Schema Theory Based Data Engineering in Gene Expression Programming for Big Data Analytics
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @Article{Huang:2018:ieeeTEC,
-
author = "Zhengwen Huang and Maozhen Li and
Christos Chousidis and Ali Mousavi and Changjun Jiang",
-
title = "Schema Theory Based Data Engineering in Gene
Expression Programming for Big Data Analytics",
-
journal = "IEEE Transactions on Evolutionary Computation",
-
year = "2018",
-
volume = "22",
-
number = "5",
-
pages = "792--804",
-
month = oct,
-
keywords = "genetic algorithms, genetic programming, Gene
expression programming, data engineering, big data
analytic, parallelization and segmentation",
-
ISSN = "1089-778X",
-
URL = "http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8187687",
-
DOI = "doi:10.1109/TEVC.2017.2771445",
-
size = "14 pages",
-
abstract = "Gene expression programming (GEP) is a data driven
evolutionary technique that well suits for correlation
mining. Parallel GEPs are proposed to speed up the
evolution process using a cluster of computers or a
computer with multiple CPU cores. However, the
generation structure of chromosomes and the size of
input data are two issues that tend to be neglected
when speeding up GEP in evolution. To fill the research
gap, this paper proposes three guiding principles to
elaborate the computation nature of GEP in evolution
based on an analysis of GEP schema theory. As a result,
a novel data engineered GEP is developed which follows
closely the generation structure of chromosomes in
parallelization and considers the input data size in
segmentation. Experimental results on two data sets
with complementary features show that the data
engineered GEP speeds up the evolution process
significantly without loss of accuracy in data
correlation mining. Based on the experimental tests, a
computation model of the data engineered GEP is further
developed to demonstrate its high scalability in
dealing with potential big data using a large number of
CPU cores.",
-
notes = "also known as \cite{8187687}",
- }
Genetic Programming entries for
Zhengwen Huang
Maozhen Li
Christos Chousidis
Alireza Mousavi
Changjun Jiang
Citations