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V S Chakravarthy

Showing results (1-10 of 15) with videos related to

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Journal of Theoretical Biology|March 24, 2009
Desynchronized vasomotion and desynchronized fiber activation pattern enhance oxygenation in a model of skeletal muscleRanjan K Pradhan, V S Chakravarthy
Mathematical Biosciences|May 26, 2007
A computational model that links non-periodic vasomotion to enhanced oxygenation in skeletal muscleRanjan K Pradhan, V S Chakravarthy
Acta Physiologica (Oxford, England)|October 5, 2010
Informational dynamics of vasomotion in microvascular networks: a reviewR K Pradhan, V S Chakravarthy
Biological Cybernetics|November 13, 2007
An oscillator theory of motor unit recruitmentP S Prashanth, V S Chakravarthy
Biological Cybernetics|July 21, 2010
What do the basal ganglia do? A modeling perspectiveV S Chakravarthy, Denny Joseph, Raju S Bapi
Neural Computation|December 24, 2009
A model of indispensability of a large glial layer in cerebrovascular circulationRohit Gandrakota, V S Chakravarthy, Ranjan K Pradhan
Microvascular Research|April 10, 2007
Effect of chaotic vasomotion in skeletal muscle on tissue oxygenationRanjan K Pradhan, V S Chakravarthy, Anil Prabhakar
International Journal of Neural Systems|May 12, 2006
The role of the basal ganglia in exploration in a neural model based on reinforcement learningD Sridharan, P S Prashanth, V S Chakravarthy
Mathematical Biosciences|March 5, 2008
Interpreting voltage-sensitivity of gap junctions as a mechanism of cardiac memoryJ Krishnan, Gairik Sachdeva, V S Chakravarthy, et al.
Biological Cybernetics|December 17, 2009
Bistable dynamics of cardiac cell models coupled by dynamic gap junctions linked to cardiac memoryGairik Sachdeva, Kanakapriya Kalyanasundaram, J Krishnan, et al.
Pageof 2

Showing results (1-10 of 15) with videos related to

Sort By:
Pageof 2
Journal of Theoretical Biology|March 24, 2009
Desynchronized vasomotion and desynchronized fiber activation pattern enhance oxygenation in a model of skeletal muscleRanjan K Pradhan, V S Chakravarthy
Mathematical Biosciences|May 26, 2007
A computational model that links non-periodic vasomotion to enhanced oxygenation in skeletal muscleRanjan K Pradhan, V S Chakravarthy
Acta Physiologica (Oxford, England)|October 5, 2010
Informational dynamics of vasomotion in microvascular networks: a reviewR K Pradhan, V S Chakravarthy
Biological Cybernetics|November 13, 2007
An oscillator theory of motor unit recruitmentP S Prashanth, V S Chakravarthy
Biological Cybernetics|July 21, 2010
What do the basal ganglia do? A modeling perspectiveV S Chakravarthy, Denny Joseph, Raju S Bapi
Neural Computation|December 24, 2009
A model of indispensability of a large glial layer in cerebrovascular circulationRohit Gandrakota, V S Chakravarthy, Ranjan K Pradhan
Microvascular Research|April 10, 2007
Effect of chaotic vasomotion in skeletal muscle on tissue oxygenationRanjan K Pradhan, V S Chakravarthy, Anil Prabhakar
International Journal of Neural Systems|May 12, 2006
The role of the basal ganglia in exploration in a neural model based on reinforcement learningD Sridharan, P S Prashanth, V S Chakravarthy
Mathematical Biosciences|March 5, 2008
Interpreting voltage-sensitivity of gap junctions as a mechanism of cardiac memoryJ Krishnan, Gairik Sachdeva, V S Chakravarthy, et al.
Biological Cybernetics|December 17, 2009
Bistable dynamics of cardiac cell models coupled by dynamic gap junctions linked to cardiac memoryGairik Sachdeva, Kanakapriya Kalyanasundaram, J Krishnan, et al.
Pageof 2