Your search keyword '"Rajesh AS"' showing total 308,246 results

1. Analysing the Impact of 3D-Printed Perforated Panels and Polyurethane Foam on Sound Absorption Coefficients

Author

Chetan Patil, Ratnakar Ghorpade, and Rajesh Askhedkar

Subjects

sound absorption coefficient (SAC), noise reduction coefficient (NRC), finite element analysis (FEA), polyurethane (Pu) foam, 3D-printed perforated panels, Engineering design, TA174

Abstract

Effective sound absorption is crucial in environments like schools and hospitals. This study evaluates open-pore polyurethane foam and perforated onyx panels, which attenuate noise via distinct mechanisms: porous materials convert sound energy to heat through viscous and thermal losses, while perforated panels use resonant behaviour for energy dissipation. The impact of hole geometries and panel orientations on the sound absorption coefficient and noise reduction coefficient was investigated using COMSOL Multiphysics 6.0 for finite element analysis and ISO 10534-2 compliant impedance tube experiments. Six perforated panel configurations were 3D-printed with varying hole diameters and backed by a 24 mm polyurethane foam layer. Both ‘forward’ and ‘reverse’ configurations were assessed. A tapered hole from 4 mm to 2 mm showed the highest sound absorption across the 100–4000 Hz range, with a noise reduction coefficient of 0.444, excelling in both orientations. Reverse designs generally performed less, underscoring the importance of hole geometry and orientation. Experimental results aligned with FEA simulations, validating the computational model. This study elucidates sound absorption mechanisms of porous and perforated materials, providing a validated framework for material selection in noise-sensitive settings and highlighting 3D-printing’s potential in noise control.

Published

2024

2. Efficacy of Celecoxib and Diclofenac Sodium in the Management of Postoperative Pain, Swelling and Mouth Opening after Surgical Removal of Impacted Third Molars: A Split-mouth Randomised Clinical Study

Author

Gaurav Kumar Jha, Rajesh Ashok Kshirsagar, Vikram Singh, Sudhir Ramlal Pawar, Vivek Nair, Daksh Manish Kedia, Ojas Desai, and Saurabh Jain

Subjects

non-steroidal anti-inflammatory drugs, postoperative sequalae, wisdom tooth surgery, Medicine

Abstract

Introduction: The surgical removal of mandibular third molars is generally followed by complaints of pain, trismus, and swelling. The duration of surgery and the reflection of a mucoperiosteal flap have been shown to affect the intensity and frequency of postoperative complaints. Pain from third molar surgery typically begins within one to three hours after surgery and ranges in intensity from moderate to severe. Numerous analgesics have been used to minimise pain and discomfort following the surgical removal of impacted third molars. Commonly used agents include ibuprofen, diclofenac sodium, paracetamol, or their combinations. Newer drugs, such as selective COX inhibitors, have not been extensively used for minor oral surgical procedures. Aim: To compare the clinical efficacy of celecoxib and diclofenac sodium on pain, swelling, and mouth opening after the surgical removal of impacted mandibular third molars. Materials and Methods: A split-mouth randomised controlled clinical trial was conducted in the Department of Oral and Maxillofacial Surgery at BharatiVidyapeeth DU Dental College and Hospital, Pune, Maharashtra, India. The study duration was six months, from August 2022 to January 2023. A total of 21 subjects (11 males and 10 females) who required surgical extraction of an impacted mandibular third molar were selected. All subjects were randomly allocated to receive one of the following treatments twice a day for five days after surgery: celecoxib 200 mg (n=11) or diclofenac sodium 75 mg (n=10). Pain scores were evaluated using the Visual Analogue Scale (VAS) on postoperative day one, two, and three. Swelling and mouth opening were evaluated on Postoperative Day (POD) two and seven. Intergroup comparison was done using Student’s t-test. Results: The mean age of the study participants was 28±1.5 years, and the mean VAS score for pain evaluation with celecoxib was 6.61, 5.38, and 5.00 on day 1 (p=0.027), 2 (p=0.972), and 3 (p=0.809), respectively. The difference in swelling values for the celecoxib group was significant, while there were no significant differences in the values of mouth opening. Conclusion: It was concluded that celecoxib 200 mg is a better analgesic and anti-inflammatory compared to diclofenac sodium 75 mg. Celecoxib was easily tolerable and comfortable for the patients. There was no significant difference in the values of mouth opening.

