A Computational Framework for Understanding Eye–Hand Coordination

von Hofsten C (1982) Eye–hand coordination in the newborn. Dev Psychol 18:450–461

Land MF, Hayhoe M (2001) In what ways do eye movements contribute to everyday activities? Vis Res 41:3559–3565

Prablanc C, Echallier JF, Komilis E, Jeannerod M (1979) Optimal response of eye and hand motor systems in pointing at a visual target. Biol Cybern 35:113–124

Bekkering H, Adam JJ, Kingma H, Huson A, Whiting HTA (1994) Reaction time latencies of eye and hand movements in single- and dual-task conditions Harold. Exp Brain Res 97:471–476

Bisley JW, Goldberg ME (2010) Attention, intention, and priority in the parietal lobe. Annu Rev Neurosci 33:1–21

Roitman JD, Shadlen MN (2002) Response of neurons in the lateral intraparietal area during a combined visual discrimination reaction time task. J Neurosci 22:9475–9489

Steenrod SC, Phillips MH, Goldberg ME (2013) The lateral intraparietal area codes the location of saccade targets and not the dimension of the saccades that will be made to acquire them. J Neurophysiol 109:2596–2605

Cui H, Andersen RA (2007) Posterior parietal cortex encodes autonomously selected motor plans. Neuron 56:552–559

Andersen RA, Cui H (2009) Intention, action planning, and decision making in parietal-frontal circuits. Neuron 63:568–583

Andersen RA, Buneo CA (2002) Intentional maps in posterior parietal cortex. Annu Rev Neurosci 25:189–220

Hanes DP, Schall JD (1996) Neural control of voluntary movement initiation. Science 274:427–430

Thompson KG, Hanes DP, Bichot NP, Schall JD (1996) Perceptual and motor processing stages identified in the activity of macaque frontal eye field neurons during visual search. J Neurophysiol 76:4040–4055

Stuphorn V, Taylor TL, Schall JD (2000) Performance monitoring by the supplementary eye field. Nature 408:857–860

Schall JD, Stuphorn V, Brown JW (2002) Monitoring and control of action by the frontal lobes. Neuron 36:309–322

Song J-H, Rafal R, McPeek R (2010) Neural substrates of target selection for reaching movements in superior colliculus. J. Vis. 10:1082

Cisek P, Kalaska JF (2005) Neural correlates of reaching decisions in dorsal premotor cortex: specification of multiple direction choices and final selection of action. Neuron 45:801–814

Rizzolatti G, Scandolara C, Matelli M, Gentilucci M (1981) Afferent properties of periarcuate neurons in macaque monkeys. I. Somatosensory responses. Behav Brain Res 2:125–146

Rizzolatti G et al (1988) Functional organization of inferior area 6 in the macaque monkey. Exp Brain Res 71:491–507

Munoz DP, Wurtz RH (1995) Saccade-related activity in monkey superior colliculus. II. Spread of activity during saccades. J Neurophysiol 73:2334–2348

Munoz DP, Wurtz RH (1995) Saccade-related activity in monkey superior colliculus. I. Characteristics of burst and buildup cells. J Neurophysiol 73:2313–2333

Fecteau JH, Munoz DP (2006) Salience, relevance, and firing: a priority map for target selection. Trends Cogn. Sci. 10:382–390

Georgopoulos AP, Kalaska JF, Massey JT (1981) Spatial trajectories and reaction times of aimed movements: effects of practice, uncertainty, and change in target location. J. Neurophysiol 46:725–743

Fromm C, Evarts EV (1982) Pyramidal tract neurons in somatosensory cortex: central and peripheral inputs during voluntary movement. Brain Res 238:186–191

Biguer B, Prablanc C, Jeannerod M (1984) The contribution of coordinated eye and head movements in hand pointing accuracy. Exp Brain Res 55:462–469

Sailer U, Eggert T, Ditterich J, Straube A (2000) Spatial and temporal aspects of eye–hand coordination across different tasks. Exp Brain Res 134:163–173

Dean HL, Martí D, Tsui E, Rinzel J, Pesaran B (2011) Reaction time correlations during eye–hand coordination: behavior and modeling. J Neurosci 31:2399–2412

