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1. An Explainable Machine Learning Approach for Age and Gender Estimation in Living Individuals Using Dental Biometrics

Author

Ali, Mohsin, Raza, Haider, Gan, John Q, Pokhojaev, Ariel, Katz, Matanel, Kosan, Esra, Wahjuningrum, Dian Agustin, Saleh, Omnina, Sarig, Rachel, and Chaurasia, Akhilanada

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Objectives: Age and gender estimation is crucial for various applications, including forensic investigations and anthropological studies. This research aims to develop a predictive system for age and gender estimation in living individuals, leveraging dental measurements such as Coronal Height (CH), Coronal Pulp Cavity Height (CPCH), and Tooth Coronal Index (TCI). Methods: Machine learning models were employed in our study, including Cat Boost Classifier (Catboost), Gradient Boosting Machine (GBM), Ada Boost Classifier (AdaBoost), Random Forest (RF), eXtreme Gradient Boosting (XGB), Light Gradient Boosting Machine (LGB), and Extra Trees Classifier (ETC), to analyze dental data from 862 living individuals (459 males and 403 females). Specifically, periapical radiographs from six teeth per individual were utilized, including premolars and molars from both maxillary and mandibular. A novel ensemble learning technique was developed, which uses multiple models each tailored to distinct dental metrics, to estimate age and gender accurately. Furthermore, an explainable AI model has been created utilizing SHAP, enabling dental experts to make judicious decisions based on comprehensible insight. Results: The RF and XGB models were particularly effective, yielding the highest F1 score for age and gender estimation. Notably, the XGB model showed a slightly better performance in age estimation, achieving an F1 score of 73.26%. A similar trend for the RF model was also observed in gender estimation, achieving a F1 score of 77.53%. Conclusions: This study marks a significant advancement in dental forensic methods, showcasing the potential of machine learning to automate age and gender estimation processes with improved accuracy.

Published
2024

2. MANTA -- Model Adapter Native generations that's Affordable

Author

Chaurasia, Ansh

Subjects
Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

The presiding model generation algorithms rely on simple, inflexible adapter selection to provide personalized results. We propose the model-adapter composition problem as a generalized problem to past work factoring in practical hardware and affordability constraints, and introduce MANTA as a new approach to the problem. Experiments on COCO 2014 validation show MANTA to be superior in image task diversity and quality at the cost of a modest drop in alignment. Our system achieves a $94\%$ win rate in task diversity and a $80\%$ task quality win rate versus the best known system, and demonstrates strong potential for direct use in synthetic data generation and the creative art domains.

Published
2024

3. Optimizing Structured Data Processing through Robotic Process Automation

Author

Bhardwaj, Vivek, Noonia, Ajit, Chaurasia, Sandeep, Kumar, Mukesh, Rashid, Abdulnaser, and Othman, Mohamed Tahar Ben

Subjects
Computer Science - Artificial Intelligence, Computer Science - Robotics
Abstract

Robotic Process Automation (RPA) has emerged as a game-changing technology in data extraction, revolutionizing the way organizations process and analyze large volumes of documents such as invoices, purchase orders, and payment advices. This study investigates the use of RPA for structured data extraction and evaluates its advantages over manual processes. By comparing human-performed tasks with those executed by RPA software bots, we assess efficiency and accuracy in data extraction from invoices, focusing on the effectiveness of the RPA system. Through four distinct scenarios involving varying numbers of invoices, we measure efficiency in terms of time and effort required for task completion, as well as accuracy by comparing error rates between manual and RPA processes. Our findings highlight the significant efficiency gains achieved by RPA, with bots completing tasks in significantly less time compared to manual efforts across all cases. Moreover, the RPA system consistently achieves perfect accuracy, mitigating the risk of errors and enhancing process reliability. These results underscore the transformative potential of RPA in optimizing operational efficiency, reducing human labor costs, and improving overall business performance.