Published

2023

3. Interim Report 2 on the Implementation, Impact, and Cost Effectiveness of Developmental Education Reform in California's Community Colleges

Author

Research for Action (RFA), Texas Education Research Center, Kri Burkander, Dae Kim, Mark Duffy, Lindsey Liu, Taylor Stenley, Keerthanya Rajesh, and Sean Vannata

Abstract

Research for Action (RFA) in partnership with the University of Texas at Austin is engaged in a five-year mixed-methods study of the reforms associated with California AB 705. Over the course of the study, our team will assess the implementation, impact, and cost effectiveness of reforms associated with the law. This second interim report, presented at the conclusion of year three of the study, focuses on gaining a deeper understanding of on-campus implementation through a faculty survey administered to math and English departments across our study sample, an Interrupted Time Series analysis with nine cohorts of FTIC student data, and preliminary data collection for our cost effectiveness study. Collectively, these data highlight significant changes that colleges have made on campus regarding shifting enrollments from developmental education into transfer-level coursework in both English and math, and providing additional supports to students to promote retention and completion. We find that AB 705 has demonstrated notable successes in improving enrollment and completion rates in transfer-level courses, particularly in math, among FTIC students in California's community colleges. While our survey results suggest that faculty believe additional resources and supports would be helpful, most faculty report that implementation supports have been adequate.

Published

2024

4. Rational Extension of Anisotropic Harmonic Oscillator Potentials in Higher Dimensions

Author

Kumar, Rajesh, Yadav, Rajesh Kumar, and Khare, Avinash

Subjects

Quantum Physics, High Energy Physics - Theory, Mathematical Physics

Abstract

This paper presents the first-order supersymmetric rational extension of the quantum anisotropic harmonic oscillator (QAHO) in multiple dimensions, including full-line, half-line, and their combinations. The exact solutions are in terms of the exceptional orthogonal polynomials. The rationally extended potentials are isospectral to the conventional QAHOs., Comment: 19 pages, 2 figures and 2 tables

Published

2024

5. First Responders: The Critics of the Critical

Author

Daksh Manish Kedia and Rajesh Ashok Kshirsagar

Subjects

advanced cardiac life support, basic life support, emergency medical services, Medicine

Abstract

Newer developments in the field of medical technology have significantly changed hospital-based medical emergency services. However, the “out-of-hospital management” of the most emergent situations, such as cardiac arrest and stroke, remains poorly addressed. Basic Life Support (BLS) is a great tool if used in time by a trained service provider. The critical determinant of survival remains the availability of good quality Cardiopulmonary Resuscitation (CPR) as soon as possible.

Published

2023

6. Quality Improvement Process with Incident Learning Program Helped Reducing Transcriptional Errors on Telecobalt Due to Mismatched Parameters in Different Generations

Author

Rahul Krishnatry, Carlton Johnny, Tahseena Tahmeed, Libin Scaria, Vivek Sutar, Chandrashekhar Tambe, Ritu Raj Upreti, Rajesh Ashok Kinhikar, and Jai Prakash Agarwal

Subjects

incident learning program, quality improvement, telecobalt, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Purpose: Higher frequency of transcriptional errors in the radiotherapy electronic charts for patients on telecobalt was noted. We describe the impact of the quality improvement (QI) initiative under the department's incident learning program (ILP). Materials and Methods: The multidisciplinary quality team under ILP was formed to identify the root cause and introduce methods to reduce (smart goal) the current transcription error rate of 40% to 0.05) with no new additional errors. Conclusions: With various generations of machines and technologies that are not synchronized, the proneness of transcription errors can be very high which can be identified and corrected with a typical QI process under ILP.

