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1. Use of triplet loss for facial restoration in low-resolution images

Author

Pulgar, Sebastian and Mery, Domingo

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Cryptography and Security
Abstract

In recent years, facial recognition (FR) models have become the most widely used biometric tool, achieving impressive results on numerous datasets. However, inherent hardware challenges or shooting distances often result in low-resolution images, which significantly impact the performance of FR models. To address this issue, several solutions have been proposed, including super-resolution (SR) models that generate highly realistic faces. Despite these efforts, significant improvements in FR algorithms have not been achieved. We propose a novel SR model FTLGAN, which focuses on generating high-resolution images that preserve individual identities rather than merely improving image quality, thereby maximizing the performance of FR models. The results are compelling, demonstrating a mean value of d' 21% above the best current state-of-the-art models, specifically having a value of d' = 1.099 and AUC = 0.78 for 14x14 pixels, d' = 2.112 and AUC = 0.92 for 28x28 pixels, and d' = 3.049 and AUC = 0.98 for 56x56 pixels. The contributions of this study are significant in several key areas. Firstly, a notable improvement in facial recognition performance has been achieved in low-resolution images, specifically at resolutions of 14x14, 28x28, and 56x56 pixels. Secondly, the enhancements demonstrated by FTLGAN show a consistent response across all resolutions, delivering outstanding performance uniformly, unlike other comparative models. Thirdly, an innovative approach has been implemented using triplet loss logic, enabling the training of the super-resolution model solely with real images, contrasting with current models, and expanding potential real-world applications. Lastly, this study introduces a novel model that specifically addresses the challenge of improving classification performance in facial recognition systems by integrating facial recognition quality as a loss during model training., Comment: 10 pages, 8 figures

Published
2024

2. Automatic knowledge-graph creation from historical documents: The Chilean dictatorship as a case study

Author

Díaz, Camila, Dunstan, Jocelyn, Etcheverry, Lorena, Fonck, Antonia, Grez, Alejandro, Mery, Domingo, Reutter, Juan, and Rojas, Hugo

Subjects
Computer Science - Computers and Society
Abstract

We present our results regarding the automatic construction of a knowledge graph from historical documents related to the Chilean dictatorship period (1973-1990). Our approach consists on using LLMs to automatically recognize entities and relations between these entities, and also to perform resolution between these sets of values. In order to prevent hallucination, the interaction with the LLM is grounded in a simple ontology with 4 types of entities and 7 types of relations. To evaluate our architecture, we use a gold standard graph constructed using a small subset of the documents, and compare this to the graph obtained from our approach when processing the same set of documents. Results show that the automatic construction manages to recognize a good portion of all the entities in the gold standard, and that those not recognized are mostly explained by the level of granularity in which the information is structured in the graph, and not because the automatic approach misses an important entity in the graph. Looking forward, we expect this report will encourage work on other similar projects focused on enhancing research in humanities and social science, but we remark that better evaluation metrics are needed in order to accurately fine-tune these types of architectures., Comment: 11 pages, 1 figure, 2 tables. Paper submitted to KBC-LM 2024

Published
2024

3. CRAFT: Contextual Re-Activation of Filters for face recognition Training

Author

Bhatta, Aman, Mery, Domingo, Wu, Haiyu, and Bowyer, Kevin W.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The first layer of a deep CNN backbone applies filters to an image to extract the basic features available to later layers. During training, some filters may go inactive, mean ing all weights in the filter approach zero. An inactive fil ter in the final model represents a missed opportunity to extract a useful feature. This phenomenon is especially prevalent in specialized CNNs such as for face recogni tion (as opposed to, e.g., ImageNet). For example, in one the most widely face recognition model (ArcFace), about half of the convolution filters in the first layer are inactive. We propose a novel approach designed and tested specif ically for face recognition networks, known as "CRAFT: Contextual Re-Activation of Filters for Face Recognition Training". CRAFT identifies inactive filters during training and reinitializes them based on the context of strong filters at that stage in training. We show that CRAFT reduces fraction of inactive filters from 44% to 32% on average and discovers filter patterns not found by standard training. Compared to standard training without reactivation, CRAFT demonstrates enhanced model accuracy on standard face-recognition benchmark datasets including AgeDB-30, CPLFW, LFW, CALFW, and CFP-FP, as well as on more challenging datasets like IJBB and IJBC.

