ModelDB: Citation Relationship

Citation Relationships

Carlson BA, Kawasaki M (2006) Ambiguous encoding of stimuli by primary sensory afferents causes a lack of independence in the perception of multiple stimulus attributes. J Neurosci 26:9173-83 [PubMed]

•	Ambiguous Encoding and Distorted Perception (Carlson and Kawasaki 2006)


References and models cited by this paper		References and models that cite this paper
Anderson DJ, Rose JE, Hind JE, Brugge JF (1971) Temporal position of discharges in single auditory nerve fibers within the cycle of a sine-wave stimulus: frequency and intensity effects. J Acoust Soc Am 49:Suppl 2:1131+ [PubMed] Anstis S (2004) Factors affecting footsteps: contrast can change the apparent speed, amplitude and direction of motion. Vision Res 44:2171-8 [Journal] [PubMed] Anstis S (2006) Moving objects appear to slow down at low contrasts. Neural Netw 16:933-8 Assad C, Rasnow B, Stoddard PK (1999) Electric organ discharges and electric images during electrolocation. J Exp Biol 202:1185-93 [PubMed] Bastian J, Chacron MJ, Maler L (2002) Receptive field organization determines pyramidal cell stimulus-encoding capability and spatial stimulus selectivity. J Neurosci 22:4577-90 [Journal] [PubMed] Bell C, Maler L (2005) Central neuroanatomy of electrosensory systems in fish Electroreception, Bullock TH:Hopkins CD:Popper AN:Fay RR, ed. pp.68 Bialek W, Rieke F, de Ruyter van Steveninck RR, Warland D (1991) Reading a neural code. Science 252:1854-7 [PubMed] Bullock TH, Bodznick DA, Northcutt RG (1983) The phylogenetic distribution of electroreception: evidence for convergent evolution of a primitive vertebrate sense modality. Brain Res 287:25-46 [PubMed] Bullock TH, Hamstra RH, Scheich H (1972) The jamming avoidance response of high frequency electric fish I and II J Comp Physiol 77:1-48 Carlson BA (2006) A neuroethology of electrocommunication: senders, receivers, and everything in between Communication in Fishes, Ladich F:Collin SP:Moller P:Kapoor BG, ed. Carlson BA, Kawasaki M (2004) Nonlinear response properties of combination-sensitive electrosensory neurons in the midbrain of Gymnarchus niloticus. J Neurosci 24:8039-48 [Journal] [PubMed] Carr CE, Heiligenberg W, Rose GJ (1986) A time-comparison circuit in the electric fish midbrain. I. Behavior and physiology. J Neurosci 6:107-19 [PubMed] Carr CE, Maler L (1986) Electroreception in gymnotiform fish: central anatomy and physiology Electroreception, Bullock TH:Heiligenberg W, ed. pp.319 Carr CE, Maler L, Taylor B (1986) A time-comparison circuit in the electric fish midbrain. II. Functional morphology. J Neurosci 6:1372-83 [PubMed] Chacron MJ, Maler L, Bastian J (2005) Electroreceptor neuron dynamics shape information transmission. Nat Neurosci 8:673-8 [Journal] [PubMed] Dallos P (1986) Neurobiology of cochlear inner and outer hair cells: intracellular recordings. Hear Res 22:185-98 [PubMed] Eagleman DM (2001) Visual illusions and neurobiology. Nat Rev Neurosci 2:920-6 [Journal] [PubMed] Feng AS, Bullock TH (1977) Neuronal mechanisms for object discrimination in the weakly electric fish Eigenmannia virescens. J Exp Biol 66:141-58 [PubMed] Gabbiani F, Koch C (1998) Principles of spike train analysis Methods In Neuronal Modeling: From Ions To Networks, Segev I, ed. pp.313 Gabbiani F, Metzner W (1999) Encoding and processing of sensory information in neuronal spike trains J Exp Biol 202:1267-79 [PubMed] Gabbiani F, Metzner W, Wessel R, Koch C (1996) From stimulus encoding to feature extraction in weakly electric fish. Nature 384:564-7 [Journal] [PubMed] Hartmann WM (1978) The effect of amplitude envelope on the pitch of sine wave tones. J Acoust Soc Am 63:1105-13 [PubMed] Heiligenberg W (1973) Electrolocation of objects in the electric fish Eigenmannia(Rhamphichthyidae Gymnotoidei) J Comp Physiol 87:137-164 Heiligenberg W (1991) Neural Nets In Electric Fish Heiligenberg W, Baker C, Matsubara J (1978) The jamming avoidance response in Eigenmannia revisited: the structure of a neuronal democracy J Comp Physiol A Neuroethol Sens Neural Behav Physiol 127:267-286 Heiligenberg W, Rose G (1985) Phase and amplitude computations in the midbrain of an electric fish: intracellular studies of neurons participating in the jamming avoidance response of Eigenmannia. J Neurosci 5:515-31 [PubMed] Heiligenberg WF, Bastian J (1980) The control of Eigenmannias pacemaker by distributed evaluation of electroreceptive afferences J Comp Physiol 136:113-133 Heiligenberg WF, Partridge BL (295) How electroreceptors