Published

2022

7. IPMN Risk Assessment under Federated Learning Paradigm

Author

Pan, Hongyi, Hong, Ziliang, Durak, Gorkem, Keles, Elif, Aktas, Halil Ertugrul, Taktak, Yavuz, Medetalibeyoglu, Alpay, Zhang, Zheyuan, Velichko, Yury, Spampinato, Concetto, Schoots, Ivo, Bruno, Marco J., Tiwari, Pallavi, Bolan, Candice, Gonda, Tamas, Miller, Frank, Keswani, Rajesh N., Wallace, Michael B., Xu, Ziyue, and Bagci, Ulas

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Machine Learning

Abstract

Accurate classification of Intraductal Papillary Mucinous Neoplasms (IPMN) is essential for identifying high-risk cases that require timely intervention. In this study, we develop a federated learning framework for multi-center IPMN classification utilizing a comprehensive pancreas MRI dataset. This dataset includes 653 T1-weighted and 656 T2-weighted MRI images, accompanied by corresponding IPMN risk scores from 7 leading medical institutions, making it the largest and most diverse dataset for IPMN classification to date. We assess the performance of DenseNet-121 in both centralized and federated settings for training on distributed data. Our results demonstrate that the federated learning approach achieves high classification accuracy comparable to centralized learning while ensuring data privacy across institutions. This work marks a significant advancement in collaborative IPMN classification, facilitating secure and high-accuracy model training across multiple centers.

Published

2024

8. Explanations that reveal all through the definition of encoding

Author

Puli, Aahlad, Nguyen, Nhi, and Ranganath, Rajesh

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Machine Learning

Abstract

Feature attributions attempt to highlight what inputs drive predictive power. Good attributions or explanations are thus those that produce inputs that retain this predictive power; accordingly, evaluations of explanations score their quality of prediction. However, evaluations produce scores better than what appears possible from the values in the explanation for a class of explanations, called encoding explanations. Probing for encoding remains a challenge because there is no general characterization of what gives the extra predictive power. We develop a definition of encoding that identifies this extra predictive power via conditional dependence and show that the definition fits existing examples of encoding. This definition implies, in contrast to encoding explanations, that non-encoding explanations contain all the informative inputs used to produce the explanation, giving them a "what you see is what you get" property, which makes them transparent and simple to use. Next, we prove that existing scores (ROAR, FRESH, EVAL-X) do not rank non-encoding explanations above encoding ones, and develop STRIPE-X which ranks them correctly. After empirically demonstrating the theoretical insights, we use STRIPE-X to uncover encoding in LLM-generated explanations for predicting the sentiment in movie reviews., Comment: 35 pages, 7 figures, 6 tables, 38th Conference on Neural Information Processing Systems (NeurIPS 2024)

Published

2024

9. Mpemba effect in the relaxation of an active Brownian particle in a trap without metastable states

Author

Biswas, Apurba and Rajesh, R.

Subjects

Condensed Matter - Statistical Mechanics, Condensed Matter - Soft Condensed Matter

Abstract

We explore the role of activity in the occurrence of the Mpemba effect within a system of an active colloid diffusing in a potential landscape devoid of metastable minimum. The Mpemba effect is characterized by a phenomenon where a hotter system reaches equilibrium quicker than a colder one when both are rapidly cooled to the same low temperature. While a minimal asymmetry in the potential landscape is crucial for observing this effect in passive colloidal systems, the introduction of activity can either amplify or reduce the threshold of this minimal asymmetry, resulting in the activity-induced and suppressed Mpemba effect. We attribute these variations in the Mpemba effect to the effective translational shift in the phase space, which occurs as activity is changed., Comment: 8 pages, 5 figures

Published

2024

10. Weighted estimates for lacunary maximal functions on homogeneous groups

Author

Ghosh, Abhishek and Singh, Rajesh K.

