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1. Topological Persistence Guided Knowledge Distillation for Wearable Sensor Data

Author

Jeon, Eun Som, Choi, Hongjun, Shukla, Ankita, Wang, Yuan, Lee, Hyunglae, Buman, Matthew P., and Turaga, Pavan

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning, Mathematics - Algebraic Topology
Abstract

Deep learning methods have achieved a lot of success in various applications involving converting wearable sensor data to actionable health insights. A common application areas is activity recognition, where deep-learning methods still suffer from limitations such as sensitivity to signal quality, sensor characteristic variations, and variability between subjects. To mitigate these issues, robust features obtained by topological data analysis (TDA) have been suggested as a potential solution. However, there are two significant obstacles to using topological features in deep learning: (1) large computational load to extract topological features using TDA, and (2) different signal representations obtained from deep learning and TDA which makes fusion difficult. In this paper, to enable integration of the strengths of topological methods in deep-learning for time-series data, we propose to use two teacher networks, one trained on the raw time-series data, and another trained on persistence images generated by TDA methods. The distilled student model utilizes only the raw time-series data at test-time. This approach addresses both issues. The use of KD with multiple teachers utilizes complementary information, and results in a compact model with strong supervisory features and an integrated richer representation. To assimilate desirable information from different modalities, we design new constraints, including orthogonality imposed on feature correlation maps for improving feature expressiveness and allowing the student to easily learn from the teacher. Also, we apply an annealing strategy in KD for fast saturation and better accommodation from different features, while the knowledge gap between the teachers and student is reduced. Finally, a robust student model is distilled, which uses only the time-series data as an input, while implicitly preserving topological features., Comment: Engineering Applications of Artificial Intelligence 130, 107719

Published
2024
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2. Epidemiological and Clinical Characteristics Associated with COVID-19 Severity Among Hospitalized Patients in the United Arab Emirates: A Retrospective Multicentre Study

Author

Al-Bluwi, Najlaa, Agha, Razan, Shukla, Ankita, Zeidan, Rouba Karen, AlZubaidi, Hamzah, Awad, Manal, Hussein, Amal, Abdelbagi, Muzan, AlSayed, Khaled, Alebaji, Mohamad B., Shaheen, Mahasin, Salameh, Laila, Mahboub, Bassam, Elkhodary, Hady, Bendardaf, Riyad, Mohammed, Ghada, Wardat, Dima, Al-Hano, Zahraa, Amara, Hajir I., Alhajjaj, Mohamed Saleh, Hamid, Qutayba, Halwani, Rabih, and Saddik, Basema

Published
2024
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3. Polynomial Implicit Neural Representations For Large Diverse Datasets

Author

Singh, Rajhans, Shukla, Ankita, and Turaga, Pavan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Implicit neural representations (INR) have gained significant popularity for signal and image representation for many end-tasks, such as superresolution, 3D modeling, and more. Most INR architectures rely on sinusoidal positional encoding, which accounts for high-frequency information in data. However, the finite encoding size restricts the model's representational power. Higher representational power is needed to go from representing a single given image to representing large and diverse datasets. Our approach addresses this gap by representing an image with a polynomial function and eliminates the need for positional encodings. Therefore, to achieve a progressively higher degree of polynomial representation, we use element-wise multiplications between features and affine-transformed coordinate locations after every ReLU layer. The proposed method is evaluated qualitatively and quantitatively on large datasets like ImageNet. The proposed Poly-INR model performs comparably to state-of-the-art generative models without any convolution, normalization, or self-attention layers, and with far fewer trainable parameters. With much fewer training parameters and higher representative power, our approach paves the way for broader adoption of INR models for generative modeling tasks in complex domains. The code is available at \url{https://github.com/Rajhans0/Poly_INR}, Comment: Accepted at CVPR 2023

