52 research outputs found
Unsupervised Monitoring of Machining Processes
Machining processes, such as milling, drilling, turning and grinding, concern the removal of material from a workpiece using a cutting tool. These processes are sensitive to parameters such as cutting tool properties, workpiece materials, coolant application, machine selection, fixturing and cutting parameters. The focus of the work in this thesis is to devise a method to monitor the changing conditions of a machining process over time in order to detect faulty machining conditions and diagnose fault types and causes. A key aim of this thesis is to develop a monitoring regime that has minimal cost of implementation and upkeep in a production environment, therefore an unsupervised monitoring system which applies non-intrusive sensing hardware is proposed
Proceedings of the 7th Sound and Music Computing Conference
Proceedings of the SMC2010 - 7th Sound and Music Computing Conference, July 21st - July 24th 2010
The doctoral research abstract. Vol:9 2016 / Institute of Graduate Studies, UiTM
FOREWORD:
Seventy three doctoral graduands will be receiving their scroll today signifying their
achievements in completing their PhD journey. The novelty of their research is shared with
you through The Doctoral Abstracts on this auspicious occasion, UiTM 84th Convocation.
We are indeed proud that another 73 scholarly contributions to the world of knowledge
and innovation have taken place through their doctoral research ranging from Science and
Technology, Business and Administration, and Social Science and Humanities.
As we rejoice and celebrate your achievement, we would like to acknowledge
dearly departed Dr Halimi Zakaria’s scholarly contribution entitled
“Impact of Antecedent Factors on Collaborative Technologies Usage
among Academic Researchers in Malaysian Research Universities”. He
has left behind his discovery to be used by other researchers in their quest
of pursuing research in the same area, a discovery that his family can be
proud of.
Graduands, earning your PhD is not the end of discovering new ideas,
invention or innovation but rather the start of discovering something
new. Enjoy every moment of its discovery and embrace that life is
full of mystery and treasure that is waiting for you to unfold. As
you unfold life’s mystery, remember you have a friend to count
on, and that friend is UiTM.
Congratulations for completing this academic journey. Keep
UiTM close to your heart and be our ambassador wherever
you go. / Prof Emeritus Dato’ Dr Hassan Said
Vice Chancellor
Universiti Teknologi MAR
Recent Application in Biometrics
In the recent years, a number of recognition and authentication systems based on biometric measurements have been proposed. Algorithms and sensors have been developed to acquire and process many different biometric traits. Moreover, the biometric technology is being used in novel ways, with potential commercial and practical implications to our daily activities. The key objective of the book is to provide a collection of comprehensive references on some recent theoretical development as well as novel applications in biometrics. The topics covered in this book reflect well both aspects of development. They include biometric sample quality, privacy preserving and cancellable biometrics, contactless biometrics, novel and unconventional biometrics, and the technical challenges in implementing the technology in portable devices. The book consists of 15 chapters. It is divided into four sections, namely, biometric applications on mobile platforms, cancelable biometrics, biometric encryption, and other applications. The book was reviewed by editors Dr. Jucheng Yang and Dr. Norman Poh. We deeply appreciate the efforts of our guest editors: Dr. Girija Chetty, Dr. Loris Nanni, Dr. Jianjiang Feng, Dr. Dongsun Park and Dr. Sook Yoon, as well as a number of anonymous reviewers
Recommended from our members
A Review and Analysis of Automatic Optical Inspection and Quality Monitoring Methods in Electronics Industry
Electronics industry is one of the fastest evolving, innovative, and most competitive industries. In order to meet the high consumption demands on electronics components, quality standards of the products must be well-maintained. Automatic optical inspection (AOI) is one of the non-destructive techniques used in quality inspection of various products. This technique is considered robust and can replace human inspectors who are subjected to dull and fatigue in performing inspection tasks. A fully automated optical inspection system consists of hardware and software setups. Hardware setup include image sensor and illumination settings and is responsible to acquire the digital image, while the software part implements an inspection algorithm to extract the features of the acquired images and classify them into defected