Published
2023

6. What's color got to do with it? Face recognition in grayscale

Author

Bhatta, Aman, Mery, Domingo, Wu, Haiyu, Annan, Joyce, King, Micheal C., and Bowyer, Kevin W.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Computers and Society
Abstract

State-of-the-art deep CNN face matchers are typically created using extensive training sets of color face images. Our study reveals that such matchers attain virtually identical accuracy when trained on either grayscale or color versions of the training set, even when the evaluation is done using color test images. Furthermore, we demonstrate that shallower models, lacking the capacity to model complex representations, rely more heavily on low-level features such as those associated with color. As a result, they display diminished accuracy when trained with grayscale images. We then consider possible causes for deeper CNN face matchers "not seeing color". Popular web-scraped face datasets actually have 30 to 60% of their identities with one or more grayscale images. We analyze whether this grayscale element in the training set impacts the accuracy achieved, and conclude that it does not. We demonstrate that using only grayscale images for both training and testing achieves accuracy comparable to that achieved using only color images for deeper models. This holds true for both real and synthetic training datasets. HSV color space, which separates chroma and luma information, does not improve the network's learning about color any more than in the RGB color space. We then show that the skin region of an individual's images in a web-scraped training set exhibits significant variation in their mapping to color space. This suggests that color carries limited identity-specific information. We also show that when the first convolution layer is restricted to a single filter, models learn a grayscale conversion filter and pass a grayscale version of the input color image to the next layer. Finally, we demonstrate that leveraging the lower per-image storage for grayscale to increase the number of images in the training set can improve accuracy of the face recognition model., Comment: This is replacement version of the previous arxiv submission: 2309.05180 (Our Deep CNN Face Matchers Have Developed Achromatopsia). The past version is published in CVPRW and available in IEEE proceedings. This submitted version is an extension of the conference paper

Published
2023

7. Distinguishing a planetary transit from false positives: a Transformer-based classification for planetary transit signals

Author

Salinas, Helem, Pichara, Karim, Brahm, Rafael, Pérez-Galarce, Francisco, and Mery, Domingo

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Current space-based missions, such as the Transiting Exoplanet Survey Satellite (TESS), provide a large database of light curves that must be analysed efficiently and systematically. In recent years, deep learning (DL) methods, particularly convolutional neural networks (CNN), have been used to classify transit signals of candidate exoplanets automatically. However, CNNs have some drawbacks; for example, they require many layers to capture dependencies on sequential data, such as light curves, making the network so large that it eventually becomes impractical. The self-attention mechanism is a DL technique that attempts to mimic the action of selectively focusing on some relevant things while ignoring others. Models, such as the Transformer architecture, were recently proposed for sequential data with successful results. Based on these successful models, we present a new architecture for the automatic classification of transit signals. Our proposed architecture is designed to capture the most significant features of a transit signal and stellar parameters through the self-attention mechanism. In addition to model prediction, we take advantage of attention map inspection, obtaining a more interpretable DL approach. Thus, we can identify the relevance of each element to differentiate a transit signal from false positives, simplifying the manual examination of candidates. We show that our architecture achieves competitive results concerning the CNNs applied for recognizing exoplanetary transit signals in data from the TESS telescope. Based on these results, we demonstrate that applying this state-of-the-art DL model to light curves can be a powerful technique for transit signal detection while offering a level of interpretability.

Published
2023
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8. Informative regularization for a multi-layer perceptron RR Lyrae classifier under data shift

Author

Pérez-Galarce, Francisco, Pichara, Karim, Huijse, Pablo, Catelan, Márcio, and Mery, Domingo

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Mathematics - Optimization and Control
Abstract