Published
2023

5. Leveraging Angular Distributions for Improved Knowledge Distillation

Author

Jeon, Eun Som, Choi, Hongjun, Shukla, Ankita, and Turaga, Pavan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Knowledge distillation as a broad class of methods has led to the development of lightweight and memory efficient models, using a pre-trained model with a large capacity (teacher network) to train a smaller model (student network). Recently, additional variations for knowledge distillation, utilizing activation maps of intermediate layers as the source of knowledge, have been studied. Generally, in computer vision applications, it is seen that the feature activation learned by a higher capacity model contains richer knowledge, highlighting complete objects while focusing less on the background. Based on this observation, we leverage the dual ability of the teacher to accurately distinguish between positive (relevant to the target object) and negative (irrelevant) areas. We propose a new loss function for distillation, called angular margin-based distillation (AMD) loss. AMD loss uses the angular distance between positive and negative features by projecting them onto a hypersphere, motivated by the near angular distributions seen in many feature extractors. Then, we create a more attentive feature that is angularly distributed on the hypersphere by introducing an angular margin to the positive feature. Transferring such knowledge from the teacher network enables the student model to harness the higher discrimination of positive and negative features for the teacher, thus distilling superior student models. The proposed method is evaluated for various student-teacher network pairs on four public datasets. Furthermore, we show that the proposed method has advantages in compatibility with other learning techniques, such as using fine-grained features, augmentation, and other distillation methods., Comment: Neurocomputing, Volume 518, 21 January 2023, Pages 466-481

Published
2023
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6. Understanding the Role of Mixup in Knowledge Distillation: An Empirical Study

Author

Choi, Hongjun, Jeon, Eun Som, Shukla, Ankita, and Turaga, Pavan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Mixup is a popular data augmentation technique based on creating new samples by linear interpolation between two given data samples, to improve both the generalization and robustness of the trained model. Knowledge distillation (KD), on the other hand, is widely used for model compression and transfer learning, which involves using a larger network's implicit knowledge to guide the learning of a smaller network. At first glance, these two techniques seem very different, however, we found that "smoothness" is the connecting link between the two and is also a crucial attribute in understanding KD's interplay with mixup. Although many mixup variants and distillation methods have been proposed, much remains to be understood regarding the role of a mixup in knowledge distillation. In this paper, we present a detailed empirical study on various important dimensions of compatibility between mixup and knowledge distillation. We also scrutinize the behavior of the networks trained with a mixup in the light of knowledge distillation through extensive analysis, visualizations, and comprehensive experiments on image classification. Finally, based on our findings, we suggest improved strategies to guide the student network to enhance its effectiveness. Additionally, the findings of this study provide insightful suggestions to researchers and practitioners that commonly use techniques from KD. Our code is available at https://github.com/hchoi71/MIX-KD., Comment: To be presented at WACV 2023

Published
2022

7. Improving Shape Awareness and Interpretability in Deep Networks Using Geometric Moments

Author

Singh, Rajhans, Shukla, Ankita, and Turaga, Pavan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep networks for image classification often rely more on texture information than object shape. While efforts have been made to make deep-models shape-aware, it is often difficult to make such models simple, interpretable, or rooted in known mathematical definitions of shape. This paper presents a deep-learning model inspired by geometric moments, a classically well understood approach to measure shape-related properties. The proposed method consists of a trainable network for generating coordinate bases and affine parameters for making the features geometrically invariant yet in a task-specific manner. The proposed model improves the final feature's interpretation. We demonstrate the effectiveness of our method on standard image classification datasets. The proposed model achieves higher classification performance compared to the baseline and standard ResNet models while substantially improving interpretability., Comment: Accepted at CVPR 2023 Workshop: Deep Learning for Geometric Computing

Published
2022

8. Role of Data Augmentation Strategies in Knowledge Distillation for Wearable Sensor Data

Author

Jeon, Eun Som, Som, Anirudh, Shukla, Ankita, Hasanaj, Kristina, Buman, Matthew P., and Turaga, Pavan

