Bruce McIntosh scite author profile

Deep learning has been well studied for its application to image classification, object detection, and other visible spectrum tasks. However, deep learning is only beginning to be considered for applications in the long-wave infrared (LWIR) spectrum. In this work, we attempt to quantify the imaging system parameters required to perform specific deep learning tasks without significant pre-processing of the LWIR images or specialized training. We show the capabilities of uncooled microbolometer sensors for Fast Region-based Convolution Neural Networks (Fast R-CNN) object detectors and the extent to which increased sensitivity and resolution will affect a Fast R-CNN object detector’s performance. These results provide guidelines for design requirements for uncooled microbolometers in industries such as commercial autonomous vehicle navigation that will use deep learning object detectors.

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Improved ATR performance using boosting and transfer learning for adaptation of a target detection network

Muise

McIntosh

Mahalanobis

2021

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Bruce McIntosh

Visual-Textual Capsule Routing for Text-Based Video Segmentation

Infrared Target Detection in Cluttered Environments by Maximization of a Target to Clutter Ratio (TCR) Metric Using a Convolutional Neural Network

A comparison of target detection algorithms using DSIAC ATR algorithm development data set

LWIR sensor parameters for deep learning object detectors

Improved ATR performance using boosting and transfer learning for adaptation of a target detection network

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