In recent decades, machine learning has provided valuable models and algorithms for processing and extracting knowledge from time-series surveys. Different classifiers have been proposed and performed to an excellent standard. Nevertheless, few papers have tackled the data shift problem in labeled training sets, which occurs when there is a mismatch between the data distribution in the training set and the testing set. This drawback can damage the prediction performance in unseen data. Consequently, we propose a scalable and easily adaptable approach based on an informative regularization and an ad-hoc training procedure to mitigate the shift problem during the training of a multi-layer perceptron for RR Lyrae classification. We collect ranges for characteristic features to construct a symbolic representation of prior knowledge, which was used to model the informative regularizer component. Simultaneously, we design a two-step back-propagation algorithm to integrate this knowledge into the neural network, whereby one step is applied in each epoch to minimize classification error, while another is applied to ensure regularization. Our algorithm defines a subset of parameters (a mask) for each loss function. This approach handles the forgetting effect, which stems from a trade-off between these loss functions (learning from data versus learning expert knowledge) during training. Experiments were conducted using recently proposed shifted benchmark sets for RR Lyrae stars, outperforming baseline models by up to 3\% through a more reliable classifier. Our method provides a new path to incorporate knowledge from characteristic features into artificial neural networks to manage the underlying data shift problem.

Published
2023
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9. Identity Document to Selfie Face Matching Across Adolescence

Author

Albiero, Vítor, Srinivas, Nisha, Villalobos, Esteban, Perez-Facuse, Jorge, Rosenthal, Roberto, Mery, Domingo, Ricanek, Karl, and Bowyer, Kevin W.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Matching live images (``selfies'') to images from ID documents is a problem that can arise in various applications. A challenging instance of the problem arises when the face image on the ID document is from early adolescence and the live image is from later adolescence. We explore this problem using a private dataset called Chilean Young Adult (CHIYA) dataset, where we match live face images taken at age 18-19 to face images on ID documents created at ages 9 to 18. State-of-the-art deep learning face matchers (e.g., ArcFace) have relatively poor accuracy for document-to-selfie face matching. To achieve higher accuracy, we fine-tune the best available open-source model with triplet loss for a few-shot learning. Experiments show that our approach achieves higher accuracy than the DocFace+ model recently developed for this problem. Our fine-tuned model was able to improve the true acceptance rate for the most difficult (largest age span) subset from 62.92% to 96.67% at a false acceptance rate of 0.01%. Our fine-tuned model is available for use by other researchers.

Published
2019

10. Graph Representation for Face Analysis in Image Collections

Author

Mery, Domingo and Valdes, Florencia

Subjects
Computer Science - Social and Information Networks, Computer Science - Computer Vision and Pattern Recognition
Abstract

Given an image collection of a social event with a huge number of pictures, it is very useful to have tools that can be used to analyze how the individuals --that are present in the collection-- interact with each other. In this paper, we propose an optimal graph representation that is based on the `connectivity' of them. The connectivity of a pair of subjects gives a score that represents how `connected' they are. It is estimated based on co-occurrence, closeness, facial expressions, and the orientation of the head when they are looking to each other. In our proposed graph, the nodes represent the subjects of the collection, and the edges correspond to their connectivities. The location of the nodes is estimated according to their connectivity (the closer the nodes, the more connected are the subjects). Finally, we developed a graphical user interface in which we can click onto the nodes (or the edges) to display the corresponding images of the collection in which the subject of the nodes (or the connected subjects) are present. We present relevant results by analyzing a wedding celebration, a sitcom video, a volleyball game and images extracted from Twitter given a hashtag. We believe that this tool can be very helpful to detect the existing social relations in an image collection., Comment: 6 pages, 6 figures

Published
2019

11. On Low-Resolution Face Recognition in the Wild: Comparisons and New Techniques

Author

Li, Pei, Prieto, Loreto, Mery, Domingo, and Flynn, Patrick

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Although face recognition systems have achieved impressive performance in recent years, the low-resolution face recognition (LRFR) task remains challenging, especially when the LR faces are captured under non-ideal conditions, as is common in surveillance-based applications. Faces captured in such conditions are often contaminated by blur, nonuniform lighting, and nonfrontal face pose. In this paper, we analyze face recognition techniques using data captured under low-quality conditions in the wild. We provide a comprehensive analysis of experimental results for two of the most important applications in real surveillance applications, and demonstrate practical approaches to handle both cases that show promising performance. The following three contributions are made: {\em (i)} we conduct experiments to evaluate super-resolution methods for low-resolution face recognition; {\em (ii)} we study face re-identification on various public face datasets including real surveillance and low-resolution subsets of large-scale datasets, present a baseline result for several deep learning based approaches, and improve them by introducing a GAN pre-training approach and fully convolutional architecture; and {\em (iii)} we explore low-resolution face identification by employing a state-of-the-art supervised discriminative learning approach. Evaluations are conducted on challenging portions of the SCFace and UCCSface datasets.