encode JAR eliciting stimulus regimes: reading trajectories in a phase-amplitude plane J Comp Physiol 142:295-308 Kawasaki M (1994) The African wave-type electric fish, Gymnarchus niloticus, lacks corollary discharge mechanisms for electrosensory gating. J Comp Physiol A 174:133-44 [PubMed] Kawasaki M (2005) Physiology of tuberous electrosensory systems Electroreception, Bullock TH:Hopkins CD:Popper AN:Fay RR, ed. pp.154 Krahe R, Kreiman G, Gabbiani F, Koch C, Metzner W (2002) Stimulus encoding and feature extraction by multiple sensory neurons. J Neurosci 22:2374-82 [PubMed] Kreiman G, Krahe R, Metzner W, Koch C, Gabbiani F (2000) Robustness and variability of neuronal coding by amplitude-sensitive afferents in the weakly electric fish eigenmannia. J Neurophysiol 84:189-204 [Journal] [PubMed] Maler L, Sas EK, Rogers J (1981) The cytology of the posterior lateral line lobe of high-frequency weakly electric fish (Gymnotidae): dendritic differentiation and synaptic specificity in a simple cortex. J Comp Neurol 195:87-139 Mathieson WB, Heiligenberg W, Maler L (1987) Ultrastructural studies of physiologically identified electrosensory afferent synapses in the gymnotiform fish, Eigenmannia. J Comp Neurol 255:526-37 [Journal] [PubMed] Metzner W, Koch C, Wessel R, Gabbiani F (1998) Feature extraction by burst-like spike patterns in multiple sensory maps. J Neurosci 18:2283-300 [PubMed] Nelson ME (2005) Target detection, image analysis, and modeling Electroreception, Bullock TH:Hopkins CD:Popper AN:Fay RR, ed. pp.290 Nelson ME, Maciver MA (1999) Prey capture in the weakly electric fish Apteronotus albifrons: sensory acquisition strategies and electrosensory consequences. J Exp Biol 202:1195-203 [PubMed] Neuhoff JG, McBeath MK (1996) The Doppler illusion: the influence of dynamic intensity change on perceived pitch. J Exp Psychol Hum Percept Perform 22:970-85 [PubMed] Nieder A (2002) Seeing more than meets the eye: processing of illusory contours in animals. J Comp Physiol A Neuroethol Sens Neural Behav Physiol 188:249-60 [Journal] [PubMed] Oswald AM, Chacron MJ, Doiron B, Bastian J, Maler L (2004) Parallel processing of sensory input by bursts and isolated spikes. J Neurosci 24:4351-62 [Journal] [PubMed] Rieke F, Warland D, de Ruyter van Steveninck, R, Bialek B (1997) Spikes: Exploring The Neural Code Rose G, Heiligenberg W (1985) Temporal hyperacuity in the electric sense of fish. Nature 318:178-80 [PubMed] Rose G, Heiligenberg W (1986) Neural coding of difference frequencies in the midbrain of the electric fish Eigenmannia: reading the sense of rotation in an amplitude-phase plane. J Comp Physiol A 158:613-24 [PubMed] Rose G, Keller C, Heiligenberg W (1987) 'Ancestral' neural mechanisms of electrolocation suggest a substrate for the evolution of the jamming avoidance response. J Comp Physiol A 160:491-500 [PubMed] Rossing TD, Houtsma AJ (1986) Effects of signal envelope on the pitch of short sinusoidal tones. J Acoust Soc Am 79:1926-33 [PubMed] Ruggero MA (1992) Physiology and coding of sound in the auditory nerve Springer Handbook Of Auditory Research The Mammalian Auditory Pathway: Neurophysiology, Popper AN:Fay RR, ed. pp.34 Scheich H, Bullock TH, Hamstra RH (1973) Coding properties of two classes of afferent nerve fibers: high-frequency electroreceptors in the electric fish, Eigenmannia. J Neurophysiol 36:39-60 [Journal] [PubMed] Spillmann L, Dresp B (1995) Phenomena of illusory form: can we bridge the gap between levels of explanation? Perception 24:1333-64 [Journal] [PubMed] Takizawa Y, Rose GJ, Kawasaki M (1999) Resolving competing theories for control of the jamming avoidance response: the role of amplitude modulations in electric organ discharge decelerations. J Exp Biol 202:1377-86 [PubMed] Viancour TA (1979) Electroreceptors of a weakly electric fish. I. Characterization of tuberous receptor organ tuning J Comp Physiol 133:317-326 von der Emde G (1999) Active electrolocation of objects in weakly electric fish J Exp Biol 202:1205-15 [PubMed] von_der_Emde G (1998) Capacitance detection in the wave-type electric fish Eigenmannia during active electrolocation J Comp Physiol A Neuroethol Sens Neural Behav Physiol 182:217-224 Wade NJ (2004) Perception and illusion: historical perspectives Wessel R, Koch C, Gabbiani F (1996) Coding of time-varying electric field amplitude modulations in a wave-type electric fish. J Neurophysiol 75:2280-93 [Journal] [PubMed] Zakon HH (1986) The electroreceptive periphery Electroreception, Bullock TH:Heilingenberg W, ed. pp.103