Subjects

Mathematics - Classical Analysis and ODEs, 42B20

Abstract

In this article, we study weighted estimates for a general class of lacunary maximal functions on homogeneous groups. As an application we derive improved weighted estimates for the lacunary maximal function associated to the Kor\'anyi spherical means as well as for the lacunary maximal function associated to codimension two spheres in the Heisenberg group.

Published

2024

11. Capsule Vision Challenge 2024: Multi-Class Abnormality Classification for Video Capsule Endoscopy

Author

Bansal, Aakarsh, Singla, Bhuvanesh, Wankhade, Raajan Rajesh, and Patil, Nagamma

Subjects

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

Abstract

This study presents an approach to developing a model for classifying abnormalities in video capsule endoscopy (VCE) frames. Given the challenges of data imbalance, we implemented a tiered augmentation strategy using the albumentations library to enhance minority class representation. Additionally, we addressed learning complexities by progressively structuring training tasks, allowing the model to differentiate between normal and abnormal cases and then gradually adding more specific classes based on data availability. Our pipeline, developed in PyTorch, employs a flexible architecture enabling seamless adjustments to classification complexity. We tested our approach using ResNet50 and a custom ViT-CNN hybrid model, with training conducted on the Kaggle platform. This work demonstrates a scalable approach to abnormality classification in VCE.

Published

2024

12. Contrasting with Symile: Simple Model-Agnostic Representation Learning for Unlimited Modalities

Author

Saporta, Adriel, Puli, Aahlad, Goldstein, Mark, and Ranganath, Rajesh

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Computer Vision and Pattern Recognition, Statistics - Machine Learning

Abstract

Contrastive learning methods, such as CLIP, leverage naturally paired data-for example, images and their corresponding text captions-to learn general representations that transfer efficiently to downstream tasks. While such approaches are generally applied to two modalities, domains such as robotics, healthcare, and video need to support many types of data at once. We show that the pairwise application of CLIP fails to capture joint information between modalities, thereby limiting the quality of the learned representations. To address this issue, we present Symile, a simple contrastive learning approach that captures higher-order information between any number of modalities. Symile provides a flexible, architecture-agnostic objective for learning modality-specific representations. To develop Symile's objective, we derive a lower bound on total correlation, and show that Symile representations for any set of modalities form a sufficient statistic for predicting the remaining modalities. Symile outperforms pairwise CLIP, even with modalities missing in the data, on cross-modal classification and retrieval across several experiments including on an original multilingual dataset of 33M image, text and audio samples and a clinical dataset of chest X-rays, electrocardiograms, and laboratory measurements. All datasets and code used in this work are publicly available at https://github.com/rajesh-lab/symile., Comment: NeurIPS 2024

Published

2024

13. GRS-QA -- Graph Reasoning-Structured Question Answering Dataset

Author

Pahilajani, Anish, Trivedi, Devasha, Shuai, Jincen, Yone, Khin S., Jain, Samyak Rajesh, Park, Namyong, Rossi, Ryan A., Ahmed, Nesreen K., Dernoncourt, Franck, and Wang, Yu

Subjects

Computer Science - Computation and Language

Abstract

Large Language Models (LLMs) have excelled in multi-hop question-answering (M-QA) due to their advanced reasoning abilities. However, the impact of the inherent reasoning structures on LLM M-QA performance remains unclear, largely due to the absence of QA datasets that provide fine-grained reasoning structures. To address this gap, we introduce the Graph Reasoning-Structured Question Answering Dataset (GRS-QA), which includes both semantic contexts and reasoning structures for QA pairs. Unlike existing M-QA datasets, where different reasoning structures are entangled together, GRS-QA explicitly captures intricate reasoning pathways by constructing reasoning graphs, where nodes represent textual contexts and edges denote logical flows. These reasoning graphs of different structures enable a fine-grained evaluation of LLM reasoning capabilities across various reasoning structures. Our empirical analysis reveals that LLMs perform differently when handling questions with varying reasoning structures. This finding facilitates the exploration of textual structures as compared with semantics., Comment: 15 pages, 24 figures, 10 tables