Gielen CCAM, van den Heuvel PJM, van Gisbergen JAM (1984) Coordination of fast eye and arm movements in a tracking task. Exp Brain Res 56:154–161

Herman R, Herman R, Maulucci R (1981) Visually triggered eye–arm movements in man. Exp Brain Res 42:392–398

Fisher B, Rogal L (1986) Eye–hand-coordination in man: a reaction time study. Biol Cybern 261:253–261

Frens MA, Erkelens CJ (1991) Coordination of hand movements and saccades: evidence for a common and a separate pathway. Exp Brain Res 85:682–690

Gopal A, Viswanathan P, Murthy A (2015) A common stochastic accumulator with effector-dependent noise can explain eye–hand coordination. J Neurophysiol. https://doi.org/10.1152/jn.00802.2014

Bizzi E, Kalil RE, Tagliasco V (1971) Eye–head coordination in monkeys: evidence for centrally patterned organization. Science 173:452–454

Lunenburger L, Kutz DF, Hoffmann KP (2000) Influence of arm movements on saccades in humans. Eur J Neurosci 12:4107–4116

Gribble PL, Everling S, Ford K, Mattar A (2002) Hand–eye coordination for rapid pointing movements: arm movement direction and distance are specified prior to saccade onset. Exp Brain Res 145:372–382

Bekkering H, Pratt J, Abrams RA (1996) The gap effect for eye and hand movements. Percept Psychophys 58:628–635

Armstrong IT, Judson M, Munoz DP, Johansson RS, Flanagan JR (2013) Waiting for a hand: saccadic reaction time increases in proportion to hand reaction time when reaching under a visuomotor reversal. Front Hum Neurosci 7:319

Song J-H, McPeek RM (2009) Eye–hand coordination during target selection in a pop-out visual search. J Neurophysiol 102:2681–2692

Fisk JD, Goodale MA (1985) The organization of eye and limb movements during unrestricted reaching to targets in contralateral and ipsilateral visual space*. Exp Brain Res 60:159–178

Lawrence BM, Gardella AL (2009) Saccades and reaches, behaving differently. Exp Brain Res 195:413–418

Thura D, Hadj-Bouziane F, Meunier M, Boussaoud D (2008) Hand position modulates saccadic activity in the frontal eye field. Behav Brain Res 186:148–153

Thura D, Hadj-Bouziane F, Meunier M, Boussaoud D (2011) Hand modulation of visual, preparatory, and saccadic activity in the monkey frontal eye field. Cereb Cortex 21:853–864

Mushiake H, Fujii N, Tanji J (1996) Visually guided saccade versus eye–hand reach: contrasting Neuronal activity in the cortical supplementary and frontal eye fields. J Neurophysiol 75:2187–2191

Oristaglio J, Schneider DM, Balan PF, Gottlieb J (2006) Behavioral/systems/cognitive integration of visuospatial and effector information during symbolically cued limb movements in monkey lateral intraparietal area. J Neurosci 26:8310–8319

Philipp R, Hoffmann K-P (2014) Arm movements induced by electrical microstimulation in the superior colliculus of the macaque monkey. J Neurosci 34:3350–3363

Lünenburger L, Kleiser R, Stuphorn V, Miller LE, Hoffmann K-PP (2001) A possible role of the superior colliculus in eye–hand coordination. Prog Brain Res 134:109–125

Pesaran B, Nelson MJ, Andersen RA (2006) Dorsal premotor neurons encode the relative position of the hand, eye, and goal during reach planning. Neuron 51:125–134

Boussaoud D, Jouffrais C, Bremmer F (1998) Eye position effects on the neuronal activity of dorsal premotor cortex in the macaque monkey. J Neurophysiol 80:1132–1150

Mushiake H, Tanatsugu Y, Tanji J (1997) Neuronal activity in the ventral part of premotor cortex during target-reach movement is modulated by direction of gaze. J Neurophysiol 78:567–571

Batista AP, Buneo CA, Snyder LH, Andersen RA (1999) Reach plans in eye-centered coordinates. Science 285:257–260

