Nolan B. Gutierrez scite author profile

Nolan B. Gutierrez

5Publications

29Citation Statements Received

59Citation Statements Given

How they've been cited

How they cite others

101

Affiliations

European Space Agency, The University of Texas at Arlington, Centre de Recerca Matemàtica

Publications

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Thermal Image Super-Resolution Challenge - PBVS 2020

Rivadeneira¹,

Sappa²,

Vintimilla³

et al. 2020

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This paper summarizes the top contributions to the first challenge on thermal image super-resolution (TISR), which was organized as part of the Perception Beyond the Visible Spectrum (PBVS) 2020 workshop. In this challenge, a novel thermal image dataset is considered together with stateof-the-art approaches evaluated under a common framework. The dataset used in the challenge consists of 1021 thermal images, obtained from three distinct thermal cameras at different resolutions (low-resolution, mid-resolution, and high-resolution), resulting in a total of 3063 thermal images. From each resolution, 951 images are used for training and 50 for testing while the 20 remaining images are used for two proposed evaluations. The first evaluation consists of downsampling the low-resolution, midresolution, and high-resolution thermal images by ×2, ×3 and ×4 respectively, and comparing their super-resolution results with the corresponding ground truth images. The second evaluation is comprised of obtaining the ×2 superresolution from a given mid-resolution thermal image and comparing it with the corresponding semi-registered highresolution thermal image. Out of 51 registered participants, 6 teams reached the final validation phase.

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Thermal Image Super-Resolution Challenge - PBVS 2021

Rivadeneira

Sappa

Vintimilla

et al. 2021

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Probabilistic Object Detection via Deep Ensembles

Lyu

Gutierrez

Rajguru

et al. 2020

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An Uncertainty Estimation Framework for Probabilistic Object Detection

Lyu

Gutierrez

Beksi

2021

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Thermal Image Super-Resolution Using Second-Order Channel Attention with Varying Receptive Fields

Gutierrez¹,

Beksi²

2021

Preprint

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Thermal images model the long-infrared range of the electromagnetic spectrum and provide meaningful information even when there is no visible illumination. Yet, unlike imagery that represents radiation from the visible continuum, infrared images are inherently low-resolution due to hardware constraints. The restoration of thermal images is critical for applications that involve safety, search and rescue, and military operations. In this paper, we introduce a system to efficiently reconstruct thermal images. Specifically, we explore how to effectively attend to contrasting receptive fields (RFs) where increasing the RFs of a network can be computationally expensive. For this purpose, we introduce a deep attention to varying receptive fields network (AVRFN). We supply a gated convolutional layer with higher-order information extracted from disparate RFs, whereby an RF is parameterized by a dilation rate. In this way, the dilation rate can be tuned to use fewer parameters thus increasing the efficacy of AVRFN. Our experimental results show an improvement over the state of the art when compared against competing thermal image super-resolution (SR) methods.

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