and non-defected based on the user requirements. A sorting mechanism can be used to separate the defective products from the good ones. This article provides a comprehensive review of the various AOI systems used in electronics, micro-electronics, and opto-electronics industries. In this review the defects of the commonly inspected electronic components, such as semiconductor wafers, flat panel displays, printed circuit boards and light emitting diodes, are first explained. Hardware setups used in acquiring images are then discussed in terms of the camera and lighting source selection and configuration. The inspection algorithms used for detecting the defects in the electronic components are discussed in terms of the preprocessing, feature extraction and classification tools used for this purpose. Recent articles that used deep learning algorithms are also reviewed. The article concludes by highlighting the current trends and possible future research directions.Framework of the IQONIC Project; European Union’s Horizon 2020 Research and Innovation Program
Contributions to region-based image and video analysis: feature aggregation, background subtraction and description constraining
Tesis doctoral inédita leída en la Universidad Autónoma de Madrid, Escuela Politécnica Superior, Departamento de Tecnología Electrónica y de las Comunicaciones. Fecha de lectura: 22-01-2016Esta tesis tiene embargado el acceso al texto completo hasta el 22-07-2017The use of regions for image and video analysis has been traditionally motivated by their ability
to diminish the number of processed units and hence, the number of required decisions. However,
as we explore in this thesis, this is just one of the potential advantages that regions may
provide. When dealing with regions, two description spaces may be differentiated: the decision
space, on which regions are shaped—region segmentation—, and the feature space, on which
regions are used for analysis—region-based applications—. These two spaces are highly related.
The solutions taken on the decision space severely affect their performance in the feature space.
Accordingly, in this thesis we propose contributions on both spaces. Regarding the contributions
to region segmentation, these are two-fold. Firstly, we give a twist to a classical region segmentation
technique, the Mean-Shift, by exploring new solutions to automatically set the spectral
kernel bandwidth. Secondly, we propose a method to describe the micro-texture of a pixel
neighbourhood by using an easily customisable filter-bank methodology—which is based on the
discrete cosine transform (DCT)—. The rest of the thesis is devoted to describe region-based
approaches to several highly topical issues in computer vision; two broad tasks are explored:
background subtraction (BS) and local descriptors (LD). Concerning BS, regions are here used
as complementary cues to refine pixel-based BS algorithms: by providing robust to illumination
cues and by storing the background dynamics in a region-driven background modelling. Relating
to LD, the region is here used to reshape the description area usually fixed for local descriptors.
Region-masked versions of classical two-dimensional and three-dimensional local descriptions are
designed. So-built descriptions are proposed for the task of object identification, under a novel
neural-oriented strategy. Furthermore, a local description scheme based on a fuzzy use of the
region membership is derived. This characterisation scheme has been geometrically adapted to
account for projective deformations, providing a suitable tool for finding corresponding points
in wide-baseline scenarios. Experiments have been conducted for every contribution, discussing
the potential benefits and the limitations of the proposed schemes. In overall, obtained results
suggest that the region—conditioned by successful aggregation processes—is a reliable and
useful tool to extrapolate pixel-level results, diminish semantic noise, isolate significant object
cues and constrain local descriptions. The methods and approaches described along this thesis
present alternative or complementary solutions to pixel-based image processing.El uso de regiones para el análisis de imágenes y secuencias de video ha estado tradicionalmente
motivado por su utilidad para disminuir el número de unidades de análisis y, por ende, el número
de decisiones. En esta tesis evidenciamos que esta es sólo una de las muchas ventajas adheridas
a la utilización de regiones. En el procesamiento por regiones deben distinguirse dos espacios de
análisis: el espacio de decisión, en donde se construyen las regiones, y el espacio de características,
donde se utilizan. Ambos espacios están altamente relacionados. Las soluciones diseñadas para
la construcción de regiones en el espacio de decisión definen su utilidad en el espacio de análisis.
