Multiple neural spike train data analysis: state-of-the-art and future challengesComputational methods and challenges for large-scale circuit mappingComparative three-dimensional connectome map of motor cortical projections in the mouse brain.The angular interval between the direction of progression and body orientation in normal, alcohol- and cocaine treated fruit fliesSelf-diffusion in a periodic porous medium: A comparison of different approachesNSF workshop report: discovering general principles of nervous system organization by comparing brain maps across speciesAn analysis of the abstracts presented at the annual meetings of the Society for Neuroscience from 2001 to 2006.A proposal for a coordinated effort for the determination of brainwide neuroanatomical connectivity in model organisms at a mesoscopic scaleVocal imitation in zebra finches is inversely related to model abundanceA procedure for an automated measurement of song similarityDynamics of the vocal imitation process: how a zebra finch learns its songHow sleep affects the developmental learning of bird songSong development: in search of the error-signal.Studying the song development process: rationale and methods.Learning-related coordination of striatal and hippocampal theta rhythms during acquisition of a procedural maze task.De novo establishment of wild-type song culture in the zebra finch.A technique for characterizing the development of rhythms in bird song.Temperature dependence of the electron-spin-resonance spectrum of the chain-end S=1/2 modes in an S=1 antiferromagnetic chain.Analysis of dynamic brain imaging data.Analysis of the trajectory of Drosophila melanogaster in a circular open field arena.The brain atlas concordance problem: quantitative comparison of anatomical parcellations.Characterization of trial-to-trial fluctuations in local field potentials recorded in cerebral cortex of awake behaving macaque.Analytical calculation of intracellular calcium wave characteristics.Alta-Cyclic: a self-optimizing base caller for next-generation sequencing.The circuit architecture of whole brains at the mesoscopic scaleA low-cost technique to cryo-protect and freeze rodent brains, precisely aligned to stereotaxic coordinates for whole-brain cryosectioning.Co-expression profiling of autism genes in the mouse brain.Time-dependent diffusion of water in a biological model systemHigh-Throughput Method of Whole-Brain Sectioning, Using the Tape-Transfer Technique.An assay for social interaction in Drosophila fragile X mutants.Dynamic phenotypes: time series analysis techniques for characterizing neuronal and behavioral dynamics.Frequency-selective control of cortical and subcortical networks by central thalamusSelf-diffusion in periodic porous media: a comparison of numerical simulation and eigenvalue methods.The challenge of connecting the dots in the B.R.A.I.N.Digital atlas of the zebra finch (Taeniopygia guttata) brain: a high-resolution photo atlas.Cell-type-based model explaining coexpression patterns of genes in the brain.NSF workshop report: discovering general principles of nervous system organization by comparing brain maps across species.Brain-mapping projects using the common marmoset.Towards a comprehensive atlas of cortical connections in a primate brain: Mapping tracer injection studies of the common marmoset into a reference digital template.Tripling the capacity of wireless communications using electromagnetic polarization.
P50
Q22337230-38875B65-6450-4827-AD4F-594481ED9D46Q27021213-ED935846-8B36-4EA5-8A63-3E3547C19389Q27300172-EBF5EA59-C098-48CC-AE21-73228C2E0E88Q27304772-85F7DC19-432F-44D2-A006-8607EE3074C8Q27339737-3697691C-1B0B-42E6-BD7B-8A9D1916C64FQ28659850-BAD1D33E-C5F5-45E6-8BFF-D809E1D98B7BQ28754910-AA764E58-FB3A-4E74-96AD-F66281CC980DQ28755144-250C92EF-3CB7-4D79-B3DB-AEB72AC066D5Q28776460-001BCBB3-94C9-4A0D-B171-11A843382460Q29547814-B557506D-CE0B-4C78-893E-C7CDC7D95062Q29615002-12A8C48F-36E0-40F0-BACA-70B2DC52DCDDQ29618696-54216227-151B-4638-A4D9-8793E6A1B049Q30011068-D9D6F1BF-8CD9-4441-9F40-19C3FA73E62EQ30011069-C594C511-EC1E-46FC-864B-B52C381346C0Q30479168-5EF78E69-9D42-4EC3-8618-09F3DF905663Q30485088-67ADFC9E-4A6F-4D48-841B-B880B687A8C2Q30497192-A03F1429-ABED-42A3-AB3A-D333469396B4Q31140347-0442FD41-4E2C-4BD8-BB41-3F06ED440CEDQ31917023-77D78FD7-4015-4BBE-AF19-3DE8A4A57F95Q33303688-9F5E024F-DB2F-46C2-8A12-7356B61DC731Q33507286-2624CF50-C83B-4D0B-961D-20A4A6A3EAEAQ33624696-2A972D06-EB06-4F93-801A-0BDC41435BF4Q33915528-7AD33428-2693-48D6-9CD7-BBCF0D34FDB4Q34299405-AAA96ABB-AD44-44D7-BF31-217130FBBB89Q34637142-AF7A146E-B5E9-4EB5-9B3D-350E033952BAQ34695427-94A8315B-B331-4314-ACA8-E630DF5C9A84Q34916486-35CFF601-CE11-4315-856B-2C99DEDADF19Q35035355-5C9D2304-34A7-4F6C-9720-E92147493E4AQ35693518-025B6A03-87A2-421F-9CE5-1860913EFFCDQ35878573-8421D7C9-75CD-4D55-B585-12CF8BD73A0EQ36440927-10D5CB08-1F9C-45C7-9811-BF38EF33A1D8Q36488056-E0BEC88D-FFBA-484A-82C8-A5781C4DD16BQ36838606-DD093769-E9A2-4EE9-AA13-642C75AC1EA4Q37395958-BB063542-6DC8-46F1-888E-1F221385D088Q37597351-8D5E82FE-5EB7-469D-8147-43D7FAB1344EQ37702113-CBDD12D6-CADB-4C2F-8BFE-73695EF474E0Q38193395-470AC8CF-8839-44AE-AEA4-D7E1735A98BEQ38255163-652A385A-0B32-4849-A271-608A38514336Q38380869-30285CAD-D8DB-4365-9B6F-FD8212702615Q38472108-93643B4D-0B57-401F-B4D8-3B08A1810AFC
P50
description
hulumtues
@sq
neurowetenschapper
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Partha Mitra
@ast
Partha Mitra
@en
Partha Mitra
@es
Partha Mitra
@nl
Partha Mitra
@sl
type
label
Partha Mitra
@ast
Partha Mitra
@en
Partha Mitra
@es
Partha Mitra
@nl
Partha Mitra
@sl
altLabel
Partha P Mitra
@en
Partha P. Mitra
@en
prefLabel
Partha Mitra
@ast
Partha Mitra
@en
Partha Mitra
@es
Partha Mitra
@nl
Partha Mitra
@sl
P1006
P214
P244
P1006
P101
P1153
56775700000
P21
P214
P244
n2007182166
P2456
P31
P4012
P496
0000-0001-8818-6804
P569
2000-01-01T00:00:00Z
P7859
lccn-n2007182166