Subjects
Computer Science - Machine Learning, Computer Science - Human-Computer Interaction, Electrical Engineering and Systems Science - Signal Processing
Abstract

Deep neural networks are parametrized by several thousands or millions of parameters, and have shown tremendous success in many classification problems. However, the large number of parameters makes it difficult to integrate these models into edge devices such as smartphones and wearable devices. To address this problem, knowledge distillation (KD) has been widely employed, that uses a pre-trained high capacity network to train a much smaller network, suitable for edge devices. In this paper, for the first time, we study the applicability and challenges of using KD for time-series data for wearable devices. Successful application of KD requires specific choices of data augmentation methods during training. However, it is not yet known if there exists a coherent strategy for choosing an augmentation approach during KD. In this paper, we report the results of a detailed study that compares and contrasts various common choices and some hybrid data augmentation strategies in KD based human activity analysis. Research in this area is often limited as there are not many comprehensive databases available in the public domain from wearable devices. Our study considers databases from small scale publicly available to one derived from a large scale interventional study into human activity and sedentary behavior. We find that the choice of data augmentation techniques during KD have a variable level of impact on end performance, and find that the optimal network choice as well as data augmentation strategies are specific to a dataset at hand. However, we also conclude with a general set of recommendations that can provide a strong baseline performance across databases.

Published
2021
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9. Towards Conditional Generation of Minimal Action Potential Pathways for Molecular Dynamics

Author

Cava, John Kevin, Vant, John, Ho, Nicholas, Shukla, Ankita, Turaga, Pavan, Maciejewski, Ross, and Singharoy, Abhishek

Subjects
Quantitative Biology - Biomolecules, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Physics - Biological Physics
Abstract

In this paper, we utilized generative models, and reformulate it for problems in molecular dynamics (MD) simulation, by introducing an MD potential energy component to our generative model. By incorporating potential energy as calculated from TorchMD into a conditional generative framework, we attempt to construct a low-potential energy route of transformation between the helix~$\rightarrow$~coil structures of a protein. We show how to add an additional loss function to conditional generative models, motivated by potential energy of molecular configurations, and also present an optimization technique for such an augmented loss function. Our results show the benefit of this additional loss term on synthesizing realistic molecular trajectories., Comment: Accepted to ELLIS ML4Molecules Workshop 2021

Published
2021

10. Geometric Priors for Scientific Generative Models in Inertial Confinement Fusion

Author

Shukla, Ankita, Anirudh, Rushil, Kur, Eugene, Thiagarajan, Jayaraman J., Bremer, Peer-Timo, Spears, Brian K., Ma, Tammy, and Turaga, Pavan

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

In this paper, we develop a Wasserstein autoencoder (WAE) with a hyperspherical prior for multimodal data in the application of inertial confinement fusion. Unlike a typical hyperspherical generative model that requires computationally inefficient sampling from distributions like the von Mis Fisher, we sample from a normal distribution followed by a projection layer before the generator. Finally, to determine the validity of the generated samples, we exploit a known relationship between the modalities in the dataset as a scientific constraint, and study different properties of the proposed model., Comment: 5 pages, 4 figures, Fourth Workshop on Machine Learning and the Physical Sciences, NeurIPS 2021

