Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism

Kern R, Egelhaaf M, Srinivasan MV (1997)
Vision Research 37(15): 2103-2117.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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DOI
URN
urn:nbn:de:0070-pub-17848415
Autor*in
Kern, RolandUniBi ; Egelhaaf, MartinUniBi ; Srinivasan, Mandyam V.
Einrichtung
Fakultät für Biologie > Neurobiologie
Stichworte
Vision; Behaviour; Model; Edge detection; Insect
Erscheinungsjahr
1997
Zeitschriftentitel
Vision Research
Band
37
Ausgabe
15
Seite(n)
2103-2117
ISSN
0042-6989
Page URI
https://pub.uni-bielefeld.de/record/1784841

Zitieren

Kern R, Egelhaaf M, Srinivasan MV. Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism. Vision Research. 1997;37(15):2103-2117.
Kern, R., Egelhaaf, M., & Srinivasan, M. V. (1997). Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism. Vision Research, 37(15), 2103-2117. https://doi.org/10.1016/S0042-6989(97)00013-8
Kern, Roland, Egelhaaf, Martin, and Srinivasan, Mandyam V. 1997. “Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism”. Vision Research 37 (15): 2103-2117.
Kern, R., Egelhaaf, M., and Srinivasan, M. V. (1997). Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism. Vision Research 37, 2103-2117.
Kern, R., Egelhaaf, M., & Srinivasan, M.V., 1997. Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism. Vision Research, 37(15), p 2103-2117.
R. Kern, M. Egelhaaf, and M.V. Srinivasan, “Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism”, Vision Research, vol. 37, 1997, pp. 2103-2117.
Kern, R., Egelhaaf, M., Srinivasan, M.V.: Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism. Vision Research. 37, 2103-2117 (1997).
Kern, Roland, Egelhaaf, Martin, and Srinivasan, Mandyam V. “Edge detection by landing honeybees: behavioural analysis and model simulations of the underlying mechanism”. Vision Research 37.15 (1997): 2103-2117.
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6 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Visual motion-sensitive neurons in the bumblebee brain convey information about landmarks during a navigational task.
Mertes M, Dittmar L, Egelhaaf M, Boeddeker N., Front Behav Neurosci 8(), 2014
PMID: 25309374
Prototypical components of honeybee homing flight behavior depend on the visual appearance of objects surrounding the goal.
Braun E, Dittmar L, Boeddeker N, Egelhaaf M., Front Behav Neurosci 6(), 2012
PMID: 22279431
Neuronal encoding of object and distance information: a model simulation study on naturalistic optic flow processing.
Hennig P, Egelhaaf M., Front Neural Circuits 6(), 2012
PMID: 22461769
Spatial vision in insects is facilitated by shaping the dynamics of visual input through behavioral action.
Egelhaaf M, Boeddeker N, Kern R, Kurtz R, Lindemann JP., Front Neural Circuits 6(), 2012
PMID: 23269913
Honeybees as a model for the study of visually guided flight, navigation, and biologically inspired robotics.
Srinivasan MV., Physiol Rev 91(2), 2011
PMID: 21527730
The role of the pattern edge in goldfish visual motion detection.
Kim SH, Jung CS., Korean J Physiol Pharmacol 14(6), 2010
PMID: 21311683

41 References

Daten bereitgestellt von Europe PubMed Central.

Direction- and velocity-specific responses from beyond the classical receptive field in the middle temporal visual area (MT).
Allman J, Miezin F, McGuinness E., Perception 14(2), 1985
PMID: 4069941
Temporal modulation of luminance adapts time constant of fly movement detectors
Borst, Biological Cybernetics 56(), 1987
Principles of visual motion detection.
Borst A, Egelhaaf M., Trends Neurosci. 12(8), 1989
PMID: 2475948
Detecting visual motion: theory and models
Borst, 1993
The contributions of figure and ground textures to segmentation.
Bravo MJ, Blake R., Vision Res. 32(9), 1992
PMID: 1455752
On the neuronal basis of figure-ground discrimination by relative motion in the visual system of the fly. II. Figure-detection cells, a new class of visual interneurones
Egelhaaf, Biological Cybernetics 52(), 1985
Are there separate ON and OFF channels in fly motion vision?
Egelhaaf M, Borst A., Vis. Neurosci. 8(2), 1992
PMID: 1558827
Movement detection in arthropods
Egelhaaf, 1993
Computational structure of a biological motion-detection system as revealed by local detector analysis in the fly's nervous system.
Egelhaaf M, Borst A, Reichardt W., J Opt Soc Am A 6(7), 1989
PMID: 2760723
Dynamic response properties of movement detectors: theoretical analysis and electrophysiological investigation in the visual system of the fly
Egelhaaf, Biological Cybernetics 56(), 1987
Neural mechanisms for detecting object motion and figure-ground boundaries contrasted with self-motion detecting systems
Frost, 1986

