57 research outputs found
Advances in Artificial Intelligence: Models, Optimization, and Machine Learning
Get PDFThe present book contains all the articles accepted and published in the Special Issue “Advances in Artificial Intelligence: Models, Optimization, and Machine Learning” of the MDPI Mathematics journal, which covers a wide range of topics connected to the theory and applications of artificial intelligence and its subfields. These topics include, among others, deep learning and classic machine learning algorithms, neural modelling, architectures and learning algorithms, biologically inspired optimization algorithms, algorithms for autonomous driving, probabilistic models and Bayesian reasoning, intelligent agents and multiagent systems. We hope that the scientific results presented in this book will serve as valuable sources of documentation and inspiration for anyone willing to pursue research in artificial intelligence, machine learning and their widespread applications
Nature-inspired algorithms for solving some hard numerical problems
Get PDFOptimisation is a branch of mathematics that was developed to find the optimal solutions,
among all the possible ones, for a given problem. Applications of optimisation techniques
are currently employed in engineering, computing, and industrial problems. Therefore, optimisation is a very active research area, leading to the publication of a large number of
methods to solve specific problems to its optimality.
This dissertation focuses on the adaptation of two nature inspired algorithms that, based
on optimisation techniques, are able to compute approximations for zeros of polynomials
and roots of non-linear equations and systems of non-linear equations.
Although many iterative methods for finding all the roots of a given function already
exist, they usually require: (a) repeated deflations, that can lead to very inaccurate results
due to the problem of accumulating rounding errors, (b) good initial approximations to the
roots for the algorithm converge, or (c) the computation of first or second order derivatives,
which besides being computationally intensive, it is not always possible.
The drawbacks previously mentioned served as motivation for the use of Particle Swarm
Optimisation (PSO) and Artificial Neural Networks (ANNs) for root-finding, since they are
known, respectively, for their ability to explore high-dimensional spaces (not requiring good
initial approximations) and for their capability to model complex problems. Besides that,
both methods do not need repeated deflations, nor derivative information.
The algorithms were described throughout this document and tested using a test suite of
hard numerical problems in science and engineering. Results, in turn, were compared with
several results available on the literature and with the well-known Durand–Kerner method,
depicting that both algorithms are effective to solve the numerical problems considered.A Optimização é um ramo da matemática desenvolvido para encontrar as soluções óptimas, de entre todas as possíveis, para um determinado problema. Actualmente, são várias as
técnicas de optimização aplicadas a problemas de engenharia, de informática e da indústria.
Dada a grande panóplia de aplicações, existem inúmeros trabalhos publicados que propõem
métodos para resolver, de forma óptima, problemas específicos.
Esta dissertação foca-se na adaptação de dois algoritmos inspirados na natureza que,
tendo como base técnicas de optimização, são capazes de calcular aproximações para zeros
de polinómios e raízes de equações não lineares e sistemas de equações não lineares.
Embora já existam muitos métodos iterativos para encontrar todas as raízes ou zeros de
uma função, eles usualmente exigem: (a) deflações repetidas, que podem levar a resultados
muito inexactos, devido ao problema da acumulação de erros de arredondamento a cada
iteração; (b) boas aproximações iniciais para as raízes para o algoritmo convergir, ou (c) o
cálculo de derivadas de primeira ou de segunda ordem que, além de ser computacionalmente
intensivo, para muitas funções é impossível de se calcular.
Estas desvantagens motivaram o uso da Optimização por Enxame de Partículas (PSO) e
de Redes Neurais Artificiais (RNAs) para o cálculo de raízes. Estas técnicas são conhecidas,
respectivamente, pela sua capacidade de explorar espaços de dimensão superior (não exigindo
boas aproximações iniciais) e pela sua capacidade de modelar problemas complexos. Além
disto, tais técnicas não necessitam de deflações repetidas, nem do cálculo de derivadas.