Published
2018
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12. Face Recognition in Low Quality Images: A Survey

Author

Li, Pei, Prieto, Loreto, Mery, Domingo, and Flynn, Patrick

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Low-resolution face recognition (LRFR) has received increasing attention over the past few years. Its applications lie widely in the real-world environment when high-resolution or high-quality images are hard to capture. One of the biggest demands for LRFR technologies is video surveillance. As the the number of surveillance cameras in the city increases, the videos that captured will need to be processed automatically. However, those videos or images are usually captured with large standoffs, arbitrary illumination condition, and diverse angles of view. Faces in these images are generally small in size. Several studies addressed this problem employed techniques like super resolution, deblurring, or learning a relationship between different resolution domains. In this paper, we provide a comprehensive review of approaches to low-resolution face recognition in the past five years. First, a general problem definition is given. Later, systematically analysis of the works on this topic is presented by catogory. In addition to describing the methods, we also focus on datasets and experiment settings. We further address the related works on unconstrained low-resolution face recognition and compare them with the result that use synthetic low-resolution data. Finally, we summarized the general limitations and speculate a priorities for the future effort., Comment: There are some mistakes addressing in this paper which will be misleading to the reader and we wont have a new version in short time. We will resubmit once it is being corected

Published
2018

13. Seed-Point Detection of Clumped Convex Objects by Short-Range Attractive Long-Range Repulsive Particle Clustering

Author

Kapaldo, James, Han, Xu, and Mery, Domingo

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Locating the center of convex objects is important in both image processing and unsupervised machine learning/data clustering fields. The automated analysis of biological images uses both of these fields for locating cell nuclei and for discovering new biological effects or cell phenotypes. In this work, we develop a novel clustering method for locating the centers of overlapping convex objects by modeling particles that interact by a short-range attractive and long-range repulsive potential and are confined to a potential well created from the data. We apply this method to locating the centers of clumped nuclei in cultured cells, where we show that it results in a significant improvement over existing methods (8.2% in F$_1$ score); and we apply it to unsupervised learning on a difficult data set that has rare classes without local density maxima, and show it is able to well locate cluster centers when other clustering techniques fail., Comment: 10 pages, 8 figures, with supplemental notes and videos. Submitted to be published

Published
2018

14. Comparing Neural and Attractiveness-based Visual Features for Artwork Recommendation

Author

Dominguez, Vicente, Messina, Pablo, Parra, Denis, Mery, Domingo, Trattner, Christoph, and Soto, Alvaro

Subjects
Computer Science - Information Retrieval, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Digital Libraries
Abstract

Advances in image processing and computer vision in the latest years have brought about the use of visual features in artwork recommendation. Recent works have shown that visual features obtained from pre-trained deep neural networks (DNNs) perform very well for recommending digital art. Other recent works have shown that explicit visual features (EVF) based on attractiveness can perform well in preference prediction tasks, but no previous work has compared DNN features versus specific attractiveness-based visual features (e.g. brightness, texture) in terms of recommendation performance. In this work, we study and compare the performance of DNN and EVF features for the purpose of physical artwork recommendation using transactional data from UGallery, an online store of physical paintings. In addition, we perform an exploratory analysis to understand if DNN embedded features have some relation with certain EVF. Our results show that DNN features outperform EVF, that certain EVF features are more suited for physical artwork recommendation and, finally, we show evidence that certain neurons in the DNN might be partially encoding visual features such as brightness, providing an opportunity for explaining recommendations based on visual neural models., Comment: DLRS 2017 workshop, co-located at RecSys 2017

Published
2017
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15. Action Recognition in Video Using Sparse Coding and Relative Features

Author

Alfaro, Anali, Mery, Domingo, and Soto, Alvaro

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This work presents an approach to category-based action recognition in video using sparse coding techniques. The proposed approach includes two main contributions: i) A new method to handle intra-class variations by decomposing each video into a reduced set of representative atomic action acts or key-sequences, and ii) A new video descriptor, ITRA: Inter-Temporal Relational Act Descriptor, that exploits the power of comparative reasoning to capture relative similarity relations among key-sequences. In terms of the method to obtain key-sequences, we introduce a loss function that, for each video, leads to the identification of a sparse set of representative key-frames capturing both, relevant particularities arising in the input video, as well as relevant generalities arising in the complete class collection. In terms of the method to obtain the ITRA descriptor, we introduce a novel scheme to quantify relative intra and inter-class similarities among local temporal patterns arising in the videos. The resulting ITRA descriptor demonstrates to be highly effective to discriminate among action categories. As a result, the proposed approach reaches remarkable action recognition performance on several popular benchmark datasets, outperforming alternative state-of-the-art techniques by a large margin., Comment: Accepted to CVPR 2016

