William B. Levy

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2007

33 Danielle Morel, William B. Levy: Persistent sodium is a better linearizing mechanism than the hyperpolarization-activated current. Neurocomputing 70(10-12): 1635-1639 (2007)

32 Patrick Crotty, William B. Levy: Effects of Na⁺ channel inactivation kinetics on metabolic energy costs of action potentials. Neurocomputing 70(10-12): 1652-1656 (2007)

31 Ashlie B. Hocking, William B. Levy: Theta-modulated input reduces intrinsic gamma oscillations in a hippocampal model. Neurocomputing 70(10-12): 2074-2078 (2007)

2006

30 William B. Levy, Ashlie B. Hocking, Xiangbao Wu: Erratum to: Interpreting hippocampal function as recoding and forecasting [Neural Networks 18 (9) 1242-1264]. Neural Networks 19(2): 248 (2006)

29 Patrick Crotty, William B. Levy: Intersymbol interference in axonal transmission. Neurocomputing 69(10-12): 1006-1009 (2006)

28 William B. Levy, Xiangbao Wu: External activity and the freedom to recode. Neurocomputing 69(10-12): 1233-1237 (2006)

27 Xiangbao Wu, William B. Levy: Decision functions that can support a hippocampal model. Neurocomputing 69(10-12): 1238-1243 (2006)

26 Ashlie B. Hocking, William B. Levy: Gamma oscillations in a minimal CA3 model. Neurocomputing 69(10-12): 1244-1248 (2006)

2005

25 William B. Levy, A. Sanyal, Xiangbao Wu, Paul Rodriguez, David W. Sullivan: The formation of neural codes in the hippocampus: trace conditioning as a prototypical paradigm for studying the random recoding hypothesis. Biological Cybernetics 92(6): 409-426 (2005)

24 William B. Levy, Ashlie B. Hocking, Xiangbao Wu: Interpreting hippocampal function as recoding and forecasting. Neural Networks 18(9): 1242-1264 (2005)

23 Xiangbao Wu, William B. Levy: Increasing CS and US longevity increases the learnable trace interval. Neurocomputing 65-66: 283-289 (2005)

22 Ashlie B. Hocking, William B. Levy: Computing conditional probabilities in a minimal CA3 pyramidal neuron. Neurocomputing 65-66: 297-303 (2005)

21 David W. Sullivan, William B. Levy: Activity affects trace conditioning performance in a minimal hippocampal model. Neurocomputing 65-66: 315-321 (2005)

20 Patrick Crotty, William B. Levy: Energy-efficient interspike interval codes. Neurocomputing 65-66: 371-378 (2005)

19 Xiangbao Wu, William B. Levy: Erratum to 'Increasing CS and US longevity increases the learnable trace interval' by X. Wu and W.B. Levy: [Neurocomputing 65-66 (2005) 283-289]. Neurocomputing 68: 322 (2005)

2004

18 Paul Rodriguez, William B. Levy: Configural representations in transverse patterning with a hippocampal model. Neural Networks 17(2): 175-190 (2004)

17 William B. Levy: Contrasting rules for synaptogenesis, modification of existing synapses, and synaptic removal as a function of neuronal computation. Neurocomputing 58-60: 343-350 (2004)

16 Joanna Tyrcha, William B. Levy: Another contribution by synaptic failures to energy efficient processing by neurons. Neurocomputing 58-60: 59-66 (2004)

2003

15 William B. Levy, Xiangbao Wu, Anthony J. Greene, Barbara A. Spellman: A source of individual variation. Neurocomputing 52-54: 165-168 (2003)

14 David W. Sullivan, William B. Levy: Quantal synaptic failures improve performance in a sequence learning model of hippocampal CA3. Neurocomputing 52-54: 397-401 (2003)

2002

13 Xiangbao Wu, William B. Levy: Simulating the transverse non-patterning problem. Neurocomputing 44-46: 1029-1034 (2002)

2001

12 Xiangbao Wu, William B. Levy: Simulating symbolic distance effects in the transitive inference problem. Neurocomputing 38-40: 1603-1610 (2001)

11 Sean Polyn, William B. Levy: Dynamic control of inhibition improves performance of a hippocampal model. Neurocomputing 38-40: 823-829 (2001)

2000

10 Sean Polyn, Xiangbao Wu, William B. Levy: Entorhinal/dentate excitation of CA3: A critical variable in hippocampal models. Neurocomputing 32-33: 493-499 (2000)

9 Aaron P. Shon, Xiangbao Wu, William B. Levy: Using computational simulations to discover optimal training paradigms. Neurocomputing 32-33: 995-1002 (2000)

