Relatedness Measures to Aid the Transfer of Building Blocks among Multiple Tasks
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @InProceedings{Nguyen:2020:GECCO,
-
author = "Trung B. Nguyen and Will N. Browne and Mengjie Zhang",
-
title = "Relatedness Measures to Aid the Transfer of Building
Blocks among Multiple Tasks",
-
year = "2020",
-
editor = "Carlos Artemio {Coello Coello} and
Arturo Hernandez Aguirre and Josu Ceberio Uribe and
Mario Garza Fabre and Gregorio {Toscano Pulido} and
Katya Rodriguez-Vazquez and Elizabeth Wanner and
Nadarajen Veerapen and Efren Mezura Montes and
Richard Allmendinger and Hugo Terashima Marin and
Markus Wagner and Thomas Bartz-Beielstein and Bogdan Filipic and
Heike Trautmann and Ke Tang and John Koza and
Erik Goodman and William B. Langdon and Miguel Nicolau and
Christine Zarges and Vanessa Volz and Tea Tusar and
Boris Naujoks and Peter A. N. Bosman and
Darrell Whitley and Christine Solnon and Marde Helbig and
Stephane Doncieux and Dennis G. Wilson and
Francisco {Fernandez de Vega} and Luis Paquete and
Francisco Chicano and Bing Xue and Jaume Bacardit and
Sanaz Mostaghim and Jonathan Fieldsend and
Oliver Schuetze and Dirk Arnold and Gabriela Ochoa and
Carlos Segura and Carlos Cotta and Michael Emmerich and
Mengjie Zhang and Robin Purshouse and Tapabrata Ray and
Justyna Petke and Fuyuki Ishikawa and Johannes Lengler and
Frank Neumann",
-
isbn13 = "9781450371285",
-
publisher = "Association for Computing Machinery",
-
publisher_address = "New York, NY, USA",
-
URL = "https://doi.org/10.1145/3377930.3390169",
-
DOI = "doi:10.1145/3377930.3390169",
-
booktitle = "Proceedings of the 2020 Genetic and Evolutionary
Computation Conference",
-
pages = "377--385",
-
size = "9 pages",
-
keywords = "genetic algorithms, genetic programming, XOF, XCS,
code fragments, LCS",
-
address = "internet",
-
series = "GECCO '20",
-
month = jul # " 8-12",
-
organisation = "SIGEVO",
-
abstract = "Multitask Learning is a learning paradigm that deals
with multiple different tasks in parallel and transfers
knowledge among them. XOF, a Learning Classifier System
using tree-based programs to encode building blocks
(meta-features), constructs and collects features with
rich discriminative information for classification
tasks in an Observed List. This paper seeks to
facilitate the automation of feature transferring in
between tasks by using the Observed List. We
hypothesise that the best discriminative features of a
classification task carry its characteristics.
Therefore, the relatedness between any two tasks can be
estimated by comparing their most appropriate patterns.
We propose a multiple-XOF system, called mXOF, that can
dynamically adapt feature transfer among XOFs. This
system uses the Observed List to estimate the task
relatedness. This method enables the automation of
transferring features. In terms of knowledge discovery,
the resemblance estimation provides insightful
relations among multiple data. We experimented mXOF on
various scenarios, e.g. representative Hierarchical
Boolean problems, classification of distinct classes in
the UCI Zoo dataset, and unrelated tasks, to validate
its abilities of automatic knowledgetransfer and
estimating task relatedness. Results show that mXOF can
estimate the relatedness reasonably between multiple
tasks to aid the learning performance with the dynamic
feature transferring.",
-
notes = "Also known as \cite{10.1145/3377930.3390169}
GECCO-2020 A Recombination of the 29th International
Conference on Genetic Algorithms (ICGA) and the 25th
Annual Genetic Programming Conference (GP)",
- }
Genetic Programming entries for
Trung Bao Nguyen
Will N Browne
Mengjie Zhang
Citations