Published
2016

19. Our Deep CNN Face Matchers Have Developed Achromatopsia

Author

Bhatta, Aman, Mery, Domingo, Wu, Haiyu, Annan, Joyce, King, Micheal C., Bowyer, Kevin W., Bhatta, Aman, Mery, Domingo, Wu, Haiyu, Annan, Joyce, King, Micheal C., and Bowyer, Kevin W.

Abstract

Modern deep CNN face matchers are trained on datasets containing color images. We show that such matchers achieve essentially the same accuracy on the grayscale or the color version of a set of test images. We then consider possible causes for deep CNN face matchers ``not seeing color''. Popular web-scraped face datasets actually have 30 to 60\% of their identities with one or more grayscale images. We analyze whether this grayscale element in the training set impacts the accuracy achieved, and conclude that it does not. Further, we show that even with a 100\% grayscale training set, comparable accuracy is achieved on color or grayscale test images. Then we show that the skin region of an individual's images in a web-scraped training set exhibit significant variation in their mapping to color space. This suggests that color, at least for web-scraped, in-the-wild face datasets, carries limited identity-related information for training state-of-the-art matchers. Finally, we verify that comparable accuracy is achieved from training using single-channel grayscale images, implying that a larger dataset can be used within the same memory limit, with a less computationally intensive early layer.

Published
2023

27. Indoor Mobile Robotics at Grima, PUC

Author

Caro, Luis, Correa, Javier, Espinace, Pablo, Langdon, Daniel, Maturana, Daniel, Mitnik, Ruben, Montabone, Sebastian, Pszczółkowski, Stefan, Araneda, Anita, Mery, Domingo, Torres, Miguel, and Soto, Alvaro

Published
2012
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29. Automated flaw detection in aluminum castings based on the tracking of potential defects in a radioscopic image sequence

Author

Mery, Domingo and Filbert, Dieter

Subjects
Aluminum castings -- Testing, Machine vision -- Analysis, Image processing -- Methods, Radiography, Industrial
Abstract

This paper presents a new method for inspecting aluminum castings automatically from a sequence of radioscopic images taken at different positions of the casting. The classic image-processing methods for flaw detection of aluminum castings use a bank of filters to generate an error-free reference image. This reference image is compared with the real radioscopic image, and flaws are detected at the pixels where the difference between them is considerable. However, the configuration of each filter depends strongly on the size and shape of the structure of the casting under inspection. A new two-step technique is proposed to detect flaws automatically and that uses a single filter. First, the method identifies potential defects in each image of the sequence, and second, it matches and tracks them from image to image. The key idea of this paper is to consider as false alarms those potential defects which cannot be tracked in the sequence. The robustness and reliability of the method have been verified on both real data in which synthetic flaws have been added and real radioscopic image sequences recorded from cast aluminum wheels with known defects. Using this method, the real defects can be detected with high certainty. This approach achieves good discrimination from false alarms. Index Terms--Aiuminum castings, automated inspection, computer vision, flaw detection, image segmentation, X-ray testing.

Published
2002

38. Computer Vision for X-Ray Testing : Imaging, Systems, Image Databases, and Algorithms / by Domingo Mery.

Author

Mery, Domingo. author., SpringerLink (Online service), Mery, Domingo. author., and SpringerLink (Online service)

