2008 |
21 | EE | Randal A. Koene,
Michael E. Hasselmo:
Reversed and forward buffering of behavioral spike sequences enables retrospective and prospective retrieval in hippocampal regions CA3 and CA1.
Neural Networks 21(2-3): 276-288 (2008) |
2007 |
20 | EE | Randal A. Koene,
Michael E. Hasselmo:
A reversing buffer mechanism that enables instances of retrospective activity in hippocampal regions CA3 and CA1.
IJCNN 2007: 1401-1406 |
19 | EE | Michael E. Hasselmo,
Lisa M. Giocomo,
Mark P. Brandon,
Motoharu Yoshida:
Mechanisms for Memory-Guided Behavior Involving Persistent Firing and Theta Rhythm Oscillations in the Entorhinal Cortex.
Summer School on Neural Networks 2007: 28-37 |
2005 |
18 | EE | Anatoli Gorchetchnikov,
Michael E. Hasselmo:
A biophysical implementation of a bidirectional graph search algorithm to solve multiple goal navigation tasks.
Connect. Sci. 17(1-2): 145-164 (2005) |
17 | EE | Anatoli Gorchetchnikov,
Massimiliano Versace,
Michael E. Hasselmo:
A model of STDP based on spatially and temporally local information: Derivation and combination with gated decay.
Neural Networks 18(5-6): 458-466 (2005) |
16 | EE | Michael E. Hasselmo,
Howard Eichenbaum:
Hippocampal mechanisms for the context-dependent retrieval of episodes.
Neural Networks 18(9): 1172-1190 (2005) |
2003 |
15 | EE | Donald C. Wunsch II,
Michael E. Hasselmo,
DeLiang L. Wang,
Ganesh K. Venayagamoorthy:
Welcome to the special issue: the best of the best.
Neural Networks 16(5-6): 519 (2003) |
14 | EE | Randal A. Koene,
Anatoli Gorchetchnikov,
Robert C. Cannon,
Michael E. Hasselmo:
Modeling goal-directed spatial navigation in the rat based on physiological data from the hippocampal formation.
Neural Networks 16(5-6): 577-584 (2003) |
2002 |
13 | EE | Michael E. Hasselmo,
Clara Bodelón,
Bradley P. Wyble:
A Proposed Function for Hippocampal Theta Rhythm: Separate Phases of Encoding and Retrieval Enhance Reversal of Prior Learning.
Neural Computation 14(4): 793-817 (2002) |
12 | EE | Kenji Doya,
Peter Dayan,
Michael E. Hasselmo:
Introduction for 2002 Special Issue: Computational Models of Neuromodulation.
Neural Networks 15(4-6): 475-477 (2002) |
11 | EE | Michael E. Hasselmo,
Jonathan Hay,
Maxim Ilyn,
Anatoli Gorchetchnikov:
Neuromodulation, theta rhythm and rat spatial navigation.
Neural Networks 15(4-6): 689-707 (2002) |
10 | EE | Anatoli Gorchetchnikov,
Michael E. Hasselmo:
A model of hippocampal circuitry mediating goal-driven navigation in a familiar environment.
Neurocomputing 44-46: 423-427 (2002) |
2001 |
9 | EE | Erik Fransén,
Angel A. Alonso,
Michael E. Hasselmo:
Entorhinal neuronal activity during delayed matching tasks may depend upon muscarinic-induced non-specific cation current I(CANM).
Neurocomputing 38-40: 601-606 (2001) |
8 | EE | Michael E. Hasselmo,
Ajay Kapur,
Bradley P. Wyble:
Theta rhythm oscillations and sequence encoding in the hippocampus.
Neurocomputing 38-40: 633-640 (2001) |
1999 |
7 | EE | Erik Fransén,
Gene V. Wallenstein,
Angel A. Alonso,
Clayton T. Dickson,
Michael E. Hasselmo:
A biophysical simulation of intrinsic and network properties of entorhinal cortex.
Neurocomputing 26-27: 375-380 (1999) |
1998 |
6 | | Vikaas S. Sohal,
Michael E. Hasselmo:
Changes in GABAB Modulation During a Theta Cycle May Be Analogous to the Fall of Temperature During Annealing.
Neural Computation 10(4): 869-882 (1998) |
1996 |
5 | | David S. Touretzky,
Michael Mozer,
Michael E. Hasselmo:
Advances in Neural Information Processing Systems 8, NIPS, Denver, CO, November 27-30, 1995
MIT Press 1996 |
1995 |
4 | EE | Michael E. Hasselmo,
Milos Cekic:
Cholinergic suppression of transmission may allow combined associative memory function and self-organization in the neocortex.
NIPS 1995: 131-137 |
1994 |
3 | EE | Michael E. Hasselmo,
Eric Schnell,
Joshua Berke,
Edi Barkai:
A model of the hippocampus combibing self-organization and associative memory function.
NIPS 1994: 77-84 |
2 | EE | Michael E. Hasselmo:
Runaway synaptic modification in models of cortex: Implications for Alzheimer's disease.
Neural Networks 7(1): 13-40 (1994) |
1990 |
1 | EE | Michael E. Hasselmo,
Brooke P. Anderson,
James M. Bower:
Cholinergic Modulation May Enhance Cortical Associative Memory Function.
NIPS 1990: 46-52 |