GENERAL
Hoffmann KP Wehrhahn C (2001) Zentrale Sehsysteme. Neurowissenschaft, 2nd edition. (Eds) Dudel J Menzel R Schmidt RF,
Springer Verlag, Berlin, Germany, pp 407-428
Bonnet C Wehrhahn C (1999) What has the psychology of human perception learned from animal
studies? Animal Models of Human Emotion and Cognition, (Eds) Haug M Whalen RE. American Psychological
Association, Washington, D.C. pp 143-156
Wehrhahn
C (1994) Der lange
Weg vom Reiz
zur Erkenntnis. Sueddeutsche Zeitung 75: 37
Wehrhahn
C (1993) A way to understand the brain? Aspects of modelling in
neurobiology. Futura 8: 4-9
Wehrhahn C (1990) Farben
sehen. In: Farben in
Tirol. (Eds) Wilander H Bodini G, Arunda Verlag, Meran, Italy pp 70-74
Wehrhahn C (1989) Neural Darwinism. American Scientist 77: 731-732
PRIMATE VISION
Anstis S Gori S Wehrhahn C (2007) Afterimages and
the breathing light illusion. Last but not least. Perception 36: 791-794
Wehrhahn C (2006) Reversed phi revisited.
Journal of Vision 6: 1018-1025
van der Smagt MJ Wehrhahn C Albright TD (2005) Contextual Masking
of Oriented Lines: Interactions between Surface Segmentation Cues. J
Neurophysiology 94, 576-589 [doi,
10.1152/jn.00366.2004]
Teufel HJ Wehrhahn C (2004) Chromatic induction
in humans: How are the cone signals combined to provide opponent processing?
Vision Research 44: 2425-2435
Wehrhahn C (2003) The receptive field in
V1: an unexpected result. Modulation of neuronal responses: Implications for
Active Vision. (Eds) Buracas GT Ruksenas
O Boynton GM Albright TD, IOS Press, Amsterdam, NL. pp
219-225
Teufel HJ Wehrhahn C (2002) From tristimulus color space to cone
space. Annual Meeting of the International Society for Psychophysics 18:
539-545. (Eds) Da Silva JA
Matsushima EH Riebero-Filhos NP, The International
Society for Psychophysics, Rio de Janeiro, RJ, Brazil
Wehrhahn C (2002) Color
and cone fundamentals.
Annual Meeting of the International Society for Psychophysics 18: 569-574. (Eds) Da Silva JA Matsushima EH Ribeiro-Filho NP. The International Society for
Psychophysics, Rio de Janeiro, RJ, Brazil
Hoffmann KP Wehrhahn C (2001) Zentrale Sehsysteme. Neurowissenschaft,
2nd edition, (Eds) Dudel
J Menzel R Schmidt RF, Springer Verlag,
Berlin, Germany, pp 407-428
Li W Thier P
Wehrhahn C (2001) Neuronal responses from beyond the classic receptive field in
V1 of alert monkeys.
Experimental Brain Research 139: 359-371
Wehrhahn C Rapf
D (2001) Perceptual learning of apparent motion is mediated through ON- and
OFF-pathways in human vision. Vision Research 41: 353-358
Teufel HJ Wehrhahn C (200)
Evidence for the contribution of S-cones to the detection of flicker brightness
and red-green.
Journal of the Optical Society of America A 17: 994-1006
Li W Thier P
Wehrhahn C (2000) Contextual influence on orientation discrimination of humans
and responses of neurons in V1 of alert monkeys. Journal of Neurophysiology 83:
941-954
Wehrhahn C (2000a) Retinal coding for vernier acuity and motion. In: Prerational
Intelligence: Adaptive Behavior and Intelligent
Systems Without Symbols and Logic, Vol. I, (Eds)
Cruse H Dean J Ritter H Kluwer, Dordrecht, Netherlands, pp 151-162
Wehrhahn C (200b) Evidence for perceptual
learning in vision.
