An Enhanced Algorithm for Reconstructing a Phylogenetic Tree Based on the Tree Rearrangement and Maximum Likelihood Method.
Sun-Yuan HsiehI-Pien TsaiHao-Che HungYi-Chun ChenHsin-Hung ChouChia-Wei LeePublished in: ICIC (2) (2015)
Keyphrases
- tree structure
- cost function
- improved algorithm
- maximum likelihood
- dynamic programming
- detection algorithm
- high accuracy
- preprocessing
- optimization algorithm
- computational cost
- experimental evaluation
- estimation algorithm
- computationally efficient
- detection method
- em algorithm
- computational complexity
- expectation maximization
- segmentation algorithm
- recognition algorithm
- classification algorithm
- k means
- binary tree
- matching algorithm
- segmentation method
- input data
- convergence rate
- significant improvement
- objective function
- similarity measure
- support vector machine svm
- theoretical analysis
- optimization method
- maximum parsimony
- parameter estimation
- minimum spanning tree
- synthetic and real images
- clustering method
- learning algorithm
- distance matrix
- phylogenetic trees
- classification trees
- search space
- energy function
- optimal solution
- probabilistic model
- likelihood function
- bayesian framework
- prior information
- image segmentation
- gaussian distribution
- regression trees
- markov random field
- pruning algorithm
- simulated annealing