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xiv contributors Jean-Marc Fellous
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4 perspectives RUSSELL: I confess t
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6 perspectives EDISON: Tinkering! Y
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10 perspectives HOW COULD WE TELL I
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12 perspectives This, of course, ra
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14 perspectives of a stimulus (e.g.
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16 perspectives an emotion is neith
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18 perspectives cognitive processes
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20 perspectives that they visually
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22 perspectives A self-model that c
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24 perspectives Brothers, L. (1997)
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30 brains specificity and flexibili
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32 brains It is useful to begin wit
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34 brains the readout of that syste
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36 brains A. 5 NH 4Cl Bacteria in c
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38 brains Although instinctual beha
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40 brains Motivated behavior requir
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42 brains emerged through decades o
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44 brains and gonadal and adrenal s
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46 brains voluntary control of acti
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48 brains A. Total cerebral input t
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50 brains sensory neurons, interneu
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52 brains functions. Niall (1982) n
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54 brains motivation arousal necess
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56 brains serotonergic system is pr
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58 brains as tree jumping (Doudet e
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60 brains then have a system that a
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62 brains heroin and other opiates,
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64 brains benefits that also presen
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66 brains and brain neurotransmitte
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68 brains Cardinaud, B., Gilbert, J
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70 brains Hess, W. R. (1957). The f
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72 brains MacLean, P. D. (1990). Th
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74 brains Pfaus, J. G., Damsma, G.,
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76 brains trained monkeys: Agonist
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80 brains We conclude by discussing
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82 brains to prove, theoretical dis
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84 brains is a mammalian specializa
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86 brains processing circuits to se
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88 brains amygdala) and the control
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90 brains comparison of the amygdal
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92 brains Is the Amygdala Necessary
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Page 129 and 130: 112 brains Salinas, J. A. (1995). I
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Page 135 and 136: 118 brains and flexible in the orbi
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Page 151 and 152: 134 brains memories to be held in p
Page 153 and 154: 136 brains However, it may be expec
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Page 157 and 158: 140 brains acting through the ventr
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Page 165 and 166: 148 brains directed to us or when t
Page 167 and 168: 150 brains Specific methods, partly
Page 169 and 170: 152 brains Movements performed by l
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Page 173 and 174: 156 brains more about them, their r
Page 175 and 176: 158 brains see Zajonc, 1985), the i
Page 177 and 178: 160 brains The question now arises
Page 179 and 180: 162 brains situations where they ha
Page 181 and 182: 164 brains Estimation of social con
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Page 185 and 186: 168 brains Lhermitte, F. (1983). Ut
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Page 193 and 194: 176 Table 7.1. Principal Organism F
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196 robots current affective state
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198 robots primitive fear at the ro
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200 robots Gray, J. A. (1990). Brai
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202 robots cesses underlying approa
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204 robots case of CogAff, conjectu
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206 robots some cases and in other
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208 robots DIRECT AND MEDIATED CONT
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210 robots Toward a Useful Ontology
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212 robots different varieties of m
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214 robots Primitive sensors provid
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216 robots Being in a state P of a
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218 robots terms of the ability to
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220 robots Varieties of Affective S
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222 robots Central Perception Actio
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224 robots control, where all the l
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226 robots layer (e.g., observing p
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228 robots are sometimes unclear, i
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230 robots for such a fast-acting s
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232 robots from mental processes ot
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234 robots The majority view in thi
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236 robots Will it be a long-term f
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238 robots or implicitly adopted de
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240 robots some undesirable emotion
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242 robots References Albus, J. S.,
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244 robots Sloman, A. (2001b). Evol
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246 robots state variables such as
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248 robots In order to make robots
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250 robots motivational state also
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252 robots Prey acquisition: This b
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254 robots Figure 9.3. Top photos:
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256 robots especially when young. E
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258 robots Object of Attachment Saf
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260 robots Mean distance to attachm
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262 robots 2003), but the intent is
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264 robots Affective State Emotion
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266 robots Motivational/emotional m
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268 robots Brooks, R. (1986). A rob
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272 robots responsible for perceivi
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274 robots species considered to be
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276 robots This endeavor does not i
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278 robots For example, the person
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280 robots mental states (i.e., int
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282 robots Expression of Affective
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284 robots Negative valence High ar
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286 robots and emotion-related proc
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288 robots For instance, the visual
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290 robots Undesired stimulus Rejec
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292 robots intensity: seek or acqui
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294 robots Table 10.2. Summary of t
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296 robots it up (Breazeal, 2002b).
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298 robots pitch, f o (kHz) pitch,
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300 robots Table 10.3. Overall Clas
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302 robots Each emotion gateway pro
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304 robots Biasing Attention Kismet
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306 robots be to vocalize to the pe
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308 robots References Ackerman, B.,
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310 robots Center for the Study of
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312 robots When team members align
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314 robots effects that the agent h
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316 robots double arrow), which imp
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318 robots that of “robot as avat
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320 robots terms of specific apprai
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322 robots their own self-survival
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324 robots explicit, intended commu
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326 robots Although, the emotion
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328 robots planning. In Proceedings
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334 conclusions handout and pleased
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336 conclusions emotion. How can we
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338 conclusions Presumably, the fac
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340 conclusions Absence of N and N
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342 conclusions Thus, evolution yie
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344 conclusions different from such
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346 conclusions approach to the soc
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348 conclusions at the much higher
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350 conclusions mediated by distrib
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352 conclusions to the prefrontal c
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354 conclusions pathway of much mor
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356 conclusions The Motivated Toad
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358 conclusions explicitly formal r
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360 conclusions directly and by pro
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362 conclusions striatum pallidum d
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364 conclusions (A) Auditory stimul
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366 conclusions from the primary ta
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368 conclusions by an interest in u
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370 conclusions he sees as the stat
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372 conclusions to detect possible
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374 conclusions much of my behavior
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376 conclusions Consider a robot th
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378 conclusions 3. As already noted
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380 conclusions Fellous, J.-M., & S
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382 conclusions Localization of gra
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386 index amygdala back projection,
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388 index cognition (continued) evo
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390 index emotion research (continu
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392 index fear conditioning (contin
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394 index limbic system theory, 80-
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396 index prefrontal cortex and the
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398 index schema theory and Jackson
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