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This book presents an overview of archiving strategies developed
over the last years by the authors that deal with suitable
approximations of the sets of optimal and nearly optimal solutions
of multi-objective optimization problems by means of stochastic
search algorithms. All presented archivers are analyzed with
respect to the approximation qualities of the limit archives that
they generate and the upper bounds of the archive sizes. The
convergence analysis will be done using a very broad framework that
involves all existing stochastic search algorithms and that will
only use minimal assumptions on the process to generate new
candidate solutions. All of the presented archivers can
effortlessly be coupled with any set-based multi-objective search
algorithm such as multi-objective evolutionary algorithms, and the
resulting hybrid method takes over the convergence properties of
the chosen archiver. This book hence targets at all algorithm
designers and practitioners in the field of multi-objective
optimization.
This book presents a collection of papers on recent advances in
problems concerning dynamics, optimal control and optimization. In
many chapters, computational techniques play a central role.
Set-oriented techniques feature prominently throughout the book,
yielding state-of-the-art algorithms for computing general
invariant sets, constructing globally optimal controllers and
solving multi-objective optimization problems.
This book presents the latest algorithmic developments in the
cell-mapping method for the global analysis of nonlinear dynamic
systems, global solutions for multi-objective optimization
problems, and global solutions for zeros of complex algebraic
equations. It also discusses related engineering and scientific
applications, including the nonlinear design of structures for
better vibration resistance and reliability; multi-objective,
structural-acoustic design for sound abatement; optimal
multi-objective design of airfoils for better lift; and optimal
multi-objective design of linear and nonlinear controls with or
without time delay. The first book on the subject to include
extensive Matlab and C++ codes, it presents various implementation
algorithms of the cell-mapping method, enabling readers to
understand how the method works and its programming aspects. A link
to the codes on the Springer website will be provided to the
readers.
This book comprises nine selected works on numerical and
computational methods for solving multiobjective optimization, game
theory, and machine learning problems. It provides extended
versions of selected papers from various fields of science such as
computer science, mathematics and engineering that were presented
at EVOLVE 2013 held in July 2013 at Leiden University in the
Netherlands. The internationally peer-reviewed papers include
original work on important topics in both theory and applications,
such as the role of diversity in optimization, statistical
approaches to combinatorial optimization, computational game
theory, and cell mapping techniques for numerical landscape
exploration. Applications focus on aspects including robustness,
handling multiple objectives, and complex search spaces in
engineering design and computational biology.
The aim of this book is to provide a strong theoretical support for
understanding and analyzing the behavior of evolutionary
algorithms, as well as for creating a bridge between probability,
set-oriented numerics and evolutionary computation. The volume
encloses a collection of contributions that were presented at the
EVOLVE 2011 international workshop, held in Luxembourg, May 25-27,
2011, coming from invited speakers and also from selected regular
submissions. The aim of EVOLVE is to unify the perspectives offered
by probability, set oriented numerics and evolutionary computation.
EVOLVE focuses on challenging aspects that arise at the passage
from theory to new paradigms and practice, elaborating on the
foundations of evolutionary algorithms and theory-inspired methods
merged with cutting-edge techniques that ensure performance
guarantee factors. EVOLVE is also intended to foster a growing
interest for robust and efficient methods with a sound theoretical
background. The chapters enclose challenging theoretical findings,
concrete optimization problems as well as new perspectives. By
gathering contributions from researchers with different
backgrounds, the book is expected to set the basis for a unified
view and vocabulary where theoretical advancements may echo in
different domains.
This volume comprises a selection of works presented at the
Numerical and Evolutionary Optimization (NEO) workshop held in
September 2015 in Tijuana, Mexico. The development of powerful
search and optimization techniques is of great importance in
today's world that requires researchers and practitioners to tackle
a growing number of challenging real-world problems. In particular,
there are two well-established and widely known fields that are
commonly applied in this area: (i) traditional numerical
optimization techniques and (ii) comparatively recent bio-inspired
heuristics. Both paradigms have their unique strengths and
weaknesses, allowing them to solve some challenging problems while
still failing in others. The goal of the NEO workshop series is to
bring together people from these and related fields to discuss,
compare and merge their complimentary perspectives in order to
develop fast and reliable hybrid methods that maximize the
strengths and minimize the weaknesses of the underlying paradigms.
