Aprendizaje evolutivo supervisado: Uso de histograma de gradiente y algoritmo de enjambre de partículas para detección y seguimiento de peatones en secuencia de imágenes infrarrojas

Recently, tracking and pedestrian detection from various images have become one of the major issues in the field of image processing and statistical identification.  In this regard, using evolutionary learning-based approaches to improve performance in different contexts can greatly influence the appropriate response.  There are problems with pedestrian tracking/identification, such as low accuracy for detection, high processing time, and uncertainty in response to answers.  Researchers are looking for new processing models that can accurately monitor one's position on the move.  In this study, a hybrid algorithm for the automatic detection of pedestrian position is presented.  It is worth noting that this method, contrary to the analysis of visible images, examines pedestrians' thermal and infrared components while walking and combines a neural network with maximum learning capability, wavelet kernel (Wavelet transform), and particle swarm optimization (PSO) to find parameters of learner model. Gradient histograms have a high effect on extracting features in infrared images.  As well, the neural network algorithm can achieve its goal (pedestrian detection and tracking) by maximizing learning.  The proposed method, despite the possibility of maximum learning, has a high speed in education, and results of various data sets in this field have been analyzed. The result indicates a negligible error in observing the infrared sequence of pedestrian movements, and it is suggested to use neural networks because of their precision and trying to boost the selection of their hyperparameters based on evolutionary algorithms

Developing a person guidance module for hospital robots

This dissertation describes the design and implementation of the Person Guidance Module (PGM) that enables the IWARD (Intelligent Robot Swarm for attendance, Recognition, Cleaning and delivery) base robot to offer route guidance service to the patients or visitors inside the hospital arena. One of the common problems encountered in huge hospital buildings today is foreigners not being able to find their way around in the hospital. Although there are a variety of guide robots currently existing on the market and offering a wide range of guidance and related activities, they do not fit into the modular concept of the IWARD project. The PGM features a robust and foolproof non-hierarchical sensor fusion approach of an active RFID, stereovision and cricket mote sensor for guiding a patient to the X-ray room, or a visitor to a patient’s ward in every possible scenario in a complex, dynamic and crowded hospital environment. Moreover, the speed of the robot can be adjusted automatically according to the pace of the follower for physical comfort using this system. Furthermore, the module performs these tasks in any unconstructed environment solely from a robot’s onboard perceptual resources in order to limit the hardware installation costs and therefore the indoor setting support. Similar comprehensive solution in one single platform has remained elusive in existing literature. The finished module can be connected to any IWARD base robot using quick-change mechanical connections and standard electrical connections. The PGM module box is equipped with a Gumstix embedded computer for all module computing which is powered up automatically once the module box is inserted into the robot. In line with the general software architecture of the IWARD project, all software modules are developed as Orca2 components and cross-complied for Gumstix’s XScale processor. To support standardized communication between different software components, Internet Communications Engine (Ice) has been used as middleware. Additionally, plug-and-play capabilities have been developed and incorporated so that swarm system is aware at all times of which robot is equipped with PGM. Finally, in several field trials in hospital environments, the person guidance module has shown its suitability for a challenging real-world application as well as the necessary user acceptance

Soft computing and non-parametric techniques for effective video surveillance systems

Esta tesis propone varios objetivos interconectados para el diseño de un sistema de vídeovigilancia cuyo funcionamiento es pensado para un amplio rango de condiciones. Primeramente se propone una métrica de evaluación del detector y sistema de seguimiento basada en una mínima referencia. Dicha técnica es una respuesta a la demanda de ajuste de forma rápida y fácil del sistema adecuándose a distintos entornos. También se propone una técnica de optimización basada en Estrategias Evolutivas y la combinación de funciones de idoneidad en varios pasos. El objetivo es obtener los parámetros de ajuste del detector y el sistema de seguimiento adecuados para el mejor funcionamiento en una amplia gama de situaciones posibles Finalmente, se propone la construcción de un clasificador basado en técnicas no paramétricas que pudieran modelar la distribución de datos de entrada independientemente de la fuente de generación de dichos datos. Se escogen actividades detectables a corto plazo que siguen un patrón de tiempo que puede ser fácilmente modelado mediante HMMs. La propuesta consiste en una modificación del algoritmo de Baum-Welch con el fin de modelar las probabilidades de emisión del HMM mediante una técnica no paramétrica basada en estimación de densidad con kernels (KDE). _____________________________________This thesis proposes several interconnected objectives for the design of a video-monitoring system whose operation is thought for a wide rank of conditions. Firstly an evaluation technique of the detector and tracking system is proposed and it is based on a minimum reference or ground-truth. This technique is an answer to the demand of fast and easy adjustment of the system adapting itself to different contexts. Also, this thesis proposes a technique of optimization based on Evolutionary Strategies and the combination of fitness functions. The objective is to obtain the parameters of adjustment of the detector and tracking system for the best operation in an ample range of possible situations. Finally, it is proposed the generation of a classifier in which a non-parametric statistic technique models the distribution of data regardless the source generation of such data. Short term detectable activities are chosen that follow a time pattern that can easily be modeled by Hidden Markov Models (HMMs). The proposal consists in a modification of the Baum-Welch algorithm with the purpose of modeling the emission probabilities of the HMM by means of a nonparametric technique based on the density estimation with kernels (KDE)