Published
2024
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4. Segmentation of Mental Foramen in Orthopantomographs: A Deep Learning Approach

Author

Raza, Haider, Ali, Mohsin, Singh, Vishal Krishna, Wahjuningrum, Agustin, Sarig, Rachel, and Chaurasia, Akhilanand

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, 14J60, I.4.6
Abstract

Precise identification and detection of the Mental Foramen are crucial in dentistry, impacting procedures such as impacted tooth removal, cyst surgeries, and implants. Accurately identifying this anatomical feature facilitates post-surgery issues and improves patient outcomes. Moreover, this study aims to accelerate dental procedures, elevating patient care and healthcare efficiency in dentistry. This research used Deep Learning methods to accurately detect and segment the Mental Foramen from panoramic radiograph images. Two mask types, circular and square, were used during model training. Multiple segmentation models were employed to identify and segment the Mental Foramen, and their effectiveness was evaluated using diverse metrics. An in-house dataset comprising 1000 panoramic radiographs was created for this study. Our experiments demonstrated that the Classical UNet model performed exceptionally well on the test data, achieving a Dice Coefficient of 0.79 and an Intersection over Union (IoU) of 0.67. Moreover, ResUNet++ and UNet Attention models showed competitive performance, with Dice scores of 0.675 and 0.676, and IoU values of 0.683 and 0.671, respectively. We also investigated transfer learning models with varied backbone architectures, finding LinkNet to produce the best outcomes. In conclusion, our research highlights the efficacy of the classical Unet model in accurately identifying and outlining the Mental Foramen in panoramic radiographs. While vital, this task is comparatively simpler than segmenting complex medical datasets such as brain tumours or skin cancer, given their diverse sizes and shapes. This research also holds value in optimizing dental practice, benefiting practitioners and patients., Comment: 9 pages

Published
2024

5. Identification of new gold lines in the 350 to 1000 nm spectral region using laser produced plasmas

Author

Charlwood, M., Chaurasia, S., McCann, M., Ballance, C., Riley, D., and Keenan, F. P.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Atomic Physics, Physics - Plasma Physics
Abstract

We present results from a pilot study, using a laser-produced plasma, to identify new lines in the 350 to 1000 nm spectral region for the r-process element gold (Au), of relevance to studies of neutron star mergers. This was achieved via optical-IR spectroscopy of a laser-produced Au plasma, with an Au target of high purity (99.95 %) and a low vacuum pressure to remove any air contamination from the experimental spectra. Our data were recorded with a spectrometer of 750 mm focal length and 1200 lines mm-1 grating, yielding a resolution of 0.04 nm. We find 54 lines not previously identified and which are not due to the impurities (principally copper (Cu) and silver (Ag)) in our Au sample. Of these 54 lines, we provisionally match 21 strong transitions to theoretical results from collisional-radiative models that include energy levels derived from atomic structure calculations up to the 6s level. Some of the remaining 33 unidentified lines in our spectra are also strong and may be due to transitions involving energy levels which are higher-lying than those in our plasma models. Nevertheless, our experiments demonstrate that laser-produced plasmas are well suited to the identification of transitions in r-process elements, with the method applicable to spectra ranging from UV to IR wavelengths.

Published
2024
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6. H-FCBFormer Hierarchical Fully Convolutional Branch Transformer for Occlusal Contact Segmentation with Articulating Paper

Author

Banks, Ryan, Rovira-Lastra, Bernat, Martinez-Gomis, Jordi, Chaurasia, Akhilanand, and Li, Yunpeng

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, I.2.1, I.2.10, J.3
Abstract