Published
2021

15. Interpretable COVID-19 Chest X-Ray Classification via Orthogonality Constraint

Author

Wang, Ella Y., Som, Anirudh, Shukla, Ankita, Choi, Hongjun, and Turaga, Pavan

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

Deep neural networks have increasingly been used as an auxiliary tool in healthcare applications, due to their ability to improve performance of several diagnosis tasks. However, these methods are not widely adopted in clinical settings due to the practical limitations in the reliability, generalizability, and interpretability of deep learning based systems. As a result, methods have been developed that impose additional constraints during network training to gain more control as well as improve interpretabilty, facilitating their acceptance in healthcare community. In this work, we investigate the benefit of using Orthogonal Spheres (OS) constraint for classification of COVID-19 cases from chest X-ray images. The OS constraint can be written as a simple orthonormality term which is used in conjunction with the standard cross-entropy loss during classification network training. Previous studies have demonstrated significant benefits in applying such constraints to deep learning models. Our findings corroborate these observations, indicating that the orthonormality loss function effectively produces improved semantic localization via GradCAM visualizations, enhanced classification performance, and reduced model calibration error. Our approach achieves an improvement in accuracy of 1.6% and 4.8% for two- and three-class classification, respectively; similar results are found for models with data augmentation applied. In addition to these findings, our work also presents a new application of the OS regularizer in healthcare, increasing the post-hoc interpretability and performance of deep learning models for COVID-19 classification to facilitate adoption of these methods in clinical settings. We also identify the limitations of our strategy that can be explored for further research in future., Comment: Accepted in the 2021 ACM CHIL Workshop track. An extended version of this work is under consideration at Pattern Recognition Letters

Published
2021

16. GraCIAS: Grassmannian of Corrupted Images for Adversarial Security

Author

Shukla, Ankita, Turaga, Pavan, and Anand, Saket

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

Input transformation based defense strategies fall short in defending against strong adversarial attacks. Some successful defenses adopt approaches that either increase the randomness within the applied transformations, or make the defense computationally intensive, making it substantially more challenging for the attacker. However, it limits the applicability of such defenses as a pre-processing step, similar to computationally heavy approaches that use retraining and network modifications to achieve robustness to perturbations. In this work, we propose a defense strategy that applies random image corruptions to the input image alone, constructs a self-correlation based subspace followed by a projection operation to suppress the adversarial perturbation. Due to its simplicity, the proposed defense is computationally efficient as compared to the state-of-the-art, and yet can withstand huge perturbations. Further, we develop proximity relationships between the projection operator of a clean image and of its adversarially perturbed version, via bounds relating geodesic distance on the Grassmannian to matrix Frobenius norms. We empirically show that our strategy is complementary to other weak defenses like JPEG compression and can be seamlessly integrated with them to create a stronger defense. We present extensive experiments on the ImageNet dataset across four different models namely InceptionV3, ResNet50, VGG16 and MobileNet models with perturbation magnitude set to {\epsilon} = 16. Unlike state-of-the-art approaches, even without any retraining, the proposed strategy achieves an absolute improvement of ~ 4.5% in defense accuracy on ImageNet., Comment: 16 pages

Published
2020

17. Product of Orthogonal Spheres Parameterization for Disentangled Representation Learning

Author

Shukla, Ankita, Bhagat, Sarthak, Uppal, Shagun, Anand, Saket, and Turaga, Pavan

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

Learning representations that can disentangle explanatory attributes underlying the data improves interpretabilty as well as provides control on data generation. Various learning frameworks such as VAEs, GANs and auto-encoders have been used in the literature to learn such representations. Most often, the latent space is constrained to a partitioned representation or structured by a prior to impose disentangling. In this work, we advance the use of a latent representation based on a product space of Orthogonal Spheres PrOSe. The PrOSe model is motivated by the reasoning that latent-variables related to the physics of image-formation can under certain relaxed assumptions lead to spherical-spaces. Orthogonality between the spheres is motivated via physical independence models. Imposing the orthogonal-sphere constraint is much simpler than other complicated physical models, is fairly general and flexible, and extensible beyond the factors used to motivate its development. Under further relaxed assumptions of equal-sized latent blocks per factor, the constraint can be written down in closed form as an ortho-normality term in the loss function. We show that our approach improves the quality of disentanglement significantly. We find consistent improvement in disentanglement compared to several state-of-the-art approaches, across several benchmarks and metrics., Comment: Accepted at British Machine Vision Conference (BMVC) 2019

Published
2019

18. Primate Face Identification in the Wild

Author

Shukla, Ankita, Cheema, Gullal Singh, Anand, Saket, Qureshi, Qamar, and Jhala, Yadvendradev