1999

8 D. A. August, William B. Levy: Temporal Sequence Compression by an Integrate-and-Fire Model of Hippocampal Area CA3. Journal of Computational Neuroscience 6(1): 71-90 (1999)

7 Xiangbao Wu, William B. Levy: Enhancing the performance of a hippocampal model by increasing variability early in learning. Neurocomputing 26-27: 601-607 (1999)

1998

6 Asohan Amarasingham, William B. Levy: Predicting the Distribution of Synaptic Strengths in a Self-Organizing, Sequence Prediction Model. Neural Computation 10(1): 25-58 (1998)

1996

5 D. A. August, William B. Levy: A simple spike train decoder inspired by the sampling theorem. Neural Computation 8(1): 67-84 (1996)

4 William B. Levy, Rohan A. Baxter: Energy efficient neural codes. Neural Computation 8(3): 531-543 (1996)

1994

3 William B. Levy, Hakan Deliç: Maximum entropy aggregation of individual opinions. IEEE Transactions on Systems, Man, and Cybernetics 24(4): 606-613 (1994)

2 Ali A. Minai, William B. Levy: Setting the Activity Level in Sparse Random Networks. Neural Computation 6(1): 85-99 (1994)

1992

1 Ali A. Minai, William B. Levy: Predicting Complex Behavior in Sparse Asymmetric Networks. NIPS 1992: 556-563

	2007
33		Danielle Morel, William B. Levy: Persistent sodium is a better linearizing mechanism than the hyperpolarization-activated current. Neurocomputing 70(10-12): 1635-1639 (2007)
32		Patrick Crotty, William B. Levy: Effects of Na⁺ channel inactivation kinetics on metabolic energy costs of action potentials. Neurocomputing 70(10-12): 1652-1656 (2007)
31		Ashlie B. Hocking, William B. Levy: Theta-modulated input reduces intrinsic gamma oscillations in a hippocampal model. Neurocomputing 70(10-12): 2074-2078 (2007)
	2006
30		William B. Levy, Ashlie B. Hocking, Xiangbao Wu: Erratum to: Interpreting hippocampal function as recoding and forecasting [Neural Networks 18 (9) 1242-1264]. Neural Networks 19(2): 248 (2006)
29		Patrick Crotty, William B. Levy: Intersymbol interference in axonal transmission. Neurocomputing 69(10-12): 1006-1009 (2006)
28		William B. Levy, Xiangbao Wu: External activity and the freedom to recode. Neurocomputing 69(10-12): 1233-1237 (2006)
27		Xiangbao Wu, William B. Levy: Decision functions that can support a hippocampal model. Neurocomputing 69(10-12): 1238-1243 (2006)
26		Ashlie B. Hocking, William B. Levy: Gamma oscillations in a minimal CA3 model. Neurocomputing 69(10-12): 1244-1248 (2006)
	2005
25		William B. Levy, A. Sanyal, Xiangbao Wu, Paul Rodriguez, David W. Sullivan: The formation of neural codes in the hippocampus: trace conditioning as a prototypical paradigm for studying the random recoding hypothesis. Biological Cybernetics 92(6): 409-426 (2005)
24		William B. Levy, Ashlie B. Hocking, Xiangbao Wu: Interpreting hippocampal function as recoding and forecasting. Neural Networks 18(9): 1242-1264 (2005)
23		Xiangbao Wu, William B. Levy: Increasing CS and US longevity increases the learnable trace interval. Neurocomputing 65-66: 283-289 (2005)
22		Ashlie B. Hocking, William B. Levy: Computing conditional probabilities in a minimal CA3 pyramidal neuron. Neurocomputing 65-66: 297-303 (2005)
21		David W. Sullivan, William B. Levy: Activity affects trace conditioning performance in a minimal hippocampal model. Neurocomputing 65-66: 315-321 (2005)
20		Patrick Crotty, William B. Levy: Energy-efficient interspike interval codes. Neurocomputing 65-66: 371-378 (2005)
19		Xiangbao Wu, William B. Levy: Erratum to 'Increasing CS and US longevity increases the learnable trace interval' by X. Wu and W.B. Levy: [Neurocomputing 65-66 (2005) 283-289]. Neurocomputing 68: 322 (2005)
	2004
18		Paul Rodriguez, William B. Levy: Configural representations in transverse patterning with a hippocampal model. Neural Networks 17(2): 175-190 (2004)
17		William B. Levy: Contrasting rules for synaptogenesis, modification of existing synapses, and synaptic removal as a function of neuronal computation. Neurocomputing 58-60: 343-350 (2004)
16		Joanna Tyrcha, William B. Levy: Another contribution by synaptic failures to energy efficient processing by neurons. Neurocomputing 58-60: 59-66 (2004)
	2003
15		William B. Levy, Xiangbao Wu, Anthony J. Greene, Barbara A. Spellman: A source of individual variation. Neurocomputing 52-54: 165-168 (2003)
14		David W. Sullivan, William B. Levy: Quantal synaptic failures improve performance in a sequence learning model of hippocampal CA3. Neurocomputing 52-54: 397-401 (2003)
	2002
13		Xiangbao Wu, William B. Levy: Simulating the transverse non-patterning problem. Neurocomputing 44-46: 1029-1034 (2002)
	2001
12		Xiangbao Wu, William B. Levy: Simulating symbolic distance effects in the transitive inference problem. Neurocomputing 38-40: 1603-1610 (2001)
11		Sean Polyn, William B. Levy: Dynamic control of inhibition improves performance of a hippocampal model. Neurocomputing 38-40: 823-829 (2001)
	2000
10		Sean Polyn, Xiangbao Wu, William B. Levy: Entorhinal/dentate excitation of CA3: A critical variable in hippocampal models. Neurocomputing 32-33: 493-499 (2000)
9		Aaron P. Shon, Xiangbao Wu, William B. Levy: Using computational simulations to discover optimal training paradigms. Neurocomputing 32-33: 995-1002 (2000)
	1999
8		D. A. August, William B. Levy: Temporal Sequence Compression by an Integrate-and-Fire Model of Hippocampal Area CA3. Journal of Computational Neuroscience 6(1): 71-90 (1999)
7		Xiangbao Wu, William B. Levy: Enhancing the performance of a hippocampal model by increasing variability early in learning. Neurocomputing 26-27: 601-607 (1999)
	1998
6		Asohan Amarasingham, William B. Levy: Predicting the Distribution of Synaptic Strengths in a Self-Organizing, Sequence Prediction Model. Neural Computation 10(1): 25-58 (1998)
	1996
5		D. A. August, William B. Levy: A simple spike train decoder inspired by the sampling theorem. Neural Computation 8(1): 67-84 (1996)
4		William B. Levy, Rohan A. Baxter: Energy efficient neural codes. Neural Computation 8(3): 531-543 (1996)
	1994
3		William B. Levy, Hakan Deliç: Maximum entropy aggregation of individual opinions. IEEE Transactions on Systems, Man, and Cybernetics 24(4): 606-613 (1994)
2		Ali A. Minai, William B. Levy: Setting the Activity Level in Sparse Random Networks. Neural Computation 6(1): 85-99 (1994)
	1992
1		Ali A. Minai, William B. Levy: Predicting Complex Behavior in Sparse Asymmetric Networks. NIPS 1992: 556-563