Occlusal contacts are the locations at which the occluding surfaces of the maxilla and the mandible posterior teeth meet. Occlusal contact detection is a vital tool for restoring the loss of masticatory function and is a mandatory assessment in the field of dentistry, with particular importance in prosthodontics and restorative dentistry. The most common method for occlusal contact detection is articulating paper. However, this method can indicate significant medically false positive and medically false negative contact areas, leaving the identification of true occlusal indications to clinicians. To address this, we propose a multiclass Vision Transformer and Fully Convolutional Network ensemble semantic segmentation model with a combination hierarchical loss function, which we name as Hierarchical Fully Convolutional Branch Transformer (H-FCBFormer). We also propose a method of generating medically true positive semantic segmentation masks derived from expert annotated articulating paper masks and gold standard masks. The proposed model outperforms other machine learning methods evaluated at detecting medically true positive contacts and performs better than dentists in terms of accurately identifying object-wise occlusal contact areas while taking significantly less time to identify them. Code is available at https://github.com/Banksylel/H-FCBFormer., Comment: 15 pages, 5 figures, 2 tables, 5 equations, peer reviewed and accepted to Medical Imaging Understanding and Analysis (MIUA 2024)

Published
2024
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7. FlowVQA: Mapping Multimodal Logic in Visual Question Answering with Flowcharts

Author

Singh, Shubhankar, Chaurasia, Purvi, Varun, Yerram, Pandya, Pranshu, Gupta, Vatsal, Gupta, Vivek, and Roth, Dan

Subjects
Computer Science - Computation and Language, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Information Retrieval, Computer Science - Machine Learning
Abstract

Existing benchmarks for visual question answering lack in visual grounding and complexity, particularly in evaluating spatial reasoning skills. We introduce FlowVQA, a novel benchmark aimed at assessing the capabilities of visual question-answering multimodal language models in reasoning with flowcharts as visual contexts. FlowVQA comprises 2,272 carefully generated and human-verified flowchart images from three distinct content sources, along with 22,413 diverse question-answer pairs, to test a spectrum of reasoning tasks, including information localization, decision-making, and logical progression. We conduct a thorough baseline evaluation on a suite of both open-source and proprietary multimodal language models using various strategies, followed by an analysis of directional bias. The results underscore the benchmark's potential as a vital tool for advancing the field of multimodal modeling, providing a focused and challenging environment for enhancing model performance in visual and logical reasoning tasks., Comment: Accepted in ACL 2024 (Findings), 21 pages, 7 figures, 9 Tables

Published
2024

8. MEV Ecosystem Evolution From Ethereum 1.0

Author

Rasheed, Chaurasia, Yash, Desai, Parth, and Gujar, Sujit

Subjects
Computer Science - Cryptography and Security
Abstract

Smart contracts led to the emergence of the decentralized finance (DeFi) marketplace within blockchain ecosystems, where diverse participants engage in financial activities. In traditional finance, there are possibilities to create values, e.g., arbitrage offers to create value from market inefficiencies or front-running offers to extract value for the participants having privileged roles. Such opportunities are readily available -- searching programmatically in DeFi. It is commonly known as Maximal Extractable Value (MEV) in the literature. In this survey, first, we show how lucrative such opportunities can be. Next, we discuss how protocol-following participants trying to capture such opportunities threaten to sabotage blockchain's performance and the core tenets of decentralization, transparency, and trustlessness that blockchains are based on. Then, we explain different attempts by the community in the past to address these issues and the problems introduced by these solutions. Finally, we review the current state of research trying to restore trustlessness and decentralization to provide all DeFi participants with a fair marketplace.

Published
2024

9. CoLLAB: A Collaborative Approach for Multilingual Abuse Detection

Author

Phukan, Orchid Chetia, Chaurasia, Yashasvi, Buduru, Arun Balaji, and Sharma, Rajesh

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

In this study, we investigate representations from paralingual Pre-Trained model (PTM) for Audio Abuse Detection (AAD), which has not been explored for AAD. Our results demonstrate their superiority compared to other PTM representations on the ADIMA benchmark. Furthermore, combining PTM representations enhances AAD performance. Despite these improvements, challenges with cross-lingual generalizability still remain, and certain languages require training in the same language. This demands individual models for different languages, leading to scalability, maintenance, and resource allocation issues and hindering the practical deployment of AAD systems in linguistically diverse real-world environments. To address this, we introduce CoLLAB, a novel framework that doesn't require training and allows seamless merging of models trained in different languages through weight-averaging. This results in a unified model with competitive AAD performance across multiple languages.