Recent Trends in Computational Intelligence

Traditional models struggle to cope with complexity, noise, and the existence of a changing environment, while Computational Intelligence (CI) offers solutions to complicated problems as well as reverse problems. The main feature of CI is adaptability, spanning the fields of machine learning and computational neuroscience. CI also comprises biologically-inspired technologies such as the intellect of swarm as part of evolutionary computation and encompassing wider areas such as image processing, data collection, and natural language processing. This book aims to discuss the usage of CI for optimal solving of various applications proving its wide reach and relevance. Bounding of optimization methods and data mining strategies make a strong and reliable prediction tool for handling real-life applications

A Concept for Deployment and Evaluation of Unsupervised Domain Adaptation in Cognitive Perception Systems

Jüngste Entwicklungen im Bereich des tiefen Lernens ermöglichen Perzeptionssystemen datengetrieben Wissen über einen vordefinierten Betriebsbereich, eine sogenannte Domäne, zu gewinnen. Diese Verfahren des überwachten Lernens werden durch das Aufkommen groß angelegter annotierter Datensätze und immer leistungsfähigerer Prozessoren vorangetrieben und zeigen unübertroffene Performanz bei Perzeptionsaufgaben in einer Vielzahl von Anwendungsbereichen.Jedoch sind überwacht-trainierte neuronale Netze durch die Menge an verfügbaren annotierten Daten limitiert und dies wiederum findet in einem begrenzten Betriebsbereich Ausdruck. Dabei beruht überwachtes Lernen stark auf manuell durchzuführender Datenannotation. Insbesondere durch die ständig steigende Verfügbarkeit von nicht annotierten großen Datenmengen ist der Gebrauch von unüberwachter Domänenanpassung entscheidend. Verfahren zur unüberwachten Domänenanpassung sind meist nicht geeignet, um eine notwendige Inbetriebnahme des neuronalen Netzes in einer zusätzlichen Domäne zu gewährleisten. Darüber hinaus sind vorhandene Metriken häufig unzureichend für eine auf die Anwendung der domänenangepassten neuronalen Netzen ausgerichtete Validierung. Der Hauptbeitrag der vorliegenden Dissertation besteht aus neuen Konzepten zur unüberwachten Domänenanpassung. Basierend auf einer Kategorisierung von Domänenübergängen und a priori verfügbaren Wissensrepräsentationen durch ein überwacht-trainiertes neuronales Netz wird eine unüberwachte Domänenanpassung auf nicht annotierten Daten ermöglicht. Um die kontinuierliche Bereitstellung von neuronalen Netzen für die Anwendung in der Perzeption zu adressieren, wurden neuartige Verfahren speziell für die unüberwachte Erweiterung des Betriebsbereichs eines neuronalen Netzes entwickelt. Beispielhafte Anwendungsfälle des Fahrzeugsehens zeigen, wie die neuartigen Verfahren kombiniert mit neu entwickelten Metriken zur kontinuierlichen Inbetriebnahme von neuronalen Netzen auf nicht annotierten Daten beitragen. Außerdem werden die Implementierungen aller entwickelten Verfahren und Algorithmen dargestellt und öffentlich zugänglich gemacht. Insbesondere wurden die neuartigen Verfahren erfolgreich auf die unüberwachte Domänenanpassung, ausgehend von der Tag- auf die Nachtobjekterkennung im Bereich des Fahrzeugsehens angewendet