Coauthor Index

1 Asohan Amarasingham [6]

2 D. A. August [5] [8]

3 Rohan A. Baxter [4]

4 Patrick Crotty [20] [29] [32]

5 Hakan Deliç [3]

6 Anthony J. Greene [15]

7 Ashlie B. Hocking [22] [24] [26] [30] [31]

8 Ali A. Minai [1] [2]

9 Danielle Morel [33]

10 Sean Polyn [10] [11]

11 Paul Rodriguez [18] [25]

12 A. Sanyal [25]

13 Aaron P. Shon [9]

14 Barbara A. Spellman [15]

15 David W. Sullivan [14] [21] [25]

16 Joanna Tyrcha [16]

17 Xiangbao Wu [7] [9] [10] [12] [13] [15] [19] [23] [24] [25] [27] [28] [30]

Colors in the list of coauthors

1	Asohan Amarasingham	[6]
2	D. A. August	[5] [8]
3	Rohan A. Baxter	[4]
4	Patrick Crotty	[20] [29] [32]
5	Hakan Deliç	[3]
6	Anthony J. Greene	[15]
7	Ashlie B. Hocking	[22] [24] [26] [30] [31]
8	Ali A. Minai	[1] [2]
9	Danielle Morel	[33]
10	Sean Polyn	[10] [11]
11	Paul Rodriguez	[18] [25]
12	A. Sanyal	[25]
13	Aaron P. Shon	[9]
14	Barbara A. Spellman	[15]
15	David W. Sullivan	[14] [21] [25]
16	Joanna Tyrcha	[16]
17	Xiangbao Wu	[7] [9] [10] [12] [13] [15] [19] [23] [24] [25] [27] [28] [30]