Through this effort, we believe that the NEO can promote the
development of new techniques that are applicable to a broader
class of problems. Moreover, NEO fosters the understanding and
adequate treatment of real-world problems particularly in emerging
fields that affect us all such as health care, smart cities, big
data, among many others. The extended papers the NEO 2015 that
comprise this book make a contribution to this goal.
This book presents an overview of archiving strategies developed
over the last years by the authors that deal with suitable
approximations of the sets of optimal and nearly optimal solutions
of multi-objective optimization problems by means of stochastic
search algorithms. All presented archivers are analyzed with
respect to the approximation qualities of the limit archives that
they generate and the upper bounds of the archive sizes. The
convergence analysis will be done using a very broad framework that
involves all existing stochastic search algorithms and that will
only use minimal assumptions on the process to generate new
candidate solutions. All of the presented archivers can
effortlessly be coupled with any set-based multi-objective search
algorithm such as multi-objective evolutionary algorithms, and the
resulting hybrid method takes over the convergence properties of
the chosen archiver. This book hence targets at all algorithm
designers and practitioners in the field of multi-objective
optimization.
This book presents a collection of papers on recent advances in
problems concerning dynamics, optimal control and optimization. In
many chapters, computational techniques play a central role.
Set-oriented techniques feature prominently throughout the book,
yielding state-of-the-art algorithms for computing general
invariant sets, constructing globally optimal controllers and
solving multi-objective optimization problems.
This book comprises nine selected works on numerical and
computational methods for solving multiobjective optimization, game
theory, and machine learning problems. It provides extended
versions of selected papers from various fields of science such as
computer science, mathematics and engineering that were presented
at EVOLVE 2013 held in July 2013 at Leiden University in the
Netherlands. The internationally peer-reviewed papers include
original work on important topics in both theory and applications,
such as the role of diversity in optimization, statistical
approaches to combinatorial optimization, computational game
theory, and cell mapping techniques for numerical landscape
exploration. Applications focus on aspects including robustness,
handling multiple objectives, and complex search spaces in
engineering design and computational biology.
This volume comprises a selection of works presented at the
Numerical and Evolutionary Optimization (NEO) workshop held in
September 2015 in Tijuana, Mexico. The development of powerful
search and optimization techniques is of great importance in
today's world that requires researchers and practitioners to tackle
a growing number of challenging real-world problems. In particular,
there are two well-established and widely known fields that are
commonly applied in this area: (i) traditional numerical
optimization techniques and (ii) comparatively recent bio-inspired
heuristics. Both paradigms have their unique strengths and
weaknesses, allowing them to solve some challenging problems while
still failing in others. The goal of the NEO workshop series is to
bring together people from these and related fields to discuss,
compare and merge their complimentary perspectives in order to
develop fast and reliable hybrid methods that maximize the
strengths and minimize the weaknesses of the underlying paradigms.
Through this effort, we believe that the NEO can promote the
development of new techniques that are applicable to a broader
class of problems. Moreover, NEO fosters the understanding and
adequate treatment of real-world problems particularly in emerging
fields that affect us all such as health care, smart cities, big
data, among many others. The extended papers the NEO 2015 that
comprise this book make a contribution to this goal.
This book features 15 chapters based on the Numerical and
Evolutionary Optimization (NEO 2017) workshop, held from September
27 to 29 in the city of Tijuana, Mexico. The event gathered
researchers from two complimentary fields to discuss the theory,
development and application of state-of-the-art techniques to
address search and optimization problems. The lively event included
7 invited talks and 64 regular talks covering a wide range of
topics, from evolutionary computer vision and machine learning with
evolutionary computation, to set oriented numeric and steepest
descent techniques. Including research submitted by the NEO
community, the book provides informative and stimulating material
for future research in the field.
The aim of this book is to provide a strong theoretical support for
understanding and analyzing the behavior of evolutionary
algorithms, as well as for creating a bridge between probability,
set-oriented numerics and evolutionary computation. The volume
encloses a collection of contributions that were presented at the
EVOLVE 2011 international workshop, held in Luxembourg, May 25-27,
2011, coming from invited speakers and also from selected regular
submissions. The aim of EVOLVE is to unify the perspectives offered
by probability, set oriented numerics and evolutionary computation.
EVOLVE focuses on challenging aspects that arise at the passage
from theory to new paradigms and practice, elaborating on the
foundations of evolutionary algorithms and theory-inspired methods
merged with cutting-edge techniques that ensure performance
guarantee factors. EVOLVE is also intended to foster a growing
interest for robust and efficient methods with a sound theoretical
background. The chapters enclose challenging theoretical findings,
concrete optimization problems as well as new perspectives. By
gathering contributions from researchers with different
backgrounds, the book is expected to set the basis for a unified
view and vocabulary where theoretical advancements may echo in
different domains.
