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19 results on '"Greenwell, Connor"'

1. Gradient-based Trajectory Optimization with Parallelized Differentiable Traffic Simulation

Author

Son, Sanghyun, Zheng, Laura, Clipp, Brian, Greenwell, Connor, Philip, Sujin, and Lin, Ming C.

Subjects
Computer Science - Robotics, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Machine Learning
Abstract

We present a parallelized differentiable traffic simulator based on the Intelligent Driver Model (IDM), a car-following framework that incorporates driver behavior as key variables. Our vehicle simulator efficiently models vehicle motion, generating trajectories that can be supervised to fit real-world data. By leveraging its differentiable nature, IDM parameters are optimized using gradient-based methods. With the capability to simulate up to 2 million vehicles in real time, the system is scalable for large-scale trajectory optimization. We show that we can use the simulator to filter noise in the input trajectories (trajectory filtering), reconstruct dense trajectories from sparse ones (trajectory reconstruction), and predict future trajectories (trajectory prediction), with all generated trajectories adhering to physical laws. We validate our simulator and algorithm on several datasets including NGSIM and Waymo Open Dataset. The code is publicly available at: https://github.com/SonSang/diffidm., Comment: 9 pages, 6 figures, 3 tables more...

Published
2024

2. GeoWATCH for Detecting Heavy Construction in Heterogeneous Time Series of Satellite Images

Author

Crall, Jon, Greenwell, Connor, Joy, David, Leotta, Matthew, Chaudhary, Aashish, and Hoogs, Anthony

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Learning from multiple sensors is challenging due to spatio-temporal misalignment and differences in resolution and captured spectra. To that end, we introduce GeoWATCH, a flexible framework for training models on long sequences of satellite images sourced from multiple sensor platforms, which is designed to handle image classification, activity recognition, object detection, or object tracking tasks. Our system includes a novel partial weight loading mechanism based on sub-graph isomorphism which allows for continually training and modifying a network over many training cycles. This has allowed us to train a lineage of models over a long period of time, which we have observed has improved performance as we adjust configurations while maintaining a core backbone., Comment: IGARSS 2024 https://2024.ieeeigarss.org/view_paper.php?PaperNum=5431 more...

Published
2024

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3. Contrastive Cross-Modal Pre-Training: A General Strategy for Small Sample Medical Imaging

Author

Liang, Gongbo, Greenwell, Connor, Zhang, Yu, Wang, Xiaoqin, Kavuluru, Ramakanth, and Jacobs, Nathan

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

A key challenge in training neural networks for a given medical imaging task is often the difficulty of obtaining a sufficient number of manually labeled examples. In contrast, textual imaging reports, which are often readily available in medical records, contain rich but unstructured interpretations written by experts as part of standard clinical practice. We propose using these textual reports as a form of weak supervision to improve the image interpretation performance of a neural network without requiring additional manually labeled examples. We use an image-text matching task to train a feature extractor and then fine-tune it in a transfer learning setting for a supervised task using a small labeled dataset. The end result is a neural network that automatically interprets imagery without requiring textual reports during inference. This approach can be applied to any task for which text-image pairs are readily available. We evaluate our method on three classification tasks and find consistent performance improvements, reducing the need for labeled data by 67%-98%., Comment: This work is accepted to the IEEE Journal of Biomedical and Health Informatics more...

Published
2020
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4. Single Image Cloud Detection via Multi-Image Fusion

Author

Workman, Scott, Rafique, M. Usman, Blanton, Hunter, Greenwell, Connor, and Jacobs, Nathan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Artifacts in imagery captured by remote sensing, such as clouds, snow, and shadows, present challenges for various tasks, including semantic segmentation and object detection. A primary challenge in developing algorithms for identifying such artifacts is the cost of collecting annotated training data. In this work, we explore how recent advances in multi-image fusion can be leveraged to bootstrap single image cloud detection. We demonstrate that a network optimized to estimate image quality also implicitly learns to detect clouds. To support the training and evaluation of our approach, we collect a large dataset of Sentinel-2 images along with a per-pixel semantic labelling for land cover. Through various experiments, we demonstrate that our method reduces the need for annotated training data and improves cloud detection performance., Comment: IEEE International Geoscience and Remote Sensing Symposium (IGARSS) 2020 more...

Published
2020

5. Learning Geo-Temporal Image Features

Author

Zhai, Menghua, Salem, Tawfiq, Greenwell, Connor, Workman, Scott, Pless, Robert, and Jacobs, Nathan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We propose to implicitly learn to extract geo-temporal image features, which are mid-level features related to when and where an image was captured, by explicitly optimizing for a set of location and time estimation tasks. To train our method, we take advantage of a large image dataset, captured by outdoor webcams and cell phones. The only form of supervision we provide are the known capture time and location of each image. We find that our approach learns features that are related to natural appearance changes in outdoor scenes. Additionally, we demonstrate the application of these geo-temporal features to time and location estimation., Comment: British Machine Vision Conference (BMVC) 2018 more...

Published
2019

6. Learning to Map Nearly Anything

Author

Salem, Tawfiq, Greenwell, Connor, Blanton, Hunter, and Jacobs, Nathan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Looking at the world from above, it is possible to estimate many properties of a given location, including the type of land cover and the expected land use. Historically, such tasks have relied on relatively coarse-grained categories due to the difficulty of obtaining fine-grained annotations. In this work, we propose an easily extensible approach that makes it possible to estimate fine-grained properties from overhead imagery. In particular, we propose a cross-modal distillation strategy to learn to predict the distribution of fine-grained properties from overhead imagery, without requiring any manual annotation of overhead imagery. We show that our learned models can be used directly for applications in mapping and image localization. more...

Published
2019

7. What Goes Where: Predicting Object Distributions from Above

Author

Greenwell, Connor, Workman, Scott, and Jacobs, Nathan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this work, we propose a cross-view learning approach, in which images captured from a ground-level view are used as weakly supervised annotations for interpreting overhead imagery. The outcome is a convolutional neural network for overhead imagery that is capable of predicting the type and count of objects that are likely to be seen from a ground-level perspective. We demonstrate our approach on a large dataset of geotagged ground-level and overhead imagery and find that our network captures semantically meaningful features, despite being trained without manual annotations., Comment: 4 pages, 5 figures, IGARSS 2018 more...

Published
2018

10. Image Geo-localization with Cross-Attention

Author

Greenwell, Connor

Subjects
FOS: Engineering and technology
Abstract

The problem of estimating the location from which un-geotagged photographs were captured has been well studied by the computer vision community in recent years. The central proposal of this thesis is to define a common framework within which existing approaches can be constructed and evaluated, and to introduce a new method under this framework which uses cross-attention between the query image and a database of satellite imagery with known geotags. Our experiments fit within three broad categories: 1) evaluating the ability of image localization approaches to generalize to unseen regions; 2) examining performance changes under various reference database resolutions, scales, and densities; and 3) exploring localization with multi-modal reference imagery. Our key contribution is the notion of attending between query and reference imagery throughout inference, compared with the existing practices of attending late or not at all., © 2022 Connor Greenwell more...

Published
2022
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19. GeoFaceExplorer

Author

Greenwell, Connor, primary, Spurlock, Scott, additional, Souvenir, Richard, additional, and Jacobs, Nathan, additional

Published
2014
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