In: Prerational Intelligence: Adaptive Behavior and Intelligent Systems Without Symbols and Logic,
Vol. II, (Eds) Cruse H Dean J Ritter H, Kluwer, Dordrecht, Netherlands, pp 681-691
Westheimer G Brincat S
Wehrhahn C (1999) Contrast dependency of foveal
spatial functions: orientation, vernier, separation,
blur and displacement discrimination and the tilt and Poggendorff
illusions. Vision Research 39: 1631-1639
Bonnet C Wehrhahn (1999) What has the psychology of human perception learned from
animal studies? Animal Models of Human Emotion and Cognition, (Eds.) M. Haug, R.E. Whalen. American Psychological Association,
Washington, D.C. pp 143-156
Wehrhahn C Dresp
B (1998) Detection facilitation by collinear stimuli in humans: Dependence on
strength and sign of contrast. Vision Research 38: 423-428
Wachtler T Wehrhahn C (1997) The Craik-O'Brien-Cornsweet illusion in colour: Quantitative
characterisation and comparison with luminance. Perception 26: 1423-1430
Westheimer G Wehrhahn C (1997)
Real and virtual borders in the Poggendorff illusion. Perception 26: 1495-1502
Wachtler T Wehrhahn C Lee BB
(1996) A simple model of human foveal ganglion cell
responses to hyperacuity stimuli. Journal of Computational Neuroscience 3:
73-82
Wehrhahn C Li W Westheimer
G (1996) Patterns that impair discrimination of line orientation in human
vision. Perception 25: 1053-1064
Hoffmann KP Wehrhahn C (1996) Zentrale Sehsysteme. Neurowissenschaft,
(Eds) Dudel J Menzel R Schmidt RF. Springer Heidelberg, pp. 383-403
Wachtler T Wehrhahn C (1996)
Perception of luminance and color. Comparing functional properties of
detection and induction in human vision. Neurobiology, Ionic
Channels, Neurons, and the Brain. (Eds) Torre
V Conti P, Plenum, New York, pp. 383-389
Lee BB Wehrhahn C Westheimer
G Kremers J (1995) The spatial precision of macaque
retinal ganglion cell responses in relation to vernier
acuity in human observers. Vision Research 35: 2743-2758
Westheimer G Wehrhahn C (1994)
Discrimination of direction of motion in human vision. J. Neurophysiology 71, 33-37
Wehrhahn C (1994) Der
lange Weg
vom Reiz zur Erkenntnis. Sueddeutsche Zeitung , Munich, Germany Vol. 75: 37
Lee BB Wehrhahn C Westheimer
G Kremers J (1993) Macaque ganglion cell responses to
stimuli that elicit hyperacuity in man: detection of
small displacements. J. Neuroscience 13: 1001-1009
Wehrhahn C (1993) A way to understand the
brain? Aspects of modelling in neurobiology. Futura
8: 4-9
Wehrhahn C Westheimer
G (1993) Temporal asynchrony interferes with vernier
acuity. Visual Neuroscience 10: 13-19
Wehrhahn C Rapf
D (1992) ON- and OFF-pathways form separate neural substrates for motion
perception. J. Neuroscience 12: 2247-2250
Wehrhahn C (1992a) Some
quantitative remarks about the retina, the primary visual cortex, and
perception in humans. In: Information processing in the cortex. (Eds) Aertsen A Braitenberg V, Sppringer,
Heidelberg, Germany pp 197 - 186
Wehrhahn C (192b) Temporal resolution in
vision: psychophysical experiments and neural structure. In: Analysis and modeling of neural systems. (Ed) Eeckman
FH, Kluwer Academic Publishers, Dordrecht, Netherlands, pp 199-205
Fahle M Wehrhahn C (1991)
Motion perception in the peripheral visual field. Graefes Arch Clin
Exp Ophthalmol 229:430-436
Wehrhahn C Heide
G and Petersen D (1990) Long-range color interactions
in human visual cortex. Clincal Vision Sciences 5:
401-406
Wehrhahn C Westheimer
G (190) How vernier acuity depends on contrast. Exp
Brain Res 80: 616-618
Wehrhahn C Westheimer
G Abulencia A (1990) Binocular summation in
temporal-order detection. J Opt Soc Am A 7: 731-732
Wehrhahn C (1990) Farben
sehen. In: Farben in
Tirol. (Eds) Wilander H Bodini G, Arunda Verlag, Meran, pp 70-74
Wehrhahn C (1989) Neural Darwinism. American Scientist 77: 731-732
Mitchison G Toulouse G Wehrhahn C (1988) The
temporal integration of 3-D structure from motion: a computational and
psychophysical study. 5, VHC Verlagsgesellschaft m.
b. H., Weinheim, Germany
Wehrhahn C (1987) Comparison of color sensation in dichoptic and
in normal vision. Biol Cybern 57: 213-215
Wehrhahn C (1987) Induced colors in normal and dichoptic
stimulation in man. J Physiol 390: 29-30
INSECTS
Hausen K Wehrhahn C (1990)
Neural circuits mediating visual flight control in flies. II. Separation of two control systems by
microsurgical brain lesions. J Neuroscience 10: 351-360
Hausen K Wehrhahn
C (1989) Neural circuits mediating visual flight control in flies. I. Quantitative comparison of
neural and behavioural response characteristics. J
Neuroscience 9: 3828-3836
Egelhaaf M Hausen K Reichardt WE Wehrhahn C (1988) Visual course control in
flies relies on neuronal computation of object and background motion. TINS 11:
351-358
Feiler R Harris WA Kirschfeld
K Wehrhahn C Zuker CS (1988) Targeted misexpression of a Drosophila opsin
gene leads to altered visual function. Nature 333: 737-741
Werner A Menzel R Wehrhahn C (1988) Color
constancy in the honey bee. J. Neuroscience 8: 156-159
Wehrhahn C Hausen K (1980) How
are tracking and fixation accomplished in the nervous system of the fly? Biol.
