2024
Recurrence solution of monomer-polymer models on two-dimensional rectangular lattices
Kong Y. Recurrence solution of monomer-polymer models on two-dimensional rectangular lattices. Physical Review E 2024, 110: 054135. PMID: 39690661, DOI: 10.1103/physreve.110.054135.Peer-Reviewed Original ResearchTwo-dimensional rectangular latticeRecurrence relationsRectangular latticeMonomer-dimer problemPlanar latticesRecurrent solutionsLong standing problemLattice sitesAdjacent lattice sitesLatticeProblemComputational complexitySolutionRelationsEnumerationPolymer coverUnoccupied lattice sitesRigid polymersMonomer-polymerSolution of long-standing problemsPolymerPolymer length
2009
Integrating Sequencing Technologies in Personal Genomics: Optimal Low Cost Reconstruction of Structural Variants
Du J, Bjornson RD, Zhang ZD, Kong Y, Snyder M, Gerstein MB. Integrating Sequencing Technologies in Personal Genomics: Optimal Low Cost Reconstruction of Structural Variants. PLOS Computational Biology 2009, 5: e1000432. PMID: 19593373, PMCID: PMC2700963, DOI: 10.1371/journal.pcbi.1000432.Peer-Reviewed Original ResearchConceptsDifferent read lengthsDifferent technologiesSemi-realistic simulationComputational complexityMaximum accuracyAssembly algorithmReconstruction efficiencySimulation toolboxPersonal genomicsAccurate detectionLow costChallenging stepTechnologyCostAlgorithmAccurate assemblyComplexitySmall enough scalesReconstructionGoalIndividual genomesCanonical problemImportant goalToolboxSimulations
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