References and models cited by this paper

References and models that cite this paper

Anderson DJ, Rose JE, Hind JE, Brugge JF (1971) Temporal position of discharges in single auditory nerve fibers within the cycle of a sine-wave stimulus: frequency and intensity effects. J Acoust Soc Am 49:Suppl 2:1131+ [PubMed]

Anstis S (2004) Factors affecting footsteps: contrast can change the apparent speed, amplitude and direction of motion. Vision Res 44:2171-8 [Journal] [PubMed]

Anstis S (2006) Moving objects appear to slow down at low contrasts. Neural Netw 16:933-8

Assad C, Rasnow B, Stoddard PK (1999) Electric organ discharges and electric images during electrolocation. J Exp Biol 202:1185-93 [PubMed]

Bastian J, Chacron MJ, Maler L (2002) Receptive field organization determines pyramidal cell stimulus-encoding capability and spatial stimulus selectivity. J Neurosci 22:4577-90 [Journal] [PubMed]

Bell C, Maler L (2005) Central neuroanatomy of electrosensory systems in fish Electroreception, Bullock TH:Hopkins CD:Popper AN:Fay RR, ed. pp.68

Bialek W, Rieke F, de Ruyter van Steveninck RR, Warland D (1991) Reading a neural code. Science 252:1854-7 [PubMed]

Bullock TH, Bodznick DA, Northcutt RG (1983) The phylogenetic distribution of electroreception: evidence for convergent evolution of a primitive vertebrate sense modality. Brain Res 287:25-46 [PubMed]

Bullock TH, Hamstra RH, Scheich H (1972) The jamming avoidance response of high frequency electric fish I and II J Comp Physiol 77:1-48

Carlson BA (2006) A neuroethology of electrocommunication: senders, receivers, and everything in between Communication in Fishes, Ladich F:Collin SP:Moller P:Kapoor BG, ed.