Published
2024

10. The Evolution of Multimodal Model Architectures

Author

Wadekar, Shakti N., Chaurasia, Abhishek, Chadha, Aman, and Culurciello, Eugenio

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

This work uniquely identifies and characterizes four prevalent multimodal model architectural patterns in the contemporary multimodal landscape. Systematically categorizing models by architecture type facilitates monitoring of developments in the multimodal domain. Distinct from recent survey papers that present general information on multimodal architectures, this research conducts a comprehensive exploration of architectural details and identifies four specific architectural types. The types are distinguished by their respective methodologies for integrating multimodal inputs into the deep neural network model. The first two types (Type A and B) deeply fuses multimodal inputs within the internal layers of the model, whereas the following two types (Type C and D) facilitate early fusion at the input stage. Type-A employs standard cross-attention, whereas Type-B utilizes custom-designed layers for modality fusion within the internal layers. On the other hand, Type-C utilizes modality-specific encoders, while Type-D leverages tokenizers to process the modalities at the model's input stage. The identified architecture types aid the monitoring of any-to-any multimodal model development. Notably, Type-C and Type-D are currently favored in the construction of any-to-any multimodal models. Type-C, distinguished by its non-tokenizing multimodal model architecture, is emerging as a viable alternative to Type-D, which utilizes input-tokenizing techniques. To assist in model selection, this work highlights the advantages and disadvantages of each architecture type based on data and compute requirements, architecture complexity, scalability, simplification of adding modalities, training objectives, and any-to-any multimodal generation capability., Comment: 30 pages, 6 tables, 7 figures

Published
2024

21. De novo variants underlying monogenic syndromes with intellectual disability in a neurodevelopmental cohort from India

Author

Pande, Shruti, Majethia, Purvi, Nair, Karthik, Rao, Lakshmi Priya, Mascarenhas, Selinda, Kaur, Namanpreet, do Rosario, Michelle C., Neethukrishna, Kausthubham, Chaurasia, Ankur, Hunakunti, Bhagesh, Jadhav, Nalesh, Xavier, Sruthy, Kumar, Jeevan, Bhat, Vivekananda, Bhavani, Gandham SriLakshmi, Narayanan, Dhanya Lakshmi, Yatheesha, B. L., Patil, Siddaramappa J., Nampoothiri, Sheela, Kamath, Nutan, Aroor, Shrikiran, Bhat Y, Ramesh, Lewis, Leslie E., Sharma, Suvasini, Bajaj, Shruti, Sankhyan, Naveen, Siddiqui, Shahyan, Nayak, Shalini S., Bielas, Stephanie, Girisha, Katta Mohan, and Shukla, Anju

Published
2024
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32. NeuroIDBench: An Open-Source Benchmark Framework for the Standardization of Methodology in Brainwave-based Authentication Research

Author

Chaurasia, Avinash Kumar, Fallahi, Matin, Strufe, Thorsten, Terhörst, Philipp, and Cabarcos, Patricia Arias