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

Ecological imbalance owing to rapid urbanization and deforestation has adversely affected the population of several wild animals. This loss of habitat has skewed the population of several non-human primate species like chimpanzees and macaques and has constrained them to co-exist in close proximity of human settlements, often leading to human-wildlife conflicts while competing for resources. For effective wildlife conservation and conflict management, regular monitoring of population and of conflicted regions is necessary. However, existing approaches like field visits for data collection and manual analysis by experts is resource intensive, tedious and time consuming, thus necessitating an automated, non-invasive, more efficient alternative like image based facial recognition. The challenge in individual identification arises due to unrelated factors like pose, lighting variations and occlusions due to the uncontrolled environments, that is further exacerbated by limited training data. Inspired by human perception, we propose to learn representations that are robust to such nuisance factors and capture the notion of similarity over the individual identity sub-manifolds. The proposed approach, Primate Face Identification (PFID), achieves this by training the network to distinguish between positive and negative pairs of images. The PFID loss augments the standard cross entropy loss with a pairwise loss to learn more discriminative and generalizable features, thus making it appropriate for other related identification tasks like open-set, closed set and verification. We report state-of-the-art accuracy on facial recognition of two primate species, rhesus macaques and chimpanzees under the four protocols of classification, verification, closed-set identification and open-set recognition., Comment: arXiv admin note: text overlap with arXiv:1811.00743

Published
2019

20. Geometry of Deep Generative Models for Disentangled Representations

Author

Shukla, Ankita, Uppal, Shagun, Bhagat, Sarthak, Anand, Saket, and Turaga, Pavan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep generative models like variational autoencoders approximate the intrinsic geometry of high dimensional data manifolds by learning low-dimensional latent-space variables and an embedding function. The geometric properties of these latent spaces has been studied under the lens of Riemannian geometry; via analysis of the non-linearity of the generator function. In new developments, deep generative models have been used for learning semantically meaningful `disentangled' representations; that capture task relevant attributes while being invariant to other attributes. In this work, we explore the geometry of popular generative models for disentangled representation learning. We use several metrics to compare the properties of latent spaces of disentangled representation models in terms of class separability and curvature of the latent-space. The results we obtain establish that the class distinguishable features in the disentangled latent space exhibits higher curvature as opposed to a variational autoencoder. We evaluate and compare the geometry of three such models with variational autoencoder on two different datasets. Further, our results show that distances and interpolation in the latent space are significantly improved with Riemannian metrics derived from the curvature of the space. We expect these results will have implications on understanding how deep-networks can be made more robust, generalizable, as well as interpretable., Comment: Accepted at ICVGIP, 2018

Published
2019

21. Unique Identification of Macaques for Population Monitoring and Control

Author

Shukla, Ankita, Cheema, Gullal Singh, Anand, Saket, Qureshi, Qamar, and Jhala, Yadvendradev

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Despite loss of natural habitat due to development and urbanization, certain species like the Rhesus macaque have adapted well to the urban environment. With abundant food and no predators, macaque populations have increased substantially in urban areas, leading to frequent conflicts with humans. Overpopulated areas often witness macaques raiding crops, feeding on bird and snake eggs as well as destruction of nests, thus adversely affecting other species in the ecosystem. In order to mitigate these adverse effects, sterilization has emerged as a humane and effective way of population control of macaques. As sterilization requires physical capture of individuals or groups, their unique identification is integral to such control measures. In this work, we propose the Macaque Face Identification (MFID), an image based, non-invasive tool that relies on macaque facial recognition to identify individuals, and can be used to verify if they are sterilized. Our primary contribution is a robust facial recognition and verification module designed for Rhesus macaques, but extensible to other non-human primate species. We evaluate the performance of MFID on a dataset of 93 monkeys under closed set, open set and verification evaluation protocols. Finally, we also report state of the art results when evaluating our proposed model on endangered primate species.

