Directing the turning behavior of carp using virtual stimulation |
Kim, Cheol-Hu
(Department of Mechanical Engineering Korea Advanced Institute of Science and Technology)
Kim, Dae-Gun (Department of Mechanical Engineering Korea Advanced Institute of Science and Technology) Kim, Daesoo (Department of Biological Sciences Korea Advanced Institute of Science and Technology) Lee, Phill-Seung (Department of Mechanical Engineering Korea Advanced Institute of Science and Technology) |
1 | Douglas, R.H., Bowmaker, J.K. and Kunz-Ramsay, Y.W. (1989), Ultraviolet vision in fish. In Seeing Contour and Colour (ed. J. J. Kulikowski, C. M. Dickinson and I. J. Murray), Pergamon Press, Oxford, United Kingdom. |
2 | Engelmann, J., Hanke, W., Mogdans, J. and Bleckmann, H. (2000), "Hydrodynamic stimuli and the fish lateral line", Nature, 408(6808), 51-52. DOI |
3 | Errigo, M., McGuiness, C., Meadors, S., Mittmann, B., Dodge, F. and Barlow, R. (2001), "Visually guided behavior of juvenile horseshoe crabs", Biol. Bull., 201(2), 271-272. DOI |
4 | Evelyn, Shaw (1978), "Schooling Fishes: The school, a truly egalitarian form of organization in which all members of the group are alike in influence, offers substantial benefits to its participants", Am. Scientist, 66(2), 166-175 |
5 | Fernald, R.D. and Wright, S.E. (1985), "Growth of the visual system in the African cichlid fish (Haplochromis burtoni)", Vis. Res., 25(2), 163-170. DOI |
6 | Gardiner, J.M. and Atema, J. (2007), "Sharks need the lateral line to locate odor sources: rheotaxis and eddy chemotaxis", J. Exp. Biol., 210(11), 1925-1934. DOI |
7 | Griffin, D.R. (2001), "Return to the magic well: echolocation behavior of bats and responses of insect prey", BioScience, 51(7), 555-556. DOI |
8 | Hobson, E.S., McFarland, W.N. and Chess, J.R. (1981), "Crepuscular and nocturnal activities of Californian nearshore fishes, with consideration of their scotopic visual pigments and the photic environment", Fish. Bull., 79(1), 1-30. |
9 | Hodgson, E.S. and Mathewson, R.F. (1971), "Chemosensory orientation in sharks", Ann. NY. Academy Sci., 188(1), 175-182. DOI |
10 | Janssen, J. and Corcoran, J. (1993), "Lateral line stimuli can override vision to determine sunfish strike trajectory", J. Exp. Biol., 176(1), 299-305. |
11 | Alcock, J. (1993), Animal behavior: An evolutionary approach, Apple Academic Press. |
12 | Kanter, M.J. and Coombs, S. (2002), "Rheotaxis and prey detection in uniform currents by Lake Michigan mottled sculpin (Cottus bairdi)", J. Exp. Biol., 206(1), 59-70. DOI |
13 | Kashin, S.M., Feldman, A.G. and Orlovsky, G.N. (1974), "Locomotion of fish evoked by electrical stimulation of the brain", Brain Res., 82(1), 41-47. DOI |
14 | Kim, D.G., Lee, S., Kim, C.H., Jo, S. and Lee, P.S. (2017), "Parasitic robot system for Turtle's waypoint navigation", J. Bionic Eng., In Press. |
15 | Kobayashi, N., Yoshida, M., Matsumoto, N. and Uematsu, K. (2009), "Artificial control of swimming in goldfish by brain stimulation: confirmation of the midbrain nuclei as the swimming center", Neurosci. Lett., 452(1), 42-46. DOI |
16 | Gardiner, J.M. and Atema, J. (2010), "The function of bilateral odor arrival time differences in olfactory orientation of sharks", Curr. Biol., 20(13), 1187-1191. DOI |
17 | Krause, J., Winfield, A.F.T. and Deneubourg, J. (2011), "Interactive robots in experimental biology", Trend. Ecol. Evolut., 26(7), 369-375. DOI |
18 | Lee, S., Kim, C.H., Kim, D.G., Kim, H.G., Lee, P.S. and Myung, H. (2013), "Remote guidance of untrained turtles by controlling voluntary instinct behavior", PLoS ONE, 8(4), e61798. doi:10.1371/journal.pone.0061798 DOI |
19 | Liao, J.C. (2006), "The role of the lateral line and vision on body kinematics and hydrodynamic preference of rainbow trout in turbulent flow", J. Exp. Biol., 209(20), 4077-4090. DOI |
20 | Migita, M., Mizukami, E. and Gunji, Y.P. (2005), "Flexibility in starfish behavior by multi-layered mechanism of self-organization", Biosyst., 82(2), 107-115. DOI |
21 | Montgomery, J. and Coombs, S. (1998), "Peripheral encoding of moving sources by the lateral line system of a sit-and-wait predator", J. Exp. Biol., 201(1), 91-102. |
22 | Shaw, E. (1978), "Schooling Fishes: The school, a truly egalitarian form of organization in which all members of the group are alike in influence, offers substantial benefits to its participants", Am. Scientist, 66(2), 166-175. |
23 | Roeser, T. and Baier, H. (2003), "Visuomotor behaviors in larval zebrafish after GFP-guided laser ablation of the optic tectum", J. Neurosci., 23(9), 3726-3734. DOI |
