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17 results on '"Marques, Tunai Porto"'

1. TempNet: Temporal Attention Towards the Detection of Animal Behaviour in Videos

Author

McIntosh, Declan, Marques, Tunai Porto, Albu, Alexandra Branzan, Rountree, Rodney, and De Leo, Fabio

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent advancements in cabled ocean observatories have increased the quality and prevalence of underwater videos; this data enables the extraction of high-level biologically relevant information such as species' behaviours. Despite this increase in capability, most modern methods for the automatic interpretation of underwater videos focus only on the detection and counting organisms. We propose an efficient computer vision- and deep learning-based method for the detection of biological behaviours in videos. TempNet uses an encoder bridge and residual blocks to maintain model performance with a two-staged, spatial, then temporal, encoder. TempNet also presents temporal attention during spatial encoding as well as Wavelet Down-Sampling pre-processing to improve model accuracy. Although our system is designed for applications to diverse fish behaviours (i.e, is generic), we demonstrate its application to the detection of sablefish (Anoplopoma fimbria) startle events. We compare the proposed approach with a state-of-the-art end-to-end video detection method (ReMotENet) and a hybrid method previously offered exclusively for the detection of sablefish's startle events in videos from an existing dataset. Results show that our novel method comfortably outperforms the comparison baselines in multiple metrics, reaching a per-clip accuracy and precision of 80% and 0.81, respectively. This represents a relative improvement of 31% in accuracy and 27% in precision over the compared methods using this dataset. Our computational pipeline is also highly efficient, as it can process each 4-second video clip in only 38ms. Furthermore, since it does not employ features specific to sablefish startle events, our system can be easily extended to other behaviours in future works., Comment: 6 pages, 5 figures, 2 tables, International Conference on Pattern Recognition, ICPR 2022, ICPR

Published
2022

2. Preservation of High Frequency Content for Deep Learning-Based Medical Image Classification

Author

McIntosh, Declan, Marques, Tunai Porto, and Albu, Alexandra Branzan

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Chest radiographs are used for the diagnosis of multiple critical illnesses (e.g., Pneumonia, heart failure, lung cancer), for this reason, systems for the automatic or semi-automatic analysis of these data are of particular interest. An efficient analysis of large amounts of chest radiographs can aid physicians and radiologists, ultimately allowing for better medical care of lung-, heart- and chest-related conditions. We propose a novel Discrete Wavelet Transform (DWT)-based method for the efficient identification and encoding of visual information that is typically lost in the down-sampling of high-resolution radiographs, a common step in computer-aided diagnostic pipelines. Our proposed approach requires only slight modifications to the input of existing state-of-the-art Convolutional Neural Networks (CNNs), making it easily applicable to existing image classification frameworks. We show that the extra high-frequency components offered by our method increased the classification performance of several CNNs in benchmarks employing the NIH Chest-8 and ImageNet-2017 datasets. Based on our results we hypothesize that providing frequency-specific coefficients allows the CNNs to specialize in the identification of structures that are particular to a frequency band, ultimately increasing classification performance, without an increase in computational load. The implementation of our work is available at github.com/DeclanMcIntosh/LeGallCuda., Comment: Published in 2021 18th Conference on Robots and Vision (CRV). 8 pages with referances

Published
2022
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3. Movement Tracks for the Automatic Detection of Fish Behavior in Videos

Author

McIntosh, Declan, Marques, Tunai Porto, Albu, Alexandra Branzan, Rountree, Rodney, and De Leo, Fabio

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Global warming is predicted to profoundly impact ocean ecosystems. Fish behavior is an important indicator of changes in such marine environments. Thus, the automatic identification of key fish behavior in videos represents a much needed tool for marine researchers, enabling them to study climate change-related phenomena. We offer a dataset of sablefish (Anoplopoma fimbria) startle behaviors in underwater videos, and investigate the use of deep learning (DL) methods for behavior detection on it. Our proposed detection system identifies fish instances using DL-based frameworks, determines trajectory tracks, derives novel behavior-specific features, and employs Long Short-Term Memory (LSTM) networks to identify startle behavior in sablefish. Its performance is studied by comparing it with a state-of-the-art DL-based video event detector., Comment: 8 pages, To be published in NeurIPS 2020 Workshop Tackling Climate Change with Machine Learning