Published
2018

22. Perturbation Robust Representations of Topological Persistence Diagrams

Author

Som, Anirudh, Thopalli, Kowshik, Ramamurthy, Karthikeyan Natesan, Venkataraman, Vinay, Shukla, Ankita, and Turaga, Pavan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Topological methods for data analysis present opportunities for enforcing certain invariances of broad interest in computer vision, including view-point in activity analysis, articulation in shape analysis, and measurement invariance in non-linear dynamical modeling. The increasing success of these methods is attributed to the complementary information that topology provides, as well as availability of tools for computing topological summaries such as persistence diagrams. However, persistence diagrams are multi-sets of points and hence it is not straightforward to fuse them with features used for contemporary machine learning tools like deep-nets. In this paper we present theoretically well-grounded approaches to develop novel perturbation robust topological representations, with the long-term view of making them amenable to fusion with contemporary learning architectures. We term the proposed representation as Perturbed Topological Signatures, which live on a Grassmann manifold and hence can be efficiently used in machine learning pipelines. We explore the use of the proposed descriptor on three applications: 3D shape analysis, view-invariant activity analysis, and non-linear dynamical modeling. We show favorable results in both high-level recognition performance and time-complexity when compared to other baseline methods., Comment: 19 pages, 4 figures, 6 tables

Published
2018

23. Semi-Supervised Clustering with Neural Networks

Author

Shukla, Ankita, Cheema, Gullal Singh, and Anand, Saket

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

Clustering using neural networks has recently demonstrated promising performance in machine learning and computer vision applications. However, the performance of current approaches is limited either by unsupervised learning or their dependence on large set of labeled data samples. In this paper, we propose ClusterNet that uses pairwise semantic constraints from very few labeled data samples (<5% of total data) and exploits the abundant unlabeled data to drive the clustering approach. We define a new loss function that uses pairwise semantic similarity between objects combined with constrained k-means clustering to efficiently utilize both labeled and unlabeled data in the same framework. The proposed network uses convolution autoencoder to learn a latent representation that groups data into k specified clusters, while also learning the cluster centers simultaneously. We evaluate and compare the performance of ClusterNet on several datasets and state of the art deep clustering approaches., Comment: 9 Pages

Published
2018

24. CD11a expression distinguishes infiltrating myeloid cells from plaque‐associated microglia in Alzheimer's disease

Author

Shukla, Ankita K, McIntyre, Laura L, Marsh, Samuel E, Schneider, Christine A, Hoover, Evelyn M, Walsh, Craig M, Lodoen, Melissa B, Blurton‐Jones, Mathew, and Inlay, Matthew A

Subjects
Biomedical and Clinical Sciences, Neurosciences, Acquired Cognitive Impairment, Alzheimer's Disease, Dementia, Brain Disorders, Neurodegenerative, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Aging, Aetiology, 2.1 Biological and endogenous factors, Neurological, Algorithms, Alzheimer Disease, Animals, Animals, Newborn, Bone Marrow Transplantation, Brain, CD11a Antigen, CX3C Chemokine Receptor 1, Cells, Cultured, Gene Expression Regulation, Developmental, Humans, Inflammation, Lipopolysaccharides, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Microglia, Myeloid Cells, Oxidoreductases, Receptors, CCR2, Toxoplasmosis, Alzheimer's disease, CD11a, microglia, peripheral immune cells, plaque-associated myeloid cells, Neurology & Neurosurgery
Abstract