Published

2024

14. Exact calculation of the large deviation function for $k$-nary coalescence

Author

Rajesh, R., Subashri, V., and Zaboronski, Oleg

Subjects

Condensed Matter - Statistical Mechanics, Nonlinear Sciences - Exactly Solvable and Integrable Systems

Abstract

We study probabilities of rare events in the general coalescence process, $kA\rightarrow \ell A$, where $k>\ell$. For arbitrary $k, \ell$, by rewriting these probabilities in terms of an effective action, we derive the large deviation function describing the probability of finding $N$ particles at time $t$, when starting with $M$ particles initially. Additionally, the most probable trajectory corresponding to a fixed rare event is derived., Comment: 5 figures

Published

2024

15. Adaptive Aggregation Weights for Federated Segmentation of Pancreas MRI

Author

Pan, Hongyi, Durak, Gorkem, Zhang, Zheyuan, Taktak, Yavuz, Keles, Elif, Aktas, Halil Ertugrul, Medetalibeyoglu, Alpay, Velichko, Yury, Spampinato, Concetto, Schoots, Ivo, Bruno, Marco J., Keswani, Rajesh N., Tiwari, Pallavi, Bolan, Candice, Gonda, Tamas, Goggins, Michael G., Wallace, Michael B., Xu, Ziyue, and Bagci, Ulas

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Distributed, Parallel, and Cluster Computing

Abstract

Federated learning (FL) enables collaborative model training across institutions without sharing sensitive data, making it an attractive solution for medical imaging tasks. However, traditional FL methods, such as Federated Averaging (FedAvg), face difficulties in generalizing across domains due to variations in imaging protocols and patient demographics across institutions. This challenge is particularly evident in pancreas MRI segmentation, where anatomical variability and imaging artifacts significantly impact performance. In this paper, we conduct a comprehensive evaluation of FL algorithms for pancreas MRI segmentation and introduce a novel approach that incorporates adaptive aggregation weights. By dynamically adjusting the contribution of each client during model aggregation, our method accounts for domain-specific differences and improves generalization across heterogeneous datasets. Experimental results demonstrate that our approach enhances segmentation accuracy and reduces the impact of domain shift compared to conventional FL methods while maintaining privacy-preserving capabilities. Significant performance improvements are observed across multiple hospitals (centers).

Published

2024

16. Improved Spectral Density Estimation via Explicit and Implicit Deflation

Author

Bhattacharjee, Rajarshi, Jayaram, Rajesh, Musco, Cameron, Musco, Christopher, and Ray, Archan

Subjects

Computer Science - Data Structures and Algorithms, Mathematics - Numerical Analysis, F.2.1, G.1.3, G.1.2, G.4, I.1.2

Abstract

We study algorithms for approximating the spectral density of a symmetric matrix $A$ that is accessed through matrix-vector product queries. By combining a previously studied Chebyshev polynomial moment matching method with a deflation step that approximately projects off the largest magnitude eigendirections of $A$ before estimating the spectral density, we give an $\epsilon\cdot\sigma_\ell(A)$ error approximation to the spectral density in the Wasserstein-$1$ metric using $O(\ell\log n+ 1/\epsilon)$ matrix-vector products, where $\sigma_\ell(A)$ is the $\ell^{th}$ largest singular value of $A$. In the common case when $A$ exhibits fast singular value decay, our bound can be much stronger than prior work, which gives an error bound of $\epsilon \cdot ||A||_2$ using $O(1/\epsilon)$ matrix-vector products. We also show that it is nearly tight: any algorithm giving error $\epsilon \cdot \sigma_\ell(A)$ must use $\Omega(\ell+1/\epsilon)$ matrix-vector products. We further show that the popular Stochastic Lanczos Quadrature (SLQ) method matches the above bound, even though SLQ itself is parameter-free and performs no explicit deflation. This bound explains the strong practical performance of SLQ, and motivates a simple variant of SLQ that achieves an even tighter error bound. Our error bound for SLQ leverages an analysis that views it as an implicit polynomial moment matching method, along with recent results on low-rank approximation with single-vector Krylov methods. We use these results to show that the method can perform implicit deflation as part of moment matching., Comment: 77 pages, 1 figure