Abstract

This accessible textbook presents an introduction to computer vision algorithms for industrially-relevant applications of X-ray testing. Covering complex topics in an easy-to-understand way, without requiring any prior knowledge in the field, the book provides a concise review of the key methodologies in computer vision for solving important problems in industrial radiology. The theoretical coverage is supported by numerous examples, each of which can be tested and evaluated by the reader using a freely-available Matlab toolbox and X-ray image database. Topics and features: Introduces the mathematical background for monocular and multiple view geometry, which is commonly used in X-ray computer vision systems Describes the main techniques for image processing used in X-ray testing, including image filtering, edge detection, image segmentation and image restoration Presents a range of different representations for X-ray images, explaining how these enable new features to be extracted from the original image Examines a range of known X-ray image classifiers and classification strategies, and techniques for estimating the accuracy of a classifier Discusses some basic concepts for the simulation of X-ray images, and presents simple geometric and imaging models that can be used in the simulation Reviews a variety of applications for X-ray testing, from industrial inspection and baggage screening to the quality control of natural products Provides supporting material at an associated website, including a database of X-ray images and a Matlab toolbox for use with the book’s many examples This classroom-tested and hands-on guide is ideal for graduate and advanced undergraduate students interested in the practical application of image processing, pattern recognition and computer vision techniques for non-destructive quality testing and security inspection.

Published
2015

43. Color development and acrylamide content of pre-dried potato chips

Author

Pedreschi, Franco, León, Jorge, Mery, Domingo, Moyano, Pedro, Pedreschi, Romina, Kaack, Karl, Granby, Kit, Pedreschi, Franco, León, Jorge, Mery, Domingo, Moyano, Pedro, Pedreschi, Romina, Kaack, Karl, and Granby, Kit

Abstract

The objective of this work was to study the development of color formation in pre-dried potato slices during frying and acrylamide formation in the final potato chips. Color measurement was done by using an inexpensive computer vision technique which allowed quantifying representatively and precisely the color of complex surfaces such as those of potato chips in L*a*b* units from RGB images. Prior to frying, potato slices (Desiree variety, diameter: 37 mm, width: 2.2 mm) were blanched in hot water at 85 degrees C for 3.5 min. Unblanched slices were considered as the control. Slices of the same dimensions were blanched as in the previous step, and then air-dried until reaching a moisture content of 60% (wet basis). These samples were called pre-dried potato slices. Potato slices were fried at 120 degrees C, 140 degrees C, 160 degrees C and 180 degrees C until reaching moisture contents of similar to 1.8% (total basis) for color quantification. Acrylamide concentration was determined only in final chips fried at 120 degrees C, 150 degrees C and 180 degrees C and compared with that of two brands of commercial chips produced in Chile (Moms and Frito Lay). Color values in L*a*b* units were recorded at different sampling times during frying at the four mentioned temperatures using the total color difference parameter (Delta E). Pre-drying did not affect the color of potato chips considerably when compared against blanched chips; however when fried at 180 degrees C, pre-dried potato chips present 44%, 22%, 44% lower acrylamide content than that of the control, Moms and Frito Lay chips, respectively.

Published
2007

44. Color kinetics and acrylamide formation in NaCl soaked potato chips

Author

Pedreschi, Franco, Bustos, Oscar, Mery, Domingo, Moyano, Pedro, Kaack, Karl, Granby, Kit, Pedreschi, Franco, Bustos, Oscar, Mery, Domingo, Moyano, Pedro, Kaack, Karl, and Granby, Kit

Abstract

The objective of this work was to study the kinetics of color development in blanched and blanched-NaCl impregnated potato slices during frying by using the dynamic method and also to evaluate the effect of NaCl in reducing acrylamide formation in potato chips. The measurement of color was done by using an inexpensive computer vision technique which allowed quantifying in a more precise and representative way the color in L*a*b* units of complex surfaces such as those of potato slices during frying. The effect of potato slice soaking in NaCl was evaluated not only for color change but also for acrylamide formation. Prior to frying, potato slices (Desiree variety, diameter: 37 mm, width: 2.2 min) were blanched in hot water at 85 degrees C for 3.5 min; these slices were considered as the control. Slices of the same dimensions were blanched as in the previous step, and soaked at 25 degrees C in a NaCl solution of 0.02 g/l 5 min at 200 rpm of agitation. These samples were considered as NaCl soaked potato chips. Blanched and soaked slices were fried at 120, 140, 160 and 180 degrees C until reaching moisture contents of similar to 1.8% (total basis) for color evaluation. Acrylamide content was evaluated only in final samples fried from 120 degrees C to 160 degrees C. Color values in L*a*b* units were recorded at different sampling times during frying at the four mentioned temperatures using the total color change parameter (Delta E). Experimental data of surface temperature, moisture content and color change in potato chips during frying were fitted to empirical relationships, with correlation coefficients greater than 90%. A first-order rate equation was used to model the kinetics of color change. In all cases, the Arrhenius activation energy decreases alongside with decreasing chip moisture content. Soaking in NaCl solution of potato slices before frying reduced dramatically acrylamide formation in potato chips in similar to 90% (average value) in comparison with contro

