about
Grid cells, place cells, and geodesic generalization for spatial reinforcement learningIntegrated whole-heart computational workflow for inverse potential mapping and personalized simulations.A priori model independent inverse potential mapping: the impact of electrode positioning.Metabolome based reaction graphs of M. tuberculosis and M. leprae: a comparative network analysisIdentification of biochemical network modules based on shortest retroactive distancesThe mechanism of allosteric inhibition of protein tyrosine phosphatase 1BNetwork reconstruction based on proteomic data and prior knowledge of protein connectivity using graph theoryMolecular Determinants Underlying Binding Specificities of the ABL Kinase Inhibitors: Combining Alanine Scanning of Binding Hot Spots with Network Analysis of Residue Interactions and CoevolutionComputational modeling of allosteric regulation in the hsp90 chaperones: a statistical ensemble analysis of protein structure networks and allosteric communications.An algorithm to enumerate all possible protein conformations verifying a set of distance constraintsEnhanced functional connectivity properties of human brains during in-situ nature experience.Mechanism of Iron-Dependent Repressor (IdeR) Activation and DNA Binding: A Molecular Dynamics and Protein Structure Network StudyMolecular dynamics simulations and modelling of the residue interaction networks in the BRAF kinase complexes with small molecule inhibitors: probing the allosteric effects of ligand-induced kinase dimerization and paradoxical activation.Exploring Molecular Mechanisms of Paradoxical Activation in the BRAF Kinase Dimers: Atomistic Simulations of Conformational Dynamics and Modeling of Allosteric Communication Networks and Signaling Pathways.Collective behaviour across animal species.Hierarchical Decomposition for Betweenness Centrality Measure of Complex Networks.An Adaptive Clustering Approach Based on Minimum Travel Route Planning for Wireless Sensor Networks with a Mobile Sink.Identifying node role in social network based on multiple indicators.Large arteriolar component of oxygen delivery implies a safe margin of oxygen supply to cerebral tissueAutistic traits in neurotypical adults: correlates of graph theoretical functional network topology and white matter anisotropy patternsA hybrid CPU-GPU accelerated framework for fast mapping of high-resolution human brain connectome.RMOD: a tool for regulatory motif detection in signaling network.CONFECT: conformations from an expert collection of torsion patterns.CoCoTools: open-source software for building connectomes using the CoCoMac anatomical database.Decision making under uncertainty: a quasimetric approach.Unraveling flow patterns through nonlinear manifold learningLewis Carroll's Doublets net of English words: network heterogeneity in a complex systemShaping Neuronal Network Activity by Presynaptic MechanismsDancing through Life: Molecular Dynamics Simulations and Network-Centric Modeling of Allosteric Mechanisms in Hsp70 and Hsp110 Chaperone Proteins.An online tool for obesity intervention and public health.Contig-Layout-Authenticator (CLA): A Combinatorial Approach to Ordering and Scaffolding of Bacterial Contigs for Comparative Genomics and Molecular EpidemiologyLong-Range Signaling in MutS and MSH Homologs via Switching of Dynamic Communication PathwaysComputational Analysis of Residue Interaction Networks and Coevolutionary Relationships in the Hsp70 Chaperones: A Community-Hopping Model of Allosteric Regulation and CommunicationMultifractal analysis of weighted networks by a modified sandbox algorithm.Allosteric Pathways in the PPARγ-RXRα nuclear receptor complex.Synergistic Modification Induced Specific Recognition between Histone and TRIM24 via Fluctuation Correlation Network AnalysisSignaling mechanisms of LOV domains: new insights from molecular dynamics studies.A la Recherche du Temps Perdu: extracting temporal relations from medical text in the 2012 i2b2 NLP challenge.Optimization of cascade-resilient electrical infrastructures and its validation by power flow modeling.yaInChI: modified InChI string scheme for line notation of chemical structures.
P2860
Q21145320-31BAD782-5D84-4F12-87FA-54EB8479E63AQ27303603-B479CC6C-795F-409A-8322-D5C420DDB7C6Q27322902-9A586D8B-F884-4FE1-884B-58B51B4B78ABQ28469296-25E57B95-04E1-458F-B7CC-0D378944C248Q28477914-4A4CF9F2-6B5F-41D3-8158-E3D209509560Q28538889-B307A1EB-F207-43AC-A044-F9755FD896B6Q28547548-05F8E637-9152-4836-98B4-30C3C41BBE6EQ28548366-B84CDA8C-5600-4531-90BA-C6A63EAE53D9Q30363516-B3E74833-2AE9-4821-9714-9094346D355EQ30371153-3BF62663-CF69-49FC-843D-86D9F6CB5AA3Q30376219-7334648C-4FD7-4D17-8C23-F67665564984Q30382831-5AA15DF2-0E66-496C-8B88-FF4A05D7D8EDQ30391310-CFFC088E-4727-487A-B7EA-12A3F73BB34EQ30395364-74FFE7BE-9F5B-41B9-ABD7-12690B4EBF0FQ30444339-E9CA07CD-836B-47CE-8A8E-A94665A39251Q33582715-27DD7E9A-4FAD-4AC3-82A8-D520E015698FQ33777759-BBE9786D-425C-41F8-9CEA-7CE4D9ACA80EQ33999881-3069AE45-6047-4A19-B12A-AE2FB95A4B9AQ34662721-7CA54A1A-FC79-49FC-BFFE-DD1F5B95A83AQ34674428-0470454B-4F94-4E99-9B71-63B636923825Q34722681-60EE34B8-6F44-4A8C-9768-9275C13895D9Q34848389-2E4CAA01-6844-47FC-8F33-E0AE2D3FC154Q34912659-2FEE1511-F0A8-4F60-9DAC-93528A7A80F2Q35015317-75491086-85B3-4CE2-B96F-ED4B8CCFEB26Q35078067-A35AE82E-A047-4F3D-A5C4-8593535E1A52Q35116666-C89F5429-98B1-4E7A-B2FE-D288CA34DA76Q35527140-14FF818C-784B-4A5F-B5BC-66357F6017EAQ35775981-4DF365ED-5991-4A6C-BAA5-B147EFD6D5C0Q35855961-41366664-D263-4E96-A8BD-92B88E2A825DQ35920091-E82D68F4-52FA-41B7-8D67-6AAE5E332D17Q36036061-B8EA6596-609B-481F-8684-824F79437428Q36170646-9FD2EC46-561B-419B-87B9-389310C942EDQ36251118-CBAB493B-ACAC-4433-A394-128A51F2F247Q36346170-031F11B7-D639-4D62-BB7F-9514EC32DC09Q36517153-BED22860-092B-4049-ACA9-F0DC1AD04E1FQ36800023-4AAE4BAC-867A-41DA-B44F-A211FE5C3F43Q36920129-6BCD9499-8003-4DB5-BFAB-EA216D29D592Q37129526-093107F4-A9B7-48EF-A891-EAF7BA88246DQ38390253-F537E5C4-C1AE-492F-948B-9A09BEB25664Q38473842-33B21C63-BC6E-459E-90A8-E3E99CD94A0F
P2860
description
article
@en
im Juni 1962 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 1962
@uk
ലേഖനം
@ml
name
Algorithm 97: Shortest path
@en
Algorithm 97: Shortest path
@nl
type
label
Algorithm 97: Shortest path
@en
Algorithm 97: Shortest path
@nl
prefLabel
Algorithm 97: Shortest path
@en
Algorithm 97: Shortest path
@nl
P356
P1476
Algorithm 97: Shortest path
@en
P2093
Robert W. Floyd
P356
10.1145/367766.368168
P407
P577
1962-06-01T00:00:00Z