- Response variability of type-1 neurons to periodic and random pul-satile input
- Asynchronous Response of Coupled Pacemaker Neurons Ramana Dodla and Charles J. Wilson
- FEEDBACK INHIBITION CAN ENHANCE SPONTANEOUS NEURONAL FIRING RAMANA DODLA1
- Enhanced neuronal response induced by fast inhibition Ramana Dodla1
- Phasic, tonic, and mixed mode firing of an auditory neuron model bifurcation analysis RAMANA DODLA AND JOHN RINZEL
- Nature Macmillan Publishers Ltd 1998 transfer,wecandeterminewhether imprint-
- Driven response of time delay coupled limit cycle oscillators Ramana Reddy V. Dodla 1
- Physica D 144 (2000) 335357 Dynamics of a limit cycle oscillator under time delayed linear and
- VOLUME 80, NUMBER 23 P H Y S I C A L R E V I E W L E T T E R S 8 JUNE 1998 Time Delay Induced Death in Coupled Limit Cycle Oscillators
- VOLUME 85, NUMBER 16 P H Y S I C A L R E V I E W L E T T E R S 16 OCTOBER 2000 Experimental Evidence of Time-Delay-Induced Death in Coupled Limit-Cycle Oscillators
- Physica D 129 (1999) 1534 Time delay effects on coupled limit cycle oscillators at Hopf bifurcation
- Phase-locked patterns and amplitude death in a ring of delay-coupled limit cycle oscillators Ramana Dodla,* Abhijit Sen,
- Searching for Signal in Experimental Data Ramana Dodla and Charles J. Wilson
- Abstract. Many auditory neurons possess low-threshold potassium currents (IKLT ) that enhance their responsive-
- FAST EMERGENT OSCILLATIONS IN A MUTUALLY INHIBITORY NETWORK RAMANA DODLA*
- ENHANCEMENT OF NEURONAL RESPONSE DUE TO FAST INHIBITION RAMANA DODLA1
- Timed inhibition affects coincidence detection in an MSO neuron model RAMANA R.V. DODLA
- 95:2664-2677, 2006. doi:10.1152/jn.00752.2005JN Ramana Dodla, Gytis Svirskis and John Rinzel
- Experimental Study of Delay Effects on Coupled Limit Cycle Oscillators
- Society for Neuroscience (SfN) 2007, San Diego, CA (Nov. 3-7, 2007) Nonlinear dynamical analysis of firing patterns of globus pallidus neurons
- CONDITIONS FOR DIFFUSIVE THERMAL TRANSPORT IN A MODEL NONLINEAR SYSTEM
- Coherence resonance due to transient thresholds in excitable systems Ramana Dodla and Charles J. Wilson