Ao longo deste documento, os algoritmos são descritos e testados, usando um conjunto de
problemas numéricos com aplicações nas ciências e na engenharia. Os resultados foram comparados com outros disponíveis na literatura e com o método de Durand–Kerner, e sugerem
que ambos os algoritmos são capazes de resolver os problemas numéricos considerados
Evolutionary Computation
Get PDFThis book presents several recent advances on Evolutionary Computation, specially evolution-based optimization methods and hybrid algorithms for several applications, from optimization and learning to pattern recognition and bioinformatics. This book also presents new algorithms based on several analogies and metafores, where one of them is based on philosophy, specifically on the philosophy of praxis and dialectics. In this book it is also presented interesting applications on bioinformatics, specially the use of particle swarms to discover gene expression patterns in DNA microarrays. Therefore, this book features representative work on the field of evolutionary computation and applied sciences. The intended audience is graduate, undergraduate, researchers, and anyone who wishes to become familiar with the latest research work on this field
Metaheuristic Optimization Techniques for Articulated Human Tracking
Get PDFFour adaptive metaheuristic optimization algorithms are proposed and demonstrated: Adaptive Parameter Particle Swarm Optimization (AP-PSO), Modified Artificial Bat (MAB), Differential Mutated Artificial Immune System (DM-AIS) and hybrid Particle Swarm Accelerated Artificial Immune System (PSO-AIS). The algorithms adapt their search parameters on the basis of the fitness of obtained solutions such that a good fitness value favors local search, while a poor fitness value favors global search. This efficient feedback of the solution quality, imparts excellent global and local search characteristic to the proposed algorithms.
The algorithms are tested on the challenging Articulated Human Tracking (AHT) problem whose objective is to infer human pose, expressed in terms of joint angles, from a continuous video stream. The Particle Filter (PF) algorithms, widely applied in generative model based AHT, suffer from the 'curse of dimensionality' and 'degeneracy' challenges. The four proposed algorithms show stable performance throughout the course of numerical experiments. DM-AIS performs best among the proposed algorithms followed in order by PSO-AIS, AP-PSO, and MBA in terms of Most Appropriate Pose (MAP) tracking error.
The MAP tracking error of the proposed algorithms is compared with four heuristic approaches: generic PF, Annealed Particle Filter (APF), Partitioned Sampled Annealed Particle Filter (PSAPF) and Hierarchical Particle Swarm Optimization (HPSO). They are found to outperform generic PF with a confidence level of 95%, PSAPF and HPSO with a confidence level of 85%. While DM-AIS and PSO-AIS outperform APF with a confidence level of 80%. Further, it is noted that the proposed algorithms outperform PSAPF and HPSO using a significantly lower number of function evaluations, 2500 versus 7200.
The proposed algorithms demonstrate reduced particle requirements, hence improving computational efficiency and helping to alleviate the 'curse of dimensionality'. The adaptive nature of the algorithms is found to guide the whole swarm towards the optimal solution by sharing information and exploring a wider solution space which resolves the 'degeneracy' challenge. Furthermore, the decentralized structure of the algorithms renders them insensitive to accumulation of error and allows them to recover from catastrophic failures due to loss of image data, sudden change in motion pattern or discrete instances of algorithmic failure. The performance enhancements demonstrated by the proposed algorithms, attributed to their balanced local and global search capabilities, makes real-time AHT applications feasible.
Finally, the utility of the proposed algorithms in low-dimensional system identification problems as well as high-dimensional AHT problems demonstrates their applicability in various problem domains
Implementing Industry 4.0 in SMEs
Get PDFThis open access book addresses the practical challenges that Industry 4.0 presents for SMEs. While large companies are already responding to the changes resulting from the fourth industrial revolution , small businesses are in danger of falling behind due to the lack of examples, best practices and established methods and tools. Following on from the publication of the previous book ‘Industry 4.0 for SMEs: Challenges, Opportunities and Requirements’, the authors offer in this new book innovative results from research on smart manufacturing, smart logistics and managerial models for SMEs. Based on a large scale EU-funded research project involving seven academic institutions from three continents and a network of over fifty small and medium sized enterprises, the book reveals the methods and tools required to support the successful implementation of Industry 4.0 along with practical examples
Recent Advances in Social Data and Artificial Intelligence 2019
Get PDFThe importance and usefulness of subjects and topics involving social data and artificial intelligence are becoming widely recognized. This book contains invited review, expository, and original research articles dealing with, and presenting state-of-the-art accounts pf, the recent advances in the subjects of social data and artificial intelligence, and potentially their links to Cyberspace
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