Por este motivo, a lo largo de esta tesis estudiamos ambos espacios. En particular, proponemos
dos contribuciones en la etapa de construcción de regiones. En la primera, revisitamos una
técnica clásica, Mean-Shift, e introducimos un esquema para la selección automática del ancho
de banda que permite estimar localmente la densidad de una determinada característica. En
la segunda, utilizamos la transformada discreta del coseno para describir la variabilidad local
en el entorno de un píxel. En el resto de la tesis exploramos soluciones en el espacio de características,
en otras palabras, proponemos aplicaciones que se apoyan en la región para realizar
el procesamiento. Dichas aplicaciones se centran en dos ramas candentes en el ámbito de la
visión por computador: la segregación del frente por substracción del fondo y la descripción
local de los puntos de una imagen. En la rama substracción de fondo, utilizamos las regiones
como unidades de apoyo a los algoritmos basados exclusivamente en el análisis a nivel de píxel.
En particular, mejoramos la robustez de estos algoritmos a los cambios locales de iluminación y
al dinamismo del fondo. Para esta última técnica definimos un modelo de fondo completamente
basado en regiones. Las contribuciones asociadas a la rama de descripción local están centradas
en el uso de la región para definir, automáticamente, entornos de descripción alrededor
de los puntos. En las aproximaciones existentes, estos entornos de descripción suelen ser de
tamaño y forma fija. Como resultado de este procedimiento se establece el diseño de versiones
enmascaradas de descriptores bidimensionales y tridimensionales. En el algoritmo desarrollado,
organizamos los descriptores así diseñados en una estructura neuronal y los utilizamos para la
identificación automática de objetos. Por otro lado, proponemos un esquema de descripción
mediante asociación difusa de píxeles a regiones. Este entorno de descripción es transformado
geométricamente para adaptarse a potenciales deformaciones proyectivas en entornos estéreo donde las cámaras están ampliamente separadas. Cada una de las aproximaciones desarrolladas
se evalúa y discute, remarcando las ventajas e inconvenientes asociadas a su utilización. En
general, los resultados obtenidos sugieren que la región, asumiendo que ha sido construida de
manera exitosa, es una herramienta fiable y de utilidad para: extrapolar resultados a nivel de
pixel, reducir el ruido semántico, aislar las características significativas de los objetos y restringir
la descripción local de estas características. Los métodos y enfoques descritos a lo largo de esta
tesis establecen soluciones alternativas o complementarias al análisis a nivel de píxelIt was partially supported by the Spanish Government trough
its FPU grant program and the projects (TEC2007-65400 - SemanticVideo), (TEC2011-25995 Event
Video) and (TEC2014-53176-R HAVideo); the European Commission (IST-FP6-027685 - Mesh); the
Comunidad de Madrid (S-0505/TIC-0223 - ProMultiDis-CM) and the Spanish Administration Agency
CENIT 2007-1007 (VISION)
Seamless Multimodal Biometrics for Continuous Personalised Wellbeing Monitoring
Artificially intelligent perception is increasingly present in the lives of
every one of us. Vehicles are no exception, (...) In the near future, pattern
recognition will have an even stronger role in vehicles, as self-driving cars
will require automated ways to understand what is happening around (and within)
them and act accordingly. (...) This doctoral work focused on advancing
in-vehicle sensing through the research of novel computer vision and pattern
recognition methodologies for both biometrics and wellbeing monitoring. The
main focus has been on electrocardiogram (ECG) biometrics, a trait well-known
for its potential for seamless driver monitoring. Major efforts were devoted to
achieving improved performance in identification and identity verification in
off-the-person scenarios, well-known for increased noise and variability. Here,
end-to-end deep learning ECG biometric solutions were proposed and important
topics were addressed such as cross-database and long-term performance,
waveform relevance through explainability, and interlead conversion. Face
biometrics, a natural complement to the ECG in seamless unconstrained
scenarios, was also studied in this work. The open challenges of masked face
recognition and interpretability in biometrics were tackled in an effort to
evolve towards algorithms that are more transparent, trustworthy, and robust to
significant occlusions. Within the topic of wellbeing monitoring, improved
solutions to multimodal emotion recognition in groups of people and
activity/violence recognition in in-vehicle scenarios were proposed. At last,
we also proposed a novel way to learn template security within end-to-end
models, dismissing additional separate encryption processes, and a
self-supervised learning approach tailored to sequential data, in order to
ensure data security and optimal performance. (...)Comment: Doctoral thesis presented and approved on the 21st of December 2022
to the University of Port
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