Temporal-to Rate-Code Conversion by Neuronal Phase-Locked Loops

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Temporal-to Rate-Code Conversion by Neuronal Phase-Locked Loops

Ehud Ahissar

Peripheral sensory activity follows the temporal structure of input signals. Central sensory processing uses also rate coding, and motor outputs appear to be primarily encoded by rate. I propose here a simple, efficient structure, converting temporal coding to rate coding by neuronal phase-locked loops (PLL). The simplest form of a PLL includes a phase detector (that is, a neuronal-plausible version of an ideal coincidence detector) and a controllable local oscillator that are connected in a negative feedback loop. The phase detector compares the firing times of the local oscillator and the input and provides an output whose firing rate is monotonically related to the time difference. The output rate is fed back to the local oscillator and forces it to phase-lock to the input. Every temporal interval at the input is associated with a specific pair of output rate and time difference values; the higher the output rate, the further the local oscillator is driven from its intrinsic frequency. Sequences of input intervals, which by definition encode input information, are thus represented by sequences of firing rates at the PLL's output. The most plausible implementation of PLL circuits is by thalamocortical loops in which populations of thalamic "relay" neurons function as phase detectors that compare the timings of cortical oscillators and sensory signals. The output in this case is encoded by the thalamic population rate. This article presents and analyzes the algorithmic and the implementation levels of the proposed PLL model and describes the implementation of the PLL model to the primate tactile system.

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				R. B. Towal and M. J. Z. Hartmann Variability in Velocity Profiles During Free-Air Whisking Behavior of Unrestrained Rats J Neurophysiol, August 1, 2008; 100(2): 740 - 752. [Abstract] [Full Text] [PDF]

				K. D. Alloway Information Processing Streams in Rodent Barrel Cortex: The Differential Functions of Barrel and Septal Circuits Cereb Cortex, May 1, 2008; 18(5): 979 - 989. [Abstract] [Full Text] [PDF]

				B. Tripp and C. Eliasmith Neural Populations Can Induce Reliable Postsynaptic Currents without Observable Spike Rate Changes or Precise Spike Timing Cereb Cortex, August 1, 2007; 17(8): 1830 - 1840. [Abstract] [Full Text] [PDF]

				M. Zacksenhouse and E. Ahissar Temporal Decoding by Phase-Locked Loops: Unique Features of Circuit-Level Implementations and Their Significance for Vibrissal Information Processing Neural Comput., July 1, 2006; 18(7): 1611 - 1636. [Abstract] [Full Text] [PDF]

				D. Golomb, E. Ahissar, and D. Kleinfeld Coding of Stimulus Frequency by Latency in Thalamic Networks Through the Interplay of GABAB-Mediated Feedback and Stimulus Shape J Neurophysiol, March 1, 2006; 95(3): 1735 - 1750. [Abstract] [Full Text] [PDF]

				A. Kepecs, N. Uchida, and Z. F. Mainen The Sniff as a Unit of Olfactory Processing Chem Senses, February 1, 2006; 31(2): 167 - 179. [Abstract] [Full Text] [PDF]

				C. I. Moore Frequency-Dependent Processing in the Vibrissa Sensory System J Neurophysiol, June 1, 2004; 91(6): 2390 - 2399. [Abstract] [Full Text] [PDF]

				R. W. Berg and D. Kleinfeld Rhythmic Whisking by Rat: Retraction as Well as Protraction of the Vibrissae Is Under Active Muscular Control J Neurophysiol, January 1, 2003; 89(1): 104 - 117. [Abstract] [Full Text] [PDF]

				E. Ahissar and D. Kleinfeld Closed-loop Neuronal Computations: Focus on Vibrissa Somatosensation in Rat Cereb Cortex, January 1, 2003; 13(1): 53 - 62. [Abstract] [Full Text] [PDF]

				K. F. Ahrens, H. Levine, H. Suhl, and D. Kleinfeld Spectral mixing of rhythmic neuronal signals in sensory cortex PNAS, November 12, 2002; 99(23): 15176 - 15181. [Abstract] [Full Text] [PDF]

				O. Jensen Information Transfer Between Rhythmically Coupled Networks: Reading the Hippocampal Phase Code Neural Comput., December 1, 2001; 13(12): 2743 - 2761. [Abstract] [Full Text]

				E. Ahissar, S. Nagarajan, M. Ahissar, A. Protopapas, H. Mahncke, and M. M. Merzenich Speech comprehension is correlated with temporal response patterns recorded from auditory cortex PNAS, November 6, 2001; 98(23): 13367 - 13372. [Abstract] [Full Text] [PDF]

				E. Gamzu and E. Ahissar Importance of Temporal Cues for Tactile Spatial- Frequency Discrimination J. Neurosci., September 15, 2001; 21(18): 7416 - 7427. [Abstract] [Full Text] [PDF]

				R. Sosnik, S. Haidarliu, and E. Ahissar Temporal Frequency of Whisker Movement. I. Representations in Brain Stem and Thalamus J Neurophysiol, July 1, 2001; 86(1): 339 - 353. [Abstract] [Full Text] [PDF]

				E. Ahissar, R. Sosnik, K. Bagdasarian, and S. Haidarliu Temporal Frequency of Whisker Movement. II. Laminar Organization of Cortical Representations J Neurophysiol, July 1, 2001; 86(1): 354 - 367. [Abstract] [Full Text] [PDF]

				V. Ego-Stengel, D. E. Shulz, S. Haidarliu, R. Sosnik, and E. Ahissar Acetylcholine-Dependent Induction and Expression of Functional Plasticity in the Barrel Cortex of the Adult Rat J Neurophysiol, July 1, 2001; 86(1): 422 - 437. [Abstract] [Full Text] [PDF]

				D. E. Berman, S. Hazvi, V. Neduva, and Y. Dudai The Role of Identified Neurotransmitter Systems in the Response of Insular Cortex to Unfamiliar Taste: Activation of ERK1-2 and Formation of a Memory Trace J. Neurosci., September 15, 2000; 20(18): 7017 - 7023. [Abstract] [Full Text] [PDF]

				E. Salinas, A. Hernandez, A. Zainos, and R. Romo Periodicity and Firing Rate As Candidate Neural Codes for the Frequency of Vibrotactile Stimuli J. Neurosci., July 15, 2000; 20(14): 5503 - 5515. [Abstract] [Full Text] [PDF]

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Temporal-to Rate-Code Conversion by Neuronal Phase-Locked Loops