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Geoffrey J. Goodhill
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2020 – today
- 2022
- [j33]Nicholas V. Swindale, Geoffrey J. Goodhill
:
Editorial: Cortical Maps: Data and Models. Frontiers Neuroinformatics 16 (2022) - [j32]Marcus Anthony Triplett, Geoffrey J. Goodhill
Inference of Multiplicative Factors Underlying Neural Variability in Calcium Imaging Data. Neural Comput. 34(5): 1143-1169 (2022) - 2020
- [j31]Jan Mölter
Limitations to Estimating Mutual Information in Large Neural Populations. Entropy 22(4): 490 (2020) - [j30]Marcus Anthony Triplett, Zac Pujic, Biao Sun
Model-based decoupling of evoked and spontaneous neural activity in calcium imaging data. PLoS Comput. Biol. 16(11) (2020)
2010 – 2019
- 2018
- [j29]Brendan A. Bicknell
Control of neurite growth and guidance by an inhibitory cell-body signal. PLoS Comput. Biol. 14(6) (2018) - [j28]Marcus Anthony Triplett, Lilach Avitan
Emergence of spontaneous assembly activity in developing neural networks without afferent input. PLoS Comput. Biol. 14(9) (2018) - 2017
- [j27]Nicholas J. Hughes, Geoffrey J. Goodhill
Estimating Cortical Feature Maps with Dependent Gaussian Processes. IEEE Trans. Pattern Anal. Mach. Intell. 39(10): 1918-1928 (2017) - 2016
- [j26]Kelsey Chalmers, Elizabeth M. Kita
Quantitative Analysis of Axonal Branch Dynamics in the Developing Nervous System. PLoS Comput. Biol. 12(3) (2016) - [c8]Jackson Y. Huang, Nicholas J. Hughes, Geoffrey J. Goodhill
Segmenting Neuronal Growth Cones Using Deep Convolutional Neural Networks. DICTA 2016: 1-7 - 2015
- [j25]Nicholas J. Hughes, Geoffrey J. Goodhill
Optimizing the Representation of Orientation Preference Maps in Visual Cortex. Neural Comput. 27(1): 32-41 (2015) - 2014
- [j24]Clare E. Giacomantonio, Geoffrey J. Goodhill
A computational model of the effect of gene misexpression on the development of cortical areas. Biol. Cybern. 108(2): 203-221 (2014) - [j23]Nicholas J. Hughes, Jonathan J. Hunt, Shaun L. Cloherty
Stripe-rearing changes multiple aspects of the structure of primary visual cortex. NeuroImage 95: 305-319 (2014) - [r1]Geoffrey J. Goodhill:
Cortical Maps, Intrinsic Processes. Encyclopedia of Computational Neuroscience 2014 - 2013
- [j22]Jiajia Yuan, Stanley Chan, Duncan Mortimer, Huyen Nguyen, Geoffrey J. Goodhill
Optimality and Saturation in Axonal Chemotaxis. Neural Comput. 25(4): 833-853 (2013) - [j21]Jonathan J. Hunt, Peter Dayan
Sparse Coding Can Predict Primary Visual Cortex Receptive Field Changes Induced by Abnormal Visual Input. PLoS Comput. Biol. 9(5) (2013) - [j20]Geoffrey J. Goodhill:
Axonal growth and guidance. Scholarpedia 8(10): 1663 (2013) - 2012
- [j19]Jonathan J. Hunt, Michael R. Ibbotson
Sparse Coding on the Spot: Spontaneous Retinal Waves Suffice for Orientation Selectivity. Neural Comput. 24(9): 2422-2433 (2012) - 2011
- [j18]Hugh D. Simpson
A simple model can unify a broad range of phenomena in retinotectal map development. Biol. Cybern. 104(1-2): 9-29 (2011) - [j17]Duncan Mortimer, Peter Dayan
Bayes-Optimal Chemotaxis. Neural Comput. 23(2): 336-373 (2011) - [j16]Elizabeth M. Forbes
The Combinatorics of Neurite Self-Avoidance. Neural Comput. 23(11): 2746-2769 (2011) - [i1]Miguel Á. Carreira-Perpiñán, Geoffrey J. Goodhill:
Generalised elastic nets. CoRR abs/1108.2840 (2011) - 2010
- [j15]Clare E. Giacomantonio, Michael R. Ibbotson
The influence of restricted orientation rearing on map structure in primary visual cortex. NeuroImage 52(3): 875-883 (2010) - [j14]Clare E. Giacomantonio, Geoffrey J. Goodhill
A Boolean Model of the Gene Regulatory Network Underlying Mammalian Cortical Area Development. PLoS Comput. Biol. 6(9) (2010)
2000 – 2009
- 2009
- [j13]Jonathan J. Hunt, Clare E. Giacomantonio, Huajin Tang, Duncan Mortimer, Sajjida Jaffer, Vasily Vorobyov
Natural scene statistics and the structure of orientation maps in the visual cortex. NeuroImage 47(1): 157-172 (2009) - 2006
- [j12]Geoffrey J. Goodhill:
Computational Maps in the Visual Cortex [Book Review]. IEEE Comput. Intell. Mag. 1(3): 54-55 (2006) - 2005
- [c7]Miguel Á. Carreira-Perpiñán, Peter Dayan, Geoffrey J. Goodhill:
Differential Priors for Elastic Nets. IDEAL 2005: 335-342 - 2004
- [j11]Geoffrey J. Goodhill
Predicting Axonal Response to Molecular Gradients with a Computational Model of Filopodial Dynamic. Neural Comput. 16(11): 2221-2243 (2004) - 2003
- [j10]Geoffrey J. Goodhill
A Theoretical Model of Axon Guidance by the Robo Code. Neural Comput. 15(3): 549-564 (2003) - 2002
- [j9]Miguel Á. Carreira-Perpiñán, Geoffrey J. Goodhill
Are Visual Cortex Maps Optimized for Coverage? Neural Comput. 14(7): 1545-1560 (2002) - 2001
- [j8]Karin Haese, Geoffrey J. Goodhill
Auto-SOM: Recursive Parameter Estimation for Guidance of Self-Organizing Feature Maps. Neural Comput. 13(3): 595-619 (2001) - 2000
- [j7]Andrei Cimponeriu, Geoffrey J. Goodhill
Dynamics of cortical map development in the elastic net model. Neurocomputing 32-33: 83-90 (2000)
1990 – 1999
- 1999
- [j6]Jeffrey S. Urbach
Limitations on detection of gradients of diffusible chemicals by axons. Neurocomputing 26-27: 39-43 (1999) - 1998
- [j5]Geoffrey J. Goodhill
Axon Guidance: Stretching Gradients to the Limit. Neural Comput. 10(3): 521-527 (1998) - 1997
- [j4]Geoffrey J. Goodhill
A Unifying Objective Function for Topographic Mappings. Neural Comput. 9(6): 1291-1303 (1997) - [c6]Geoffrey J. Goodhill, Terrence J. Sejnowski:
Objective Functions for Topography: A Comparison of Optimal Maps. NCPW 1997: 73-83 - [c5]Geoffrey J. Goodhill:
Gradients for Retinotectal Mapping. NIPS 1997: 152-158 - [c4]Geoffrey J. Goodhill:
A Mathematical Model of Axon Guidance by Diffusible Factors. NIPS 1997: 159-165 - 1995
- [c3]Geoffrey J. Goodhill, Steven Finch, Terrence J. Sejnowski:
Optimizing Cortical Mappings. NIPS 1995: 330-336 - 1994
- [j3]Geoffrey J. Goodhill, Harry G. Barrow:
The Role of Weight Normalization in Competitive Learning. Neural Comput. 6(2): 255-269 (1994) - [j2]Geoffrey J. Goodhill, David J. Willshaw:
Elastic Net Model of Ocular Dominance: Overall Stripe Pattern and Monocular Deprivation. Neural Comput. 6(4): 615-621 (1994) - 1993
- [j1]Geoffrey J. Goodhill
Topography and ocular dominance: a model exploring positive correlations. Biol. Cybern. 69(2): 109-118 (1993) - 1992
- [c2]Geoffrey J. Goodhill:
Topography and Ocular Dominance with Positive Correlations. NIPS 1992: 985-992 - 1991
- [c1]Peter Dayan, Geoffrey J. Goodhill:
Perturbing Hebbian Rules. NIPS 1991: 19-26
Coauthor Index
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