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14 results on '"KC, Dharma"'

1. 3DTextureTransformer: Geometry Aware Texture Generation for Arbitrary Mesh Topology

Author

KC, Dharma and Morrison, Clayton T.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Learning to generate textures for a novel 3D mesh given a collection of 3D meshes and real-world 2D images is an important problem with applications in various domains such as 3D simulation, augmented and virtual reality, gaming, architecture, and design. Existing solutions either do not produce high-quality textures or deform the original high-resolution input mesh topology into a regular grid to make this generation easier but also lose the original mesh topology. In this paper, we present a novel framework called the 3DTextureTransformer that enables us to generate high-quality textures without deforming the original, high-resolution input mesh. Our solution, a hybrid of geometric deep learning and StyleGAN-like architecture, is flexible enough to work on arbitrary mesh topologies and also easily extensible to texture generation for point cloud representations. Our solution employs a message-passing framework in 3D in conjunction with a StyleGAN-like architecture for 3D texture generation. The architecture achieves state-of-the-art performance among a class of solutions that can learn from a collection of 3D geometry and real-world 2D images while working with any arbitrary mesh topology., Comment: 8 pages, 3 figures, 1 table

Published
2024

2. Neural Machine Translation for Code Generation

Author

KC, Dharma and Morrison, Clayton T.

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning, A.1
Abstract

Neural machine translation (NMT) methods developed for natural language processing have been shown to be highly successful in automating translation from one natural language to another. Recently, these NMT methods have been adapted to the generation of program code. In NMT for code generation, the task is to generate output source code that satisfies constraints expressed in the input. In the literature, a variety of different input scenarios have been explored, including generating code based on natural language description, lower-level representations such as binary or assembly (neural decompilation), partial representations of source code (code completion and repair), and source code in another language (code translation). In this paper we survey the NMT for code generation literature, cataloging the variety of methods that have been explored according to input and output representations, model architectures, optimization techniques used, data sets, and evaluation methods. We discuss the limitations of existing methods and future research directions, Comment: 33 pages, 1 figure

Published
2023

3. Towards Light Weight Object Detection System

Author

KC, Dharma, Dayana, Venkata Ravi Kiran, Wu, Meng-Lin, Cherukuri, Venkateswara Rao, and Hwang, Hau

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Transformers are a popular choice for classification tasks and as backbones for object detection tasks. However, their high latency brings challenges in their adaptation to lightweight object detection systems. We present an approximation of the self-attention layers used in the transformer architecture. This approximation reduces the latency of the classification system while incurring minimal loss in accuracy. We also present a method that uses a transformer encoder layer for multi-resolution feature fusion. This feature fusion improves the accuracy of the state-of-the-art lightweight object detection system without significantly increasing the number of parameters. Finally, we provide an abstraction for the transformer architecture called Generalized Transformer (gFormer) that can guide the design of novel transformer-like architectures.

Published
2022

4. Texture Generation Using A Graph Generative Adversarial Network And Differentiable Rendering

Author

KC, Dharma, Morrison, Clayton T., and Walls, Bradley

Subjects
Computer Science - Computer Vision and Pattern Recognition, I.5
Abstract

Novel photo-realistic texture synthesis is an important task for generating novel scenes, including asset generation for 3D simulations. However, to date, these methods predominantly generate textured objects in 2D space. If we rely on 2D object generation, then we need to make a computationally expensive forward pass each time we change the camera viewpoint or lighting. Recent work that can generate textures in 3D requires 3D component segmentation that is expensive to acquire. In this work, we present a novel conditional generative architecture that we call a graph generative adversarial network (GGAN) that can generate textures in 3D by learning object component information in an unsupervised way. In this framework, we do not need an expensive forward pass whenever the camera viewpoint or lighting changes, and we do not need expensive 3D part information for training, yet the model can generalize to unseen 3D meshes and generate appropriate novel 3D textures. We compare this approach against state-of-the-art texture generation methods and demonstrate that the GGAN obtains significantly better texture generation quality (according to Frechet inception distance). We release our model source code as open source., Comment: The final publication is available at Springer via http://dx.doi.org/10.1007/978-3-031-25825-1_28