Cybernetics 38: 179-186
Wehrhahn C (1979) Sex-specific differences in the chasing behaviour of houseflies (Musca) Biol Cybern 32, 239-241
Wehrhahn C Poggio T (1976) Real-time delayed
tracking in flies. Nature 261: 43-44
Wehrhahn, C (1986) Motion sensitive yaw
torque responses of the housefly Musca: a
quantitative study. Biol Cybern
55: 275-280
Wehrhahn C (1985) Visual guidance of flies
during flight.
In: Comprehensive Insect Physiology, Biochemistry and Pharmacology. (Eds) Kerkut GA Gilbert LI, Pergamon Press, Oxford, pp 673-684
Gštz KG Wehrhahn C (1984) Optomotor control of the force of flight in Drosophila and Musca. I. Homology of wingbeat-inhibiting movement
detectors. Biol Cybern 51:
129-134
Wehrhahn C (1984) Ocellar
vision and orientation in flies. Proc R Soc Lond
B 222: 409-411
BŸlthoff HH Wehrhahn C (1984)
Computation of Motion and Position in the Visual System of the Fly (Musca). Experiments with Uniform Stimulation. Localization and Orientation in Biology and Engineering. (Eds) Varju D Schnitzler HU
Springer-Verlag, Heidelberg, Germany pp 149-152
Wehrhahn C (1984) Visual orientation of
flies in flight. Localization and Orientation in Biology and Engineering,
Localization and Orientation in Biology and Engineering. (Eds) Varju D Schnitzler HU
Springer-Verlag, Heidelberg, Germany pp 112-118
Hausen K Wehrhahn C (1983) Microsurgical lesion
of horizontal cells changes optomotor yaw responses
in the blowfly Calliphora erythrocephala.
Proc R Soc Lond B 219: 211-216
Wehrhahn C Poggio
T BŸlthoff HH (1982) Tracking and Chasing in
Houseflies (Musca). An Analysis of
3-D Flight Trajectories. Biol Cybern 45: 123-130
Wehrhahn C (1981) Fast
and slow flight torque responses in flies and their possible role in visual
orientation behaviour. Biol Cybern
40: 213-221
Wehrhahn C Hausen
K Zanker J (1980) Is the
landing response of the housefly (Musca) driven by
motion of a flow field? Biol Cybern
41: 91-99
BŸlthoff HH Poggio
T Wehrhahn C (1980) 3-D Analysis of the Flight Trajectories of Flies
(Drosophila melanogaster). Z Naturforsch
35c: 811-815
Praagh JP Ribi W
Wehrhahn C Wittmann D (1980) Drone bees fixate the
queen with the dorsal frontal part of their compound eyes. J comp Physiol 136: 263-266
Wehrhahn C (1980) Visual fixation and
tracking in flies. In: Mathematical Models in Molecular and Cellular Biology.
(Ed) Segel LA, Cambridge University Press, Cambridge,
UK pp 568-603
Wehrhahn C Hausen
K (1980) How are tracking and fixation accomplished in
the nervous system of the fly? Biol Cybern 38: 179-186
Wehrhahn C (1979) Sex-specific differences
in the chasing behaviour of houseflies (Musca). Biol Cybern 32: 239-241
Wehrhahn C (1978) The angular orientation
of the movement detectors acting on the flight lift response in flies. Biol Cybern 31: 169-173
Wehrhahn C (1978) Flight torque and lift
responses of the housefly (Musca domestica)
to a single stripe moving in diferent parts of the
visual field. Biol Cybern
29: 237-247
Wehrhahn C (1976) Evidence for the role of
retinal receptors R 7/8 in the orientation behaviour of the fly. Biol Cybern 21: 213-220
Wehrhahn C Poggio
T (1976) Real-time delayed tracking in flies. Nature 261: 43-44
Wehrhahn C Reichardt
(1975) Visually induced height orientation of the fly Musca
domestica. Biol Cybern 20: 37-50
Wehrhahn C Reichardt
W (1973) Visual orientation of the fly Musca domestica towards a horizontally oriented stripe. Naturwissenschaften
60: 203-204
THESES
Wehrhahn C (1974) Verhaltensstudie
zur visuellen Hoehenorientierung der Fliege Musca domestica. Doctoral Dissertation. Max-Planck-Institut fuer biologische
Kybernetik and Dept of Biology, Eberhard-Karls-Universitaet,
Tuebingen
Wehrhahn C (1970) Der Salzfingermechanismus und
seine Anwendung auf die Stabilitaet
von Schichtungen der chemischen Elemente in hochentwickelten Sternen. Diploma Thesis. Sternwarte, Dept of Physics, Georg-August-Universitaet, Goettingen