24 | Sanchez, C.J., Chiu, C.W., Zhou, Y., Gonzalez, J.M., Vinson, S.B. and Liang, H. (2015), "Locomotion control of hybrid cockroach robots", J. Roy. Soc. Interf., 12(105), 20141363. DOI |
25 | Schindler, I., Rice, N.J., McIntosh, R.D., Rossetti, Y., Vighetto, A. and Milner, A.D. (2004) "Automatic avoidance of obstacles is a dorsal stream function: evidence from optic ataxia", Nature Neurosci., 7(7), 779-784. DOI |
26 | Spierts, I.L. and Leeuwen, V.J. (1999), "Kinematics and muscle dynamics of C-and S-starts of carp (Cyprinus carpio L.)", J. Exp. Biol., 202(4), 393-406. |
27 | Sun, C., Zheng, N.G., Zhang, X.L., Chen, W.D. and Zheng, X.X. (2013), "Automatic navigation for ratrobots with modeling of the human guidance", J. Bionic Eng., 10(1), 46-56. DOI |
28 | Sutterlin, A.M. and Waddy, S. (1975), "Possible role of the posterior lateral line in obstacle entrainment by brook trout (Salvelinus fontinalis)", J. Fish. Res. Board Can., 32(12), 2441-2446. DOI |
29 | Talwar, S.K., Xu, S., Hawley, E.S., Weiss, S.A., Moxon, K.A. and Chapin, J.K. (2002), "Rat navigation guided by remote control", Nature, 417(6884), 37-38. DOI |
30 | Arbib, M.A. and Hanson, A.R. (1990), "Vision, brain, and cooperative computation", Mit Press, 129-163 |
31 | Bisazza, A., Cantalupo, C. and Vallortidara, G. (1997), "Lateral asymmetries during escape behavior in a species of teleost fish (Jenynsia lineata)", Physiology Behavior, 61(1), 31-35. DOI |
32 | Blaxter, H.S. and Fuiman, L.A. (1989), Function of the free neuromasts of marine teleost larvae. In The Mechanosensory Lateral Line: Neurobiology and Evolution (ed. S. Coombs, P. Gorner and H. Munz), Springer, New York, NY, USA. |
33 | Britt, W.R., Miller, J., Waggoner, P., Bevly, D.M. and Hamilton, J.A. (2011), "An embedded system for real-time navigation and remote command of a trained canine", Person. Ubiquitous Comput., 15(1), 61-74. DOI |
34 | Conley, R.A. and Coombs, S. (1998), "Dipole source localization by mottled sculpin. III. Orientation after site-specific, unilateral denervation of the lateral line system", J. Comparative Physiol., 183(3), 335-344. DOI |
35 | Coombs, S., Braun, C.B. and Donovan, B. (2001), "The orienting response of Lake Michigan mottled sculpin is mediated by canal neuromasts", J. Experiment. Biol., 204(2), 337-348. |
36 | Coombs, S., Gorner, P. and Munz, H. (1989), The Mechanosensory Lateral Line: Neurobiology and Evolution, Springer-Verlag, New York, NY, USA. |
37 | Daly, D.C., Mercier, P.P., Bhardwaj, M., Stone, A.L., Aldworth, Z.N., Daniel, T.L., Voldman, J., Hildebrand, J.G. and Chandrakasan, A.P. (2010), "A pulsed UWB receiver SoC for insect motion control", Solid-State Circuits IEEE J., 45(1), 153-166. DOI |
38 | Dijkgraaf, S. (1963), "The functioning and significance of the lateral-line organs", Biol. Rev. Cambridge Philosoph. Soc., 38(1), 51-105. DOI |
39 | Montgomery, J., Baker, C. and Carton, A. (1997), "The lateral line can mediate rheotaxis in fish", Nature, 389(6654), 960-963. DOI |
40 | Montgomery, J.C., McDonald, F., Baker, C.F., Carton, A.G. and Ling, N. (2003), "Sensory integration in the hydrodynamic world of rainbow trout", Proc. Roy. Soc. B, 270, S195-S197. DOI |
41 | Parkyn, D.C., Austin, J.D. and Hawryshyn, C.W. (2003), "Acquisition of polarized-light orientation in salmonids under laboratory conditions", Animal Behav., 65(5), 893-904. DOI |
42 | Partridge, B.L. and Pitcher, T.J. (1980), "The sensory basis of fish schools: relative roles of the lateral line and vision", J. Comparat. Phys., 135(4), 315-325. DOI |
43 | Pitcher, T.J., Partridge, B.L. and Wardle, C.S. (1976), "A blind fish can school", Science, 194(4268), 963-965. DOI |
44 | Popper, A.N. and Carlson, T.J. (1998), "Application of sound and other stimuli to control fish behavior", Trans. Am. Fish. Soc., 127(5), 673-707. DOI |
45 | Popper, A.N., Plachta, D.T.T., Mann, D.A. and Higgs, D. (2004), "Response of clupeid fish to ultrasound: a review", ICES J. Marine Sci., 61(7), 1057-1061. DOI |
46 | Tinbergen, N. (1951), The study of instinct, Oxford University. |
47 | Robertson, R.M. and Johnson, A.G. (1993), "Collision avoidance of flying locusts: steering torques and behavior", J. Exp. Biol., 183(1), 35-60. |
48 | Robie, A.A., Straw, A.D. and Dickinson, M.H. (2010), "Object preference by walking fruit flies, Drosophila melanogaster, is mediated by vision and graviperception", J. Exp. Biol., 213(14), 2494-2506. DOI |
49 | Tsang, W.M., Stone, A., Aldworth, Z., Otten, D., Akinwande, A.I., Daniel, T., Hildebrand, J.G., Levine, R. B. and Voldman, J. (2010), "Remote control of a cyborg moth using carbon nanotube-enhanced flexible neuroprosthetic probe. In: Micro Electro Mechanical Systems (MEMS)", 2010 IEEE 23rd International Conference on, 39-42. |