Gibson, 1950
Figure-ground separation
Grossberg, 1996
Monocular and binocular computation of motion in the lobula plate of the fly
Hausen, Verhandlungen der Deutschen Zoologischen Gesellschaft 74(), 1981
Über den Helligkeitssinn der Bienen
Hörmann, Zeitschrift fur vergleichende Physiologic 21(), 1935
Wide-field motion-sensitive neurons tuned to horizontal movement in the honeybee, Apis mellifera
Ibbotson, Journal of Comparative Physiology A 168(), 1991
The relationship between visual movement detection and colour vision in insects
Kaiser, 1975
Object detection by relative motion in freely flying flies
Kimmerle, Naturwissenschaften 83(), 1996
Optics and vision in invertebrates
Land, 1981
Spatial vision in the honeybee: the use of different cues in different tasks.
Lehrer M., Vision Res. 34(18), 1994
PMID: 7975277
Object detection by honeybees: why do they land on edges?
Lehrer, Journal of Comparative Physiology A 173(), 1993
Visual edge detection in the honeybee and its chromatic properties
Lehrer, 1990
Motion cues provide the bee's visual world with a third dimension
Lehrer, Nature 332(), 1988
Visual scanning behaviour in honeybees.
Lehrer M, Wehner R, Srinivasan M., J. Comp. Physiol. A 157(4), 1985
PMID: 3837094
Untersuchungen zum Erlernen von Spektralfarben durch die Honigbiene (Apis mellifeca)
Menzel, Zeitschrift fur vergleichende Physiologie 56(), 1967
Über die Orientierung der Biene an der Futterquelle. (Die Bedeutung von Anflug and Orientierungsflug fur den Lernvorgang bei Farb-, Form- and Ortsdressuren.)
Opfinger, Zeitschrift fur vergleichende Physiologic 15(), 1931
Object recognition contributions to figure-ground organization: operations on outlines and subjective contours
Peterson, Perception and Psychophysics 56(), 1994
Figure-ground segregation by motion contrast and by luminance contrast.
Regan D, Beverley KI., J Opt Soc Am A 1(5), 1984
PMID: 6726491
Figure-ground discrimination by relative movement in the visual system of the fly. Part I: Experimental results
Reichardt, Biological Cybernetics 35(), 1979

Rohlf, 1981
Adaptation of transient responses of a movement-sensitive neuron in the visual system of the blowfly, Calliphora erythrocephala
de, Biological Cybernetics 54(), 1986

Sokal, 1981
Temporal acuity of honeybee vision: behavioural studies using moving stimuli
Srinivasan, Journal of Comparative Physiology A 155(), 1984
Visual figureground discrimination in the honeybee: the role of motion parallax at boundaries
Srinivasan, 1990
How honeybees measure their distance from objects of unknown size
Srinivasan, Journal of Comparative Physiology A 165(), 1989
Is pattern vision in insects mediated by “cortical” processing?
Srinivasan, Nature 362(), 1993
Pattern recognition in bees: orientation discrimination
van, Journal of Comparative Physiology A 167(), 1990
Arthropod eye design and the physical limits to spatial resolving power
Warrant, Progress in Neurobiology 40(), 1993
Behavioural evidence for parallel information processing in the visual system of insects
Zhang, Japanese Journal of Physiology 43(), 1993
Prior experience enhances pattern discrimination in insect vision
Zhang, Nature 368(), 1994
Convergent processing in honeybee vision: multiple channels for the recognition of shape
Zhang, 1995
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