Cohen YE, Andersen RA (2000) Reaches to sounds encoded in an eye-centered reference frame. Neuron 27:647–652

Song J-H, Rafal RD, McPeek RM (2011) Deficits in reach target selection during inactivation of the midbrain superior colliculus. Proc Natl Acad Sci 108:E1433–E1440

Yttri EA, Liu Y, Snyder LH (2013) Lesions of cortical area LIP affect reach onset only when the reach is accompanied by a saccade, revealing an active eye–hand coordination circuit. Proc Natl Acad Sci USA 110:2371–2376

Yttri EA, Wang C, Liu Y, Snyder LH (2014) The parietal reach region is limb specific and not involved in eye-hand coordination. J Neurophysiol 111:520–32

Christopoulos V, Bonaiuto J, Kagan I, Andersen RA (2015) Inactivation of parietal reach region affects reaching but not saccade choices in internally guided decisions. J Neurosci 35:11719–11728

Jackson SR, Newport R, Mort D, Husain M (2005) Where the eye looks, the hand follows: limb-dependent magnetic misreaching in optic ataxia. Curr Biol 15:42–46

Carey DP, Coleman RJ, Della Sala S (1997) Magnetic misreaching. Cortex 33:639–652

Beurze SM, de Lange FP, Toni I, Medendorp WP (2009) Spatial and effector processing in the human parietofrontal network for reaches and saccades. J Neurophysiol 101:3053–3062

Gallivan JP, McLean DA, Smith FW, Culham JC (2011) Decoding effector-dependent and effector-independent movement intentions from human parieto-frontal brain activity. J Neurosci 31:17149–17168

Heed T, Beurze SM, Toni I, Röder B, Medendorp WP (2011) Functional rather than effector-specific organization of human posterior parietal cortex. J Neurosci 31:3066–3076

Macaluso E, Frith CD, Driver J (2007) Delay activity and sensory-motor translation during planned eye or hand movements to visual or tactile targets. J Neurophysiol 98:3081–3094

Jonikaitis D, Deubel H (2011) Independent allocation of attention to eye and hand targets in coordinated eye–hand movements. Psychol Sci A J Am Psychol Soc 22:339–347

Binsted G, Chua R, Helsen W, Elliott D (2001) Eye–hand coordination in goal-directed aiming. Hum Mov Sci 20:563–585

Aglioti S, DeSouza JF, Goodale MA (1995) Size-contrast illusions deceive the eye but not the hand. Curr Biol 5:679–685

de Grave DDJ, Franz VH, Gegenfurtner KR (2006) The influence of the Brentano illusion on eye and hand movements. J Vis 6:727–738

Gribble PL, Everling S, Ford K, Mattar A (2002) Hand–eye coordination for rapid pointing movements. Exp Brain Res 145:372–382

Carpenter RHS, Williams MLL (1995) Neural computation of log likelihood in control of saccadic eye movements. Nature 377:59–62

Ratcliff R (1978) A theory of memory retrieval. Psychol Rev 85:59–108

Smith PL, Ratcliff R (2004) Psychology and neurobiology of simple decisions. Trends Neurosci 27:161–168

Ratcliff R, Van Dongen HPA (2011) Diffusion model for one-choice reaction-time tasks and the cognitive effects of sleep deprivation. Proc Natl Acad Sci USA 108:11285–11290

Ratcliff R (1980) A note on modeling accumulation of information when the rate of accumulation changes over time. J Math Psychol 84:178–184

Carpenter RH (1981) Oculomotor procrastination. Eye Mov Cogn Vis Percept 237–246

Wagenmakers E-J, Brown S (2007) On the linear relation between the mean and the standard deviation of a response time distribution. Psychol Rev 114:830–841

Wagenmakers E-J, Grasman RPPP, Molenaar PCM (2005) On the relation between the mean and the variance of a diffusion model response time distribution. J Math Psychol 49:195–204

Jana S, Gopal A, Murthy A (2017) Evidence of common and separate eye and hand accumulators underlying flexible eye–hand coordination. J Neurophysiol 117:348–364