Published
2022
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5. Interpretable and Reliable Oral Cancer Classifier with Attention Mechanism and Expert Knowledge Embedding via Attention Map

Author

Song, Bofan, Zhang, Chicheng, Sunny, Sumsum, Kc, Dharma Raj, Li, Shaobai, Gurushanth, Keerthi, Mendonca, Pramila, Mukhia, Nirza, Patrick, Sanjana, Gurudath, Shubha, Raghavan, Subhashini, Tsusennaro, Imchen, Leivon, Shirley T, Kolur, Trupti, Shetty, Vivek, Bushan, Vidya, Ramesh, Rohan, Pillai, Vijay, Wilder-Smith, Petra, Suresh, Amritha, Kuriakose, Moni Abraham, Birur, Praveen, and Liang, Rongguang

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Behavioral and Social Science, Cancer, Basic Behavioral and Social Science, visual explanation, attention mechanism, human-in-the-loop deep learning, attention map, expert knowledge embedding, attention branch network, Oncology and carcinogenesis
Abstract

Convolutional neural networks have demonstrated excellent performance in oral cancer detection and classification. However, the end-to-end learning strategy makes CNNs hard to interpret, and it can be challenging to fully understand the decision-making procedure. Additionally, reliability is also a significant challenge for CNN based approaches. In this study, we proposed a neural network called the attention branch network (ABN), which combines the visual explanation and attention mechanisms to improve the recognition performance and interpret the decision-making simultaneously. We also embedded expert knowledge into the network by having human experts manually edit the attention maps for the attention mechanism. Our experiments have shown that ABN performs better than the original baseline network. By introducing the Squeeze-and-Excitation (SE) blocks to the network, the cross-validation accuracy increased further. Furthermore, we observed that some previously misclassified cases were correctly recognized after updating by manually editing the attention maps. The cross-validation accuracy increased from 0.846 to 0.875 with the ABN (Resnet18 as baseline), 0.877 with SE-ABN, and 0.903 after embedding expert knowledge. The proposed method provides an accurate, interpretable, and reliable oral cancer computer-aided diagnosis system through visual explanation, attention mechanisms, and expert knowledge embedding.

Published
2023

6. SIM-ECG: A Signal Importance Mask-driven ECGClassification System

Author

KC, Dharma, Zhang, Chicheng, Gniady, Chris, Agarwal, Parth Sandeep, and Sharma, Sushil

Subjects
Computer Science - Machine Learning
Abstract

Heart disease is the number one killer, and ECGs can assist in the early diagnosis and prevention of deadly outcomes. Accurate ECG interpretation is critical in detecting heart diseases; however, they are often misinterpreted due to a lack of training or insufficient time spent to detect minute anomalies. Subsequently, researchers turned to machine learning to assist in the analysis. However, existing systems are not as accurate as skilled ECG readers, and black-box approaches to providing diagnosis result in a lack of trust by medical personnel in a given diagnosis. To address these issues, we propose a signal importance mask feedback-based machine learning system that continuously accepts feedback, improves accuracy, and ex-plains the resulting diagnosis. This allows medical personnel to quickly glance at the output and either accept the results, validate the explanation and diagnosis, or quickly correct areas of misinterpretation, giving feedback to the system for improvement. We have tested our system on a publicly available dataset consisting of healthy and disease-indicating samples. We empirically show that our algorithm is better in terms of standard performance measures such as F-score and MacroAUC compared to normal training baseline (without feedback); we also show that our model generates better interpretability maps., Comment: 9 pages

Published
2021

7. Federated Reconnaissance: Efficient, Distributed, Class-Incremental Learning

Author

Hendryx, Sean M., KC, Dharma Raj, Walls, Bradley, and Morrison, Clayton T.