Subjects
Computer Science - Cryptography and Security
Abstract

Biometric systems based on brain activity have been proposed as an alternative to passwords or to complement current authentication techniques. By leveraging the unique brainwave patterns of individuals, these systems offer the possibility of creating authentication solutions that are resistant to theft, hands-free, accessible, and potentially even revocable. However, despite the growing stream of research in this area, faster advance is hindered by reproducibility problems. Issues such as the lack of standard reporting schemes for performance results and system configuration, or the absence of common evaluation benchmarks, make comparability and proper assessment of different biometric solutions challenging. Further, barriers are erected to future work when, as so often, source code is not published open access. To bridge this gap, we introduce NeuroIDBench, a flexible open source tool to benchmark brainwave-based authentication models. It incorporates nine diverse datasets, implements a comprehensive set of pre-processing parameters and machine learning algorithms, enables testing under two common adversary models (known vs unknown attacker), and allows researchers to generate full performance reports and visualizations. We use NeuroIDBench to investigate the shallow classifiers and deep learning-based approaches proposed in the literature, and to test robustness across multiple sessions. We observe a 37.6% reduction in Equal Error Rate (EER) for unknown attacker scenarios (typically not tested in the literature), and we highlight the importance of session variability to brainwave authentication. All in all, our results demonstrate the viability and relevance of NeuroIDBench in streamlining fair comparisons of algorithms, thereby furthering the advancement of brainwave-based authentication through robust methodological practices., Comment: 21 pages, 5 Figures, 3 tables, Submitted to the Journal of Information Security and Applications

Published
2024

33. Using YOLO v7 to Detect Kidney in Magnetic Resonance Imaging

Author

Anari, Pouria Yazdian, Obiezu, Fiona, Lay, Nathan, Firouzabadi, Fatemeh Dehghani, Chaurasia, Aditi, Golagha, Mahshid, Singh, Shiva, Homayounieh, Fatemeh, Zahergivar, Aryan, Harmon, Stephanie, Turkbey, Evrim, Gautam, Rabindra, Ma, Kevin, Merino, Maria, Jones, Elizabeth C., Ball, Mark W., Linehan, W. Marston, Turkbey, Baris, and Malayeri, Ashkan A.

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

Introduction This study explores the use of the latest You Only Look Once (YOLO V7) object detection method to enhance kidney detection in medical imaging by training and testing a modified YOLO V7 on medical image formats. Methods Study includes 878 patients with various subtypes of renal cell carcinoma (RCC) and 206 patients with normal kidneys. A total of 5657 MRI scans for 1084 patients were retrieved. 326 patients with 1034 tumors recruited from a retrospective maintained database, and bounding boxes were drawn around their tumors. A primary model was trained on 80% of annotated cases, with 20% saved for testing (primary test set). The best primary model was then used to identify tumors in the remaining 861 patients and bounding box coordinates were generated on their scans using the model. Ten benchmark training sets were created with generated coordinates on not-segmented patients. The final model used to predict the kidney in the primary test set. We reported the positive predictive value (PPV), sensitivity, and mean average precision (mAP). Results The primary training set showed an average PPV of 0.94 +/- 0.01, sensitivity of 0.87 +/- 0.04, and mAP of 0.91 +/- 0.02. The best primary model yielded a PPV of 0.97, sensitivity of 0.92, and mAP of 0.95. The final model demonstrated an average PPV of 0.95 +/- 0.03, sensitivity of 0.98 +/- 0.004, and mAP of 0.95 +/- 0.01. Conclusion Using a semi-supervised approach with a medical image library, we developed a high-performing model for kidney detection. Further external validation is required to assess the model's generalizability.

Published
2024

34. A Generalization of a result of Vemuri

Author

Chaurasia, Manish

Subjects
Mathematics - Classical Analysis and ODEs, Mathematics - Complex Variables, Primary 42C10, Secondary 42C05, 42B35, 33C45, 44A20
Abstract

Assuming that a function and its Fourier transform are dominated by Gaussians, a sharp estimate for the rate of exponential decay of its Hermite coefficients is obtained in terms of the variances of the dominating Gaussians.