Carlson BA, Kawasaki M (2004) Nonlinear response properties of combination-sensitive electrosensory neurons in the midbrain of Gymnarchus niloticus. J Neurosci 24:8039-48 [Journal] [PubMed]

Carr CE, Heiligenberg W, Rose GJ (1986) A time-comparison circuit in the electric fish midbrain. I. Behavior and physiology. J Neurosci 6:107-19 [PubMed]

Carr CE, Maler L (1986) Electroreception in gymnotiform fish: central anatomy and physiology Electroreception, Bullock TH:Heiligenberg W, ed. pp.319

Carr CE, Maler L, Taylor B (1986) A time-comparison circuit in the electric fish midbrain. II. Functional morphology. J Neurosci 6:1372-83 [PubMed]

Chacron MJ, Maler L, Bastian J (2005) Electroreceptor neuron dynamics shape information transmission. Nat Neurosci 8:673-8 [Journal] [PubMed]

Dallos P (1986) Neurobiology of cochlear inner and outer hair cells: intracellular recordings. Hear Res 22:185-98 [PubMed]

Eagleman DM (2001) Visual illusions and neurobiology. Nat Rev Neurosci 2:920-6 [Journal] [PubMed]

Feng AS, Bullock TH (1977) Neuronal mechanisms for object discrimination in the weakly electric fish Eigenmannia virescens. J Exp Biol 66:141-58 [PubMed]

Gabbiani F, Koch C (1998) Principles of spike train analysis Methods In Neuronal Modeling: From Ions To Networks, Segev I, ed. pp.313

Gabbiani F, Metzner W (1999) Encoding and processing of sensory information in neuronal spike trains J Exp Biol 202:1267-79 [PubMed]

Gabbiani F, Metzner W, Wessel R, Koch C (1996) From stimulus encoding to feature extraction in weakly electric fish. Nature 384:564-7 [Journal] [PubMed]

Hartmann WM (1978) The effect of amplitude envelope on the pitch of sine wave tones. J Acoust Soc Am 63:1105-13 [PubMed]

Heiligenberg W (1973) Electrolocation of objects in the electric fish Eigenmannia(Rhamphichthyidae Gymnotoidei) J Comp Physiol 87:137-164

Heiligenberg W (1991) Neural Nets In Electric Fish

Heiligenberg W, Baker C, Matsubara J (1978) The jamming avoidance response in Eigenmannia revisited: the structure of a neuronal democracy J Comp Physiol A Neuroethol Sens Neural Behav Physiol 127:267-286

Heiligenberg W, Rose G (1985) Phase and amplitude computations in the midbrain of an electric fish: intracellular studies of neurons participating in the jamming avoidance response of Eigenmannia. J Neurosci 5:515-31 [PubMed]

Heiligenberg WF, Bastian J (1980) The control of Eigenmannias pacemaker by distributed evaluation of electroreceptive afferences J Comp Physiol 136:113-133

Heiligenberg WF, Partridge BL (295) How electroreceptors encode JAR eliciting stimulus regimes: reading trajectories in a phase-amplitude plane J Comp Physiol 142:295-308

Kawasaki M (1994) The African wave-type electric fish, Gymnarchus niloticus, lacks corollary discharge mechanisms for electrosensory gating. J Comp Physiol A 174:133-44 [PubMed]

Kawasaki M (2005) Physiology of tuberous electrosensory systems Electroreception, Bullock TH:Hopkins CD:Popper AN:Fay RR, ed. pp.154

Krahe R, Kreiman G, Gabbiani F, Koch C, Metzner W (2002) Stimulus encoding and feature extraction by multiple sensory neurons. J Neurosci 22:2374-82 [PubMed]

Kreiman G, Krahe R, Metzner W, Koch C, Gabbiani F (2000) Robustness and variability of neuronal coding by amplitude-sensitive afferents in the weakly electric fish eigenmannia. J Neurophysiol 84:189-204 [Journal] [PubMed]

Maler L, Sas EK, Rogers J (1981) The cytology of the posterior lateral line lobe of high-frequency weakly electric fish (Gymnotidae): dendritic differentiation and synaptic specificity in a simple cortex. J Comp Neurol 195:87-139

