Site menu:

Latest news:

March, 1, 2008:
I have joined Jochen Triesch's lab at Frankfurt Institute for Advanced Studies as a "Postdoctoral Scholar".

Read more »


February, 15, 2007:
I have joined Caltech as a "Postdoctoral Scholar in Biology".

Read more »

Prashant Joshi: Publications

This list is also available as BiBTeX file.

[14]
P. Joshi, and J. Triesch. Homeostatic synaptic scaling via a stable, activity dependent Hebbian plasticity rule and the emergence of ocular dominance. Submitted for publication

[13]
C. Savin, P. Joshi, and J. Triesch. Independent component analysis in spiking neurons. PLOS Computational Biology, 6(4): e1000757.doi:10.1371/journal.pcbi.1000757 (PDF, 1.2 M)

[12]
P. Joshi, and J. Triesch. Optimizing generic neural microcircuits using reward modulated STDP. In ICANN, 2009: Proceedings of the 19th International Conference on Artificial Neural Networks, volume 5768 of Lecture Notes in Computer Science, pages 239-248, Berlin, Heidelberg, 2009. Springer-Verlag.

[11]
P. Joshi, and J. Triesch. Optimizing microcircuits through reward modulated STDP. Frontiers in Systems Neuroscience. Conference Abstract: Computational and systems neuroscience COSYNE. doi: 10.3389/conf.neuro.06.2009.03.281

[10]
P. Joshi, and J. Triesch. Rules for information-maximization in spiking neurons using intrinsic plasticity. Neural Networks, IEEE - INNS - ENNS International Joint Conference on, IJCNN, pages 1456-1461, 2009

[9]
P. Joshi, and J. Triesch. A globally asymptotically stable plasticity rule for firing rate homeostasis. ICANN 2008

[8]
P. Joshi. From memory based decisions to decision based movements: A model of interval discrimination followed by action selection. Neural Networks 20 (2007) 298-311. (PDF, 403 KB).

[7]
P. Joshi. On the role of feedback in enhancing the computational power of generic neural microcircuits. PhD thesis, Graz University of Technology, 2007. (PDF, 2584 KB).

[6]
P. Joshi. Modeling working memory and decision making using generic neural microcircuits. In Stefanos Kollias, Andreas Stafylopatis, Wlodzislaw Duch, and Erkki Oja, editors, Artificial Neural Networks -- ICANN 2006, volume 4131 of Lecture Notes in Computer Science, pages 515-524. Springer, 2006. (PDF, 568 KB).

[5]
W. Maass, P. Joshi, and E. D. Sontag. Computational aspects of feedback in neural circuits. PLOS Computational Biology, 3(1):e165, 1-20, 2007. (PDF, 1526 KB).

[4]
W. Maass, P. Joshi, and E. D. Sontag. Principles of real-time computing with feedback applied to cortical microcircuit models. In Y. Weiss, B. Schölkopf, and J. Platt, editors, Advances in Neural Information Processing Systems, volume 18, pages 835-842. MIT Press, 2006. (PDF, 806 KB).

[3]
P. Joshi and W. Maass. Movement generation with circuits of spiking neurons. Neural Computation, 17(8):1715-1738, 2005. (PDF, 1156 KB).

[2]
P. Joshi and W. Maass. Movement generation and control with generic neural microcircuits. In A. J. Ijspeert, M. Murata, and N. Wakamiya, editors, Biologically Inspired Approaches to Advanced Information Technology. First International Workshop, BioADIT 2004, Lausanne, Switzerland, January 2004, Revised Selected Papers, volume 3141 of Lecture Notes in Computer Science, pages 258-273. Springer Verlag, 2004. (PDF, 596 KB).

[1]
P. Joshi. Synthesis of a liquid state machine with hopfield/brody transient synchrony. Master's thesis, Center for Advanced Computer Studies, University of Louisiana, Lafayette, USA, November 2002.