Published
2023

35. On pair correlation of Hermite coefficients of functions from the Hardy class

Author

Chaurasia, Manish

Subjects
Mathematics - Classical Analysis and ODEs, Mathematics - Complex Variables, Primary 42C10, Secondary 42C05, 42B35, 33C45, 44A20
Abstract

Assuming that a function and its Fourier transform are dominated by a Gaussian, Vemuri found a sharp estimate for the decay rate of the Hermite coefficients in terms of the variance of the dominating Gaussian. Here we show that under the same assumptions, certain combinations of Hermite coefficients have a better rate of decay., Comment: 6 pages

Published
2023

36. Descemet's membrane detachment: An updated comprehensive review of etiopathogenesis, diagnosis, and management

Author

Beniwal, Abhijeet, Vanathi, Murugesan, Venugopal, Anitha, Chaurasia, Sunita, and Tandon, Radhika

Subjects
Eye diseases -- Diagnosis -- Care and treatment -- Causes of, Membrane disorders -- Diagnosis -- Care and treatment -- Causes of, Eye -- Surgery
Abstract

The Descemet membrane (DM) is the basement membrane of corneal endothelial cells, which are responsible for maintaining corneal transparency. DM detachment (DMD) can occur due to various reasons, with the most common etiology being post-surgical. Older age, blunt instruments, and faulty surgical technique predispose to the intraoperative or postoperative occurrence of DMD, and one should have a high index of suspicion for DMD in cases with unexplained or an atypical pattern of corneal edema after surgery. Prompt intervention for DMD management is imperative to effect early visual rehabilitation, decrease corneal morbidity, and avoid permanent damage leading to scarring of the cornea. Various classifications of DMD and management protocols have been described. Anterior-segment optical coherence tomography (AS-OCT) imaging is the most effective imaging to detect DMD and quantify its extent. Desmetopexy with air/gas is the initial treatment of choice and could be aided by suture fixation. Non-responsive cases might need endothelial keratoplasty. Keywords: AS-OCT, Descemet membrane detachment, Descemetopexy, Author(s): Abhijeet Beniwal [1]; Murugesan Vanathi (corresponding author) [1]; Anitha Venugopal [2]; Sunita Chaurasia [3]; Radhika Tandon [1] Descemet membrane (DM) detachment (DMD) is a potentially serious and sight-threatening complication [...]

Published
2024
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39. A rare case of synchronous association of chromophobe renal cell carcinoma with urothelial carcinoma of urinary bladder

Author

A. Chaurasia, S. Padmanabhana, P. Das, and J. Aravind

Subjects
Chromophobe, Renal cell carcinoma, Urothelial carcinoma, Diseases of the genitourinary system. Urology, RC870-923
Abstract

Introduction: Chromophobe renal cell carcinoma accounts for 3–5% of all RCCs. However, its association with urothelial carcinoma of urinary bladder has never been reported. We report a case of synchronous association of chromophobe RCC with low grade urothelial carcinoma of urinary bladder. Observations: A 64-year old gentleman, presented with a dull aching pain in right loin region of one month duration. General physical and abdominal examinations were unremarkable. Ultrasonography of abdomen showed a well-defined hypoechoic mass lesion involving the lower pole of right kidney. CECT abdomen revealed a partially exophytic mass lesion of size 4 cm × 4.3 cm × 5.1 cm arising from lower pole of right kidney. Surprisingly, urinary bladder also showed a polypoidal mass lesion measuring 15 mm × 12 mm × 13 mm in posterior wall inferior to right vesico-ureteric junction. We proceeded with right partial nephrectomy followed by transurethral resection of bladder tumor. Histopathology report revealed chromophobe RCC and low grade urothelial carcinoma of urinary bladder. The patient is under regular follow-up. Conclusion: Synchronous association of chromophobe RCC with urothelial carcinoma of urinary bladder has not been reported so far, hence there is no scientific consensus in the management of these lesions.

Published
2017
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42. A Novel Container Based Computing Environment

Author

Seth, Jitendra Kumar, Gupta, Ruchin, Chakraborty, Chinmoy, Rastogi, Tushar, Chaurasia, Arpit, Ghosh, Ashish, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Singh, Mayank, editor, Tyagi, Vipin, editor, Gupta, P. K., editor, Flusser, Jan, editor, Ören, Tuncer, editor, Cherif, Amar Ramdane, editor, and Tomar, Ravi, editor

Published
2025
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