Mathieson WB, Heiligenberg W, Maler L (1987) Ultrastructural studies of physiologically identified electrosensory afferent synapses in the gymnotiform fish, Eigenmannia. J Comp Neurol 255:526-37 [Journal] [PubMed]

Metzner W, Koch C, Wessel R, Gabbiani F (1998) Feature extraction by burst-like spike patterns in multiple sensory maps. J Neurosci 18:2283-300 [PubMed]

Nelson ME (2005) Target detection, image analysis, and modeling Electroreception, Bullock TH:Hopkins CD:Popper AN:Fay RR, ed. pp.290

Nelson ME, Maciver MA (1999) Prey capture in the weakly electric fish Apteronotus albifrons: sensory acquisition strategies and electrosensory consequences. J Exp Biol 202:1195-203 [PubMed]

Neuhoff JG, McBeath MK (1996) The Doppler illusion: the influence of dynamic intensity change on perceived pitch. J Exp Psychol Hum Percept Perform 22:970-85 [PubMed]

Nieder A (2002) Seeing more than meets the eye: processing of illusory contours in animals. J Comp Physiol A Neuroethol Sens Neural Behav Physiol 188:249-60 [Journal] [PubMed]

Oswald AM, Chacron MJ, Doiron B, Bastian J, Maler L (2004) Parallel processing of sensory input by bursts and isolated spikes. J Neurosci 24:4351-62 [Journal] [PubMed]

Rieke F, Warland D, de Ruyter van Steveninck, R, Bialek B (1997) Spikes: Exploring The Neural Code

Rose G, Heiligenberg W (1985) Temporal hyperacuity in the electric sense of fish. Nature 318:178-80 [PubMed]

Rose G, Heiligenberg W (1986) Neural coding of difference frequencies in the midbrain of the electric fish Eigenmannia: reading the sense of rotation in an amplitude-phase plane. J Comp Physiol A 158:613-24 [PubMed]

Rose G, Keller C, Heiligenberg W (1987) 'Ancestral' neural mechanisms of electrolocation suggest a substrate for the evolution of the jamming avoidance response. J Comp Physiol A 160:491-500 [PubMed]

Rossing TD, Houtsma AJ (1986) Effects of signal envelope on the pitch of short sinusoidal tones. J Acoust Soc Am 79:1926-33 [PubMed]

Ruggero MA (1992) Physiology and coding of sound in the auditory nerve Springer Handbook Of Auditory Research The Mammalian Auditory Pathway: Neurophysiology, Popper AN:Fay RR, ed. pp.34

Scheich H, Bullock TH, Hamstra RH (1973) Coding properties of two classes of afferent nerve fibers: high-frequency electroreceptors in the electric fish, Eigenmannia. J Neurophysiol 36:39-60 [Journal] [PubMed]

Spillmann L, Dresp B (1995) Phenomena of illusory form: can we bridge the gap between levels of explanation? Perception 24:1333-64 [Journal] [PubMed]

Takizawa Y, Rose GJ, Kawasaki M (1999) Resolving competing theories for control of the jamming avoidance response: the role of amplitude modulations in electric organ discharge decelerations. J Exp Biol 202:1377-86 [PubMed]

Viancour TA (1979) Electroreceptors of a weakly electric fish. I. Characterization of tuberous receptor organ tuning J Comp Physiol 133:317-326

von der Emde G (1999) Active electrolocation of objects in weakly electric fish J Exp Biol 202:1205-15 [PubMed]

von_der_Emde G (1998) Capacitance detection in the wave-type electric fish Eigenmannia during active electrolocation J Comp Physiol A Neuroethol Sens Neural Behav Physiol 182:217-224

Wade NJ (2004) Perception and illusion: historical perspectives

Wessel R, Koch C, Gabbiani F (1996) Coding of time-varying electric field amplitude modulations in a wave-type electric fish. J Neurophysiol 75:2280-93 [Journal] [PubMed]

Zakon HH (1986) The electroreceptive periphery Electroreception, Bullock TH:Heilingenberg W, ed. pp.103

(55 refs)