Published
2020

4. L^2UWE: A Framework for the Efficient Enhancement of Low-Light Underwater Images Using Local Contrast and Multi-Scale Fusion

Author

Marques, Tunai Porto and Albu, Alexandra Branzan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Images captured underwater often suffer from suboptimal illumination settings that can hide important visual features, reducing their quality. We present a novel single-image low-light underwater image enhancer, L^2UWE, that builds on our observation that an efficient model of atmospheric lighting can be derived from local contrast information. We create two distinct models and generate two enhanced images from them: one that highlights finer details, the other focused on darkness removal. A multi-scale fusion process is employed to combine these images while emphasizing regions of higher luminance, saliency and local contrast. We demonstrate the performance of L^2UWE by using seven metrics to test it against seven state-of-the-art enhancement methods specific to underwater and low-light scenes. Code available at: https://github.com/tunai/l2uwe., Comment: Presented on the 2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) Workshop NTIRE: New Trends in Image Restoration and Enhancement. Code and dataset available at: https://github.com/tunai/l2uwe

Published
2020

5. A Deep Learning-based Framework for the Detection of Schools of Herring in Echograms

Author

Rezvanifar, Alireza, Marques, Tunai Porto, Cote, Melissa, Albu, Alexandra Branzan, Slonimer, Alex, Tolhurst, Thomas, Ersahin, Kaan, Mudge, Todd, and Gauthier, Stephane

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing, Statistics - Machine Learning
Abstract

Tracking the abundance of underwater species is crucial for understanding the effects of climate change on marine ecosystems. Biologists typically monitor underwater sites with echosounders and visualize data as 2D images (echograms); they interpret these data manually or semi-automatically, which is time-consuming and prone to inconsistencies. This paper proposes a deep learning framework for the automatic detection of schools of herring from echograms. Experiments demonstrated that our approach outperforms a traditional machine learning algorithm using hand-crafted features. Our framework could easily be expanded to detect more species of interest to sustainable fisheries., Comment: Accepted to NeurIPS 2019 workshop on Tackling Climate Change with Machine Learning, Vancouver, Canada

Published
2019

6. Enhancement of Low-Lighting Underwater Images Using Dark Channel Prior and Fast Guided Filters

Author

Marques, Tunai Porto, Albu, Alexandra Branzan, Hoeberechts, Maia, Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Zhang, Zhaoxiang, editor, Suter, David, editor, Tian, Yingli, editor, Branzan Albu, Alexandra, editor, Sidère, Nicolas, editor, and Jair Escalante, Hugo, editor

Published
2019
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16. A Contrast-Guided Approach for the Enhancement of Low-Lighting Underwater Images.

Author

Marques, Tunai Porto, Albu, Alexandra Branzan, and Hoeberechts, Maia

Subjects
UNDERWATER photography, LIGHTING, IMAGE analysis, VISIBILITY, ANTIQUITIES
Abstract

Underwater images are often acquired in sub-optimal lighting conditions, in particular at profound depths where the absence of natural light demands the use of artificial lighting. Low-lighting images impose a challenge for both manual and automated analysis, since regions of interest can have low visibility. A new framework capable of significantly enhancing these images is proposed in this article. The framework is based on a novel dehazing mechanism that considers local contrast information in the input images, and offers a solution to three common disadvantages of current single image dehazing methods: oversaturation of radiance, lack of scale-invariance and creation of halos. A novel low-lighting underwater image dataset, OceanDark, is introduced to assist in the development and evaluation of the proposed framework. Experimental results and a comparison with other underwater-specific image enhancement methods show that the proposed framework can be used for significantly improving the visibility in low-lighting underwater images of different scales, without creating undesired dehazing artifacts. [ABSTRACT FROM AUTHOR]

Published
2019
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