Alzheimer's disease (AD) is the leading cause of age-related neurodegeneration and is characterized neuropathologically by the accumulation of insoluble beta-amyloid (Aβ) peptides. In AD brains, plaque-associated myeloid (PAM) cells cluster around Aβ plaques but fail to effectively clear Aβ by phagocytosis. PAM cells were originally thought to be brain-resident microglia. However, several studies have also suggested that Aβ-induced inflammation causes peripheral monocytes to enter the otherwise immune-privileged brain. The relationship between AD progression and inflammation in the brain remains ambiguous because microglia and monocyte-derived macrophages are extremely difficult to distinguish from one another in an inflamed brain. Whether PAM cells are microglia, peripheral macrophages, or a mixture of both remains unclear. CD11a is a component of the β2 integrin LFA1. We have determined that CD11a is highly expressed on peripheral immune cells, including macrophages, but is not expressed by mouse microglia. These expression patterns remain consistent in LPS-treated inflamed mice, as well as in two mouse models of AD. Thus, CD11a can be used as a marker to distinguish murine microglia from infiltrating peripheral immune cells. Using CD11a, we show that PAM cells in AD transgenic brains are comprised entirely of microglia. We also demonstrate a novel fluorescence-assisted quantification technique (FAQT), which reveals a significant increase in T lymphocytes, especially in the brains of female AD mice. Our findings support the notion that microglia are the lead myeloid players in AD and that rejuvenating their phagocytic potential may be an important therapeutic strategy.

Published
2019

33. Matrix recovery using Split Bregman

Author

Gogna, Anupriya, Shukla, Ankita, and Majumdar, Angshul

Subjects
Computer Science - Numerical Analysis, Computer Science - Learning
Abstract

In this paper we address the problem of recovering a matrix, with inherent low rank structure, from its lower dimensional projections. This problem is frequently encountered in wide range of areas including pattern recognition, wireless sensor networks, control systems, recommender systems, image/video reconstruction etc. Both in theory and practice, the most optimal way to solve the low rank matrix recovery problem is via nuclear norm minimization. In this paper, we propose a Split Bregman algorithm for nuclear norm minimization. The use of Bregman technique improves the convergence speed of our algorithm and gives a higher success rate. Also, the accuracy of reconstruction is much better even for cases where small number of linear measurements are available. Our claim is supported by empirical results obtained using our algorithm and its comparison to other existing methods for matrix recovery. The algorithms are compared on the basis of NMSE, execution time and success rate for varying ranks and sampling ratios.

Published
2013

36. Assessment of Knowledge, Perceptions, and Attitudes During the Global Mpox Outbreak in June 2022: A Cross-Sectional Study From the United Arab Emirates

Author

Zeidan, Rouba Karen, primary, Shukla, Ankita, additional, Hussein, Amal, additional, AlZubaidi, Hamzah, additional, Temsah, Mohamad-Hani, additional, AlHajjaj, Mohamed S., additional, Al-Bluwi, Najlaa, additional, Awad, Manal, additional, Alsayed, Hawra Ali Hussein, additional, Saheb Sharif-Askari, Narjes, additional, AlHano, Zahraa, additional, Agha, Razan, additional, Hamid, Qutayba, additional, Halwani, Rabih, additional, and Saddik, Basema, additional

Published
2023
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37. Gene Expression Studies to Identify Significant Genes in AR, MTOR, MAPK Pathways and their Overlapping Regulatory Role in Prostate Cancer

Author

Asati Nimisha, Mishra Abhinav, Shukla Ankita, and Singh Tiratha Raj

Subjects
prostate cancer, meta-analysis, microarray, ar, mapk, mtor, pathways, Biotechnology, TP248.13-248.65
Abstract

Gene expression studies revealed a large degree of variability in gene expression patterns particularly in tissues even in genetically identical individuals. It helps to reveal the components majorly fluctuating during the disease condition. With the advent of gene expression studies many microarray studies have been conducted in prostate cancer, but the results have varied across different studies. To better understand the genetic and biological regulatory mechanisms of prostate cancer, we conducted a meta-analysis of three major pathways i.e. androgen receptor (AR), mechanistic target of rapamycin (mTOR) and Mitogen-Activated Protein Kinase (MAPK) on prostate cancer. Meta-analysis has been performed for the gene expression data for the human species that are exposed to prostate cancer. Twelve datasets comprising AR, mTOR, and MAPK pathways were taken for analysis, out of which thirteen potential biomarkers were identified through meta-analysis. These findings were compiled based upon the quantitative data analysis by using different tools. Also, various interconnections were found amongst the pathways in study. Our study suggests that the microarray analysis of the gene expression data and their pathway level connections allows detection of the potential predictors that can prove to be putative therapeutic targets with biological and functional significance in progression of prostate cancer.