Subjects
Computer Science - Machine Learning
Abstract

We describe federated reconnaissance, a class of learning problems in which distributed clients learn new concepts independently and communicate that knowledge efficiently. In particular, we propose an evaluation framework and methodological baseline for a system in which each client is expected to learn a growing set of classes and communicate knowledge of those classes efficiently with other clients, such that, after knowledge merging, the clients should be able to accurately discriminate between classes in the superset of classes observed by the set of clients. We compare a range of learning algorithms for this problem and find that prototypical networks are a strong approach in that they are robust to catastrophic forgetting while incorporating new information efficiently. Furthermore, we show that the online averaging of prototype vectors is effective for client model merging and requires only a small amount of communication overhead, memory, and update time per class with no gradient-based learning or hyperparameter tuning. Additionally, to put our results in context, we find that a simple, prototypical network with four convolutional layers significantly outperforms complex, state of the art continual learning algorithms, increasing the accuracy by over 22% after learning 600 Omniglot classes and over 33% after learning 20 mini-ImageNet classes incrementally. These results have important implications for federated reconnaissance and continual learning more generally by demonstrating that communicating feature vectors is an efficient, robust, and effective means for distributed, continual learning.

Published
2021

8. Improving the trustworthiness of image classification models by utilizing bounding-box annotations

Author

KC, Dharma and Zhang, Chicheng

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

We study utilizing auxiliary information in training data to improve the trustworthiness of machine learning models. Specifically, in the context of image classification, we propose to optimize a training objective that incorporates bounding box information, which is available in many image classification datasets. Preliminary experimental results show that the proposed algorithm achieves better performance in accuracy, robustness, and interpretability compared with baselines., Comment: 6 pages including references

Published
2021

10. Conditional Graph Generative Models for Code and Texture Generation

Author

Barnard, Kobus, Surdeanu, Mihai, Zhang, Chicheng, KC, Dharma Raj, Barnard, Kobus, Surdeanu, Mihai, Zhang, Chicheng, and KC, Dharma Raj

Abstract

In this dissertation, I present two novel graph generative frameworks, the first for code abstract syntax tree (AST) generation from input binary code sequences, and the second for novel texture generation for input 3D meshes. Both frameworks are developed using insights from advances in neural machine translation, in the form of Transformers (multi-headed local and global self-attention), and conditional graph generative neural networks. In the first part of the dissertation, I describe the framework for inferring ASTs from binary sequences. Existing approaches to building decompilers and binary analysis tools are time-consuming and labor-intensive to implement and are not easily adapted to new languages. Existing neural approaches tend to be limited to small code sequences. To address these challenges, we develop a novel and state-of-the-art framework for learning to generate abstract syntax trees from input binary sequences. In the second part of the dissertation, I describe the development of the framework for novel but high-quality texture generation for input 3D meshes. Creating high-quality texture assets for a given 3D mesh model is tedious and time-consuming but has numerous applications in 3D simulation, gaming, and augmented and virtual reality. Existing automated approaches to this problem either require expensive 3D part segmentation or deform the original input mesh. To address these challenges, we develop a new framework that can learn to generate novel textures for 3D mesh models from a collection of 3D meshes and 2D real-world images without any input mesh deformation. Both frameworks are demonstrated to achieve state-of-the-art performance in their respective applications while also providing increased adaptive flexibility.

Published
2024

14. Towards light weight object detection system

Author

Nakajima, Masayuki, Lau, Phooi Yee, Kim, Jae-Gon, Kubo, Hiroyuki, Chang, Chuan-Yu, Kemao, Qian, KC, Dharma, Dayana, Venkata Ravi Kiran, Wu, Meng-Lin, Cherukuri, Venkateswara Rao, Hwang, Hau, and Morrison, Clayton T.

Published
2024
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