Aug 1, 2011 · The pure parsimony criterion implies a popular candidate haplotype that can resolve more genotypes should be more likely to appear in the HIPP ...

The population haplotype inference problem based on the pure parsimony criterion (HIPP) infers an m×n genotype matrix for a population by a 2m×n haplotype ...

The population haplotype inference problem based on the pure parsimony criterion (HIPP) infers an m × n genotype matrix for a population by a 2m × n ...

In this paper we address the pure parsimony haplotyping problem: Find a minimum number of haplotypes that explains a given set of genotypes.

The population haplotype inference problem based on the pure parsimony criterion (HIPP) infers an m × n genotype matrix for a population by a 2 m × n ...

Aug 1, 2024 · The population haplotype inference problem based on the pure parsimony criterion (HIPP) infers an m × n genotype matrix for a population by ...

Haplotyping populations by pure parsimony based on compatible genotypes and greedy heuristics · I-Lin WangHui-E Yang. Biology, Computer Science. Applied ...

In this paper we address the pure parsimony haplotyping problem: Find a minimum number of haplotypes that explains a given set of genotypes.

This paper investigates the PHI problem based on the pure parsimony criterion (HIPP), which seeks the minimum number of distinct haplotypes to infer a given ...

The HIPP problem is based on the idea that a small number of haplotypes generates a large population of genotypes. The HIPP problem is to find the minimum ...