Published
2007

46. Indoor Mobile Robotics at Grima, PUC

Author

Caro, Luis, primary, Correa, Javier, additional, Espinace, Pablo, additional, Langdon, Daniel, additional, Maturana, Daniel, additional, Mitnik, Ruben, additional, Montabone, Sebastian, additional, Pszczółkowski, Stefan, additional, Araneda, Anita, additional, Mery, Domingo, additional, Torres, Miguel, additional, and Soto, Alvaro, additional

Published
2011
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47. Weighted principal geodesic analysis for facial gender classification

Author

Rueda, Luis, Mery, Domingo, Kittler, Josef, Wu, Jing, Smith, W. A. P., Hancock, E. R., Rueda, Luis, Mery, Domingo, Kittler, Josef, Wu, Jing, Smith, W. A. P., and Hancock, E. R.

Abstract

In this paper, we describe a weighted principal geodesic analysis (WPGA) method to extract features for gender classification based on 2.5D facial surface normals (needle-maps) which can be extracted from 2D intensity images using shape-from-shading (SFS). By incorporating the weight matrix into principal geodesic analysis (PGA), we control the obtained principal axis to be in the direction of the variance on gender information. Experiments show that using WPGA, the leading eigenvectors encode more gender discriminating power than using PGA, and that gender classification based on leading WPGA parameters is more accurate and stable than based on leading PGA parameters.

48. An Efficient Point-Matching Method Based on Multiple Geometrical Hypotheses

Author

Andres Concha, Domingo Mery, Paolo Visconti, Miguel Carrasco, Roberto de Fazio, Ramiro Velazquez, Carrasco, Miguel, Mery, Domingo, Concha, André, Velázquez, Ramiro, DE FAZIO, Roberto, and Visconti, Paolo

Subjects
Computer Networks and Communications, Computer science, point matching, lcsh:TK7800-8360, Correspondence analysis, computer vision, fundamental matrix, Intersection, Trifocal tensor, Electrical and Electronic Engineering, Invariant (mathematics), Fundamental matrix (computer vision), Correspondence problem, Transformation geometry, Computer vision, correspondence problem, fundamental matrix, multiple view geometry, point matching, trifocal tensor, multiple view geometry, business.industry, lcsh:Electronics, Point set registration, Pattern recognition, trifocal tensor, correspondence problem, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Artificial intelligence, business
Abstract

Point matching in multiple images is an open problem in computer vision because of the numerous geometric transformations and photometric conditions that a pixel or point might exhibit in the set of images. Over the last two decades, different techniques have been proposed to address this problem. The most relevant are those that explore the analysis of invariant features. Nonetheless, their main limitation is that invariant analysis all alone cannot reduce false alarms. This paper introduces an efficient point-matching method for two and three views, based on the combined use of two techniques: (1) the correspondence analysis extracted from the similarity of invariant features and (2) the integration of multiple partial solutions obtained from 2D and 3D geometry. The main strength and novelty of this method is the determination of the point-to-point geometric correspondence through the intersection of multiple geometrical hypotheses weighted by the maximum likelihood estimation sample consensus (MLESAC) algorithm. The proposal not only extends the methods based on invariant descriptors but also generalizes the correspondence problem to a perspective projection model in multiple views. The developed method has been evaluated on three types of image sequences: outdoor, indoor, and industrial. Our developed strategy discards most of the wrong matches and achieves remarkable F-scores of 97%, 87%, and 97% for the outdoor, indoor, and industrial sequences, respectively.