Published
2019
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43. Determining levels of knowledge, worry, anxiety and intention to get vaccinated during the recent monkeypox outbreak: a cross-sectional study from the United Arab Emirates (UAE)

Author

Saddik, Basema, primary, Zeidan, Rouba, additional, Shukla, Ankita, additional, Hussein, Amal, additional, AlZubaidi, Hamzah, additional, Temsah, Mohamad-Hani, additional, Alhajjaj, Mohamed, additional, Al-Bluwi, Najlaa, additional, Awad, Manal, additional, Alsayed, Hawra, additional, Sharif-Askari, Narjes, additional, AlHano, Zahraa, additional, Hamid, Qutayba, additional, and Halwani, Raibh, additional

Published
2023
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46. Development and Function of Hematopoietic Cells

Author

Shukla, Ankita Kiran

Subjects
Immunology, Developmental biology, Alzheimer's Disease, CD11a, Hematopoiesis, Hematopoietic Stem Cells, Microglia, Tissue Resident Macrophages
Abstract

This work focuses on the development and function of hematopoietic cells. First, this work identifies a novel marker CD11a, which distinguishes various tissue resident macrophage populations from bone-marrow derived cells that may colonize a tissue during inflammation. In the context of Alzheimer’s disease, it is determined that myeloid cells that cluster around amyloid plaques are actually brain resident microglia, not infiltrating peripheral macrophages. Using CD11a, a novel quantification technique is also described, which demonstrated microglia proliferation and increased T cells infiltration in the AD mice. Additionally, we outline how CD11a expression patterns in various tissue resident macrophage (trMac) populations may help determine the developmental relationships between these cells. We corroborate other studies that microglia in the brain and Langerhans cells in the skin come from erythro-myeloid progenitors that arise in the embryonic yolk sac (YS). Additionally, we also provide evidence that some hematopoietic stem cells also arise from the mesoderm in extra-embryonic tissue, such as the YS, placenta as well as the vitelline vessels. Using the HoxB6-CreER lineage tracing system, we demonstrate that YS hematopoiesis is critical not just for trMacs, but also for HSC development.

Published
2019

49. Understanding the Role of Mixup in Knowledge Distillation: An Empirical Study

Author

Choi, Hongjun, Jeon, Eun Som, Shukla, Ankita, and Turaga, Pavan

Subjects
FOS: Computer and information sciences, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition
Abstract

Mixup is a popular data augmentation technique based on creating new samples by linear interpolation between two given data samples, to improve both the generalization and robustness of the trained model. Knowledge distillation (KD), on the other hand, is widely used for model compression and transfer learning, which involves using a larger network's implicit knowledge to guide the learning of a smaller network. At first glance, these two techniques seem very different, however, we found that "smoothness" is the connecting link between the two and is also a crucial attribute in understanding KD's interplay with mixup. Although many mixup variants and distillation methods have been proposed, much remains to be understood regarding the role of a mixup in knowledge distillation. In this paper, we present a detailed empirical study on various important dimensions of compatibility between mixup and knowledge distillation. We also scrutinize the behavior of the networks trained with a mixup in the light of knowledge distillation through extensive analysis, visualizations, and comprehensive experiments on image classification. Finally, based on our findings, we suggest improved strategies to guide the student network to enhance its effectiveness. Additionally, the findings of this study provide insightful suggestions to researchers and practitioners that commonly use techniques from KD. Our code is available at https://github.com/hchoi71/MIX-KD., To be presented at WACV 2023

Published
2023

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