This volume encloses research articles that were presented at
the EVOLVE 2014 International Conference in Beijing, China, July 1
4, 2014. The book gathers contributions that emerged from the
conference tracks, ranging from probability to set oriented
numerics and evolutionary computation; all complemented by the
bridging purpose of the conference, e.g. Complex Networks and
Landscape Analysis, or by the more application oriented
perspective. The novelty of the volume, when considering the EVOLVE
series, comes from targeting also the practitioner s view. This is
supported by the Machine Learning Applied to Networks and Practical
Aspects of Evolutionary Algorithms tracks, providing surveys on new
application areas, as in the networking area and useful insights in
the development of evolutionary techniques, from a practitioner s
perspective. Complementary to these directions, the conference
tracks supporting the volume, follow on the individual advancements
of the subareas constituting the scope of the conference, through
the Computational Game Theory, Local Search and Optimization,
Genetic Programming, Evolutionary Multi-objective optimization
tracks."
This book presents the latest algorithmic developments in the
cell-mapping method for the global analysis of nonlinear dynamic
systems, global solutions for multi-objective optimization
problems, and global solutions for zeros of complex algebraic
equations. It also discusses related engineering and scientific
applications, including the nonlinear design of structures for
better vibration resistance and reliability; multi-objective,
structural-acoustic design for sound abatement; optimal
multi-objective design of airfoils for better lift; and optimal
multi-objective design of linear and nonlinear controls with or
without time delay. The first book on the subject to include
extensive Matlab and C++ codes, it presents various implementation
algorithms of the cell-mapping method, enabling readers to
understand how the method works and its programming aspects. A link
to the codes on the Springer website will be provided to the
readers.
This book features 15 chapters based on the Numerical and
Evolutionary Optimization (NEO 2017) workshop, held from September
27 to 29 in the city of Tijuana, Mexico. The event gathered
researchers from two complimentary fields to discuss the theory,
development and application of state-of-the-art techniques to
address search and optimization problems. The lively event included
7 invited talks and 64 regular talks covering a wide range of
topics, from evolutionary computer vision and machine learning with
evolutionary computation, to set oriented numeric and steepest
descent techniques. Including research submitted by the NEO
community, the book provides informative and stimulating material
for future research in the field.
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Evolutionary Multi-Criterion Optimization - 9th International Conference, EMO 2017, Munster, Germany, March 19-22, 2017, Proceedings (Paperback, 1st ed. 2017)
Heike Trautmann, Gunter Rudolph, Kathrin Klamroth, Oliver Schutze, Margaret Wiecek, …
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R1,592
Discovery Miles 15 920
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Ships in 10 - 15 working days
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This book constitutes the refereed proceedings of the 9th
International Conference on Evolutionary Multi-Criterion
Optimization, EMO 2017 held in Munster, Germany in March 2017. The
33 revised full papers presented together with 13 poster
presentations were carefully reviewed and selected from 72
submissions. The EMO 2017 aims to discuss all aspects of EMO
development and deployment, including theoretical foundations;
constraint handling techniques; preference handling techniques;
handling of continuous, combinatorial or mixed-integer problems;
local search techniques; hybrid approaches; stopping criteria;
parallel EMO models; performance evaluation; test functions and
benchmark problems; algorithm selection approaches; many-objective
optimization; large scale optimization; real-world applications;
EMO algorithm implementations.
This book comprises a selection of papers from the EVOLVE 2012 held
in Mexico City, Mexico. The aim of the EVOLVE is to build a bridge
between probability, set oriented numerics and evolutionary
computing, as to identify new common and challenging research
aspects. The conference is also intended to foster a growing
interest for robust and efficient methods with a sound theoretical
background. EVOLVE is intended to unify theory-inspired methods and
cutting-edge techniques ensuring performance guarantee factors. By
gathering researchers with different backgrounds, a unified view
and vocabulary can emerge where the theoretical advancements may
echo in different domains. Summarizing, the EVOLVE focuses on
challenging aspects arising at the passage from theory to new
paradigms and aims to provide a unified view while raising
questions related to reliability, performance guarantees and
modeling. The papers of the EVOLVE 2012 make a contribution to this
goal.
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