Published
2021

49. Non-calibrated multiple views: applicatións and methodologies

Author

Carrasco, M Miguel, Benosman, Ryad, Mery, Domingo, Clady, Xavier, and L Université Pierre et Marie Curie

Abstract

La búsqueda de patrones de interés contenidos en secuencias de múltiples vistas de una escena continúa siendo uno de los principales problemas de la visión por computador actual. A pesar delos grandes avances desarrollados en los últimos 40 años, la visión por computador no ha logrado aun responder adecuadamente cómo inferir y detectar patrones de interés en escenas en las que uno o varios objetos son vistos desde distintos puntos de vista. Para superar este problema, esta tesis propone nuevos algoritmos y prototipos capaces de caracterizar, inferir y detectar patrones de interés en secuencias con múltiples vistas en forma no calibrada, es decir, sin conocimiento a priori de la posición de el/los objeto(s) respecto a la(s) cámara(s). El trabajo desarrollado está centrado en tres temáticas divididas en seis artículos que constituyen el cuerpo de la tesis. (1) El análisis de correspondencias punto a punto por medio de marcadores explícitos e implícitos en los objetos.(2) La estimación de correspondencias punto-a-punto a través de múltiples relaciones geométricas independientes de el/los objeto(s) que componen la escena. (3) La predicción del flujo dinámicodel movimiento generado por el desplazamiento de la cámara en torno al objeto. El objetivo principal de esta tesis es apoyar la toma de decisión a través de un análisis dinámico y/o geométrico del movimiento de el/los objeto(s) o de la(s) cámaras a medida que estos se desplazan. Gracias a este análisis es posible incrementar la información sobre la escena y de el/los objeto(s) a través de un proceso inferencial específico en cada caso. Como resultado de las temáticas expuestas, esposible por ejemplo asistir el proceso de inspección realizado por un operador humano, determinar la calidad de un producto en forma autónoma, o ejecutar una acción específica en un actuadorrobótico. Aunque estas temáticas posean enfoques distintos, éstas resuelven el mismo conjunto de pasos concernientes a (1) determinar la relación de correspondencia de puntos o regiones enmúltiples imágenes, (2) determinar la relación geométrica y/o dinámica existente entre las correspondenciasestimadas anteriormente, (3) inferir nuevas relaciones en aquellos puntos en los cuales no es conocida su correspondencia con el fin de caracterizar el movimiento. Las mayores variaciones provienen en la forma en cómo es estimada la correspondencia; en el cálculo de la dinámica y la geometría entre los puntos correspondientes; y finalmente en cómo inferimos una acción particular como resultado de un movimiento específico. Dentro de los principales resultados, se encuentra eldesarrollo de una metodología de inspección no calibrada con múltiples vistas aplicada al análisisde calidad en llantas de vehículos, el desarrollo de un prototipo funcional aplicado a la inspección de cuellos de botellas de vino, una metodología de correspondencia punto a punto geométrica capaz de resolver el problema de correspondencia en dos y tres vistas para cualquier punto de interés y finalmente el reconocimiento de la intención humana para tareas de grasping a través del análisis del movimiento de los ojos y de la mano. Como trabajo futuro resta por analizar las correspondencias dinámicas a través de características invariantes, emplear métodos de análisis geométricos en secuencias de imágenes radiológicas, y utilizar modelos de detección de intenciones para evaluar la calidad de los objetos. Doctorado en Informática TERMINADA PFCHA-Becas 208p. PFCHA-Becas

Published
2010

50. Graph Cuts Approach to MRF Based Linear Feature Extraction in Satellite Images

Author

Cosmin Mihai, Iris Vanhamel, Hichem Sahli, Anesto Del-Toro-Almenares, Rueda, Luis, Mery, Domingo, Kittler, Josef, Audio Visual Signal Processing, Electronics and Informatics, and Multidimensional signal processing and communication

Subjects
MRF-MAP labeling, business.industry, Graph cuts, Feature extraction, Pattern recognition, Strength of a graph, road detection, Graph bandwidth, Cut, Graph (abstract data type), Minification, Artificial intelligence, Graph cuts in computer vision, business, Mathematics, Energy functional
Abstract

This paper investigates the use of graph cuts for the minimization of an energy functional for road detection in satellite images, defined on the Bayesian MRF framework. The road identification process is modeled as a search for the optimal binary labeling of the nodes of a graph, representing a set of detected segments and possible connections among them. The optimal labeling corresponds to the configuration that minimizes an energy functional derived from a MRF probabilistic model, that introduces contextual knowledge about the shape of roads. We formulate an energy function modeling the interactions between road segments, while satisfying the regularity conditions required by the graph cuts based minimization. The obtained results show a noticeable improvement in terms of processing time, while achieving good results.

Published
2007

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