Published

2024

17. An Efficient Numerical Scheme for a Time-Fractional Burgers Equation with Caputo-Prabhakar Derivative

Author

Singh, Deeksha, Yadav, Swati, and Pandey, Rajesh K.

Subjects

Mathematics - Numerical Analysis, 35R11, 65M06, 65M12

Abstract

This paper presents a numerical method to solve a time-fractional Burgers equation, achieving order of convergence $(2-\alpha)$ in time, here $\alpha$ represents the order of the time derivative. The fractional derivative is modeled by Caputo-Prabhakar (CP) formulation, which incorporates a kernel defined by the three-parameter Mittag-Leffler function. Finite difference methods are employed for the discretization of the derivatives. To handle the non-linear term, the Newton iteration method is used. The proposed numerical scheme is proven to be stable and convergent in the $L_{\infty}$ norm. The validity of the theory is supported by two numerical examples.

Published

2024

18. A Photonic Crystal Receiver for Rydberg Atom-Based Sensing

Author

Amarloo, Hadi, Noaman, Mohammad, Yu, Su-Peng, Booth, Donald, Mirzaee, Somayeh, Pandiyan, Rajesh, Christaller, Florian, and Shaffer, James P.

Subjects

Physics - Atomic Physics, Electrical Engineering and Systems Science - Signal Processing, Quantum Physics

Abstract

Rydberg atom-based sensors use atoms dressed by lasers to detect and measure radio frequency electromagnetic fields. The absorptive properties of the atomic gas, configured as a Rydberg atom-based sensor, change in the presence of a radio frequency electromagnetic field. While these sensors are reasonably sensitive, the best conventional radio frequency sensors still outperform Rydberg atom-based sensors with respect to sensitivity. One approach to increase the sensitivity of Rydberg atom-based sensors is to engineer the vapor cell that contains the atomic gas. In this work, we introduce a passive, all-dielectric amplifier integrated into a Rydberg atom-based sensor vapor cell. The vapor cell is a combination of a slot waveguide and a photonic crystal. The structural features of the vapor cell yield a power amplification of ~24 dB. The radio frequency electromagnetic field is coupled adiabatically into the slot waveguide and slowed to increase the interaction between the radio frequency field and the atoms to effectively amplify the incoming signal, i.e., increase the Rabi frequency on the radio frequency transition. The work shows the utility of vapor cell engineering for atom-based quantum technologies and paves the way for other such devices.

Published

2024

19. ProvocationProbe: Instigating Hate Speech Dataset from Twitter

Author

Kumar, Abhay, Shankaran, Vigneshwaran, and Sharma, Rajesh

Subjects

Computer Science - Computation and Language

Abstract

In the recent years online social media platforms has been flooded with hateful remarks such as racism, sexism, homophobia etc. As a result, there have been many measures taken by various social media platforms to mitigate the spread of hate-speech over the internet. One particular concept within the domain of hate speech is instigating hate, which involves provoking hatred against a particular community, race, colour, gender, religion or ethnicity. In this work, we introduce \textit{ProvocationProbe} - a dataset designed to explore what distinguishes instigating hate speech from general hate speech. For this study, we collected around twenty thousand tweets from Twitter, encompassing a total of nine global controversies. These controversies span various themes including racism, politics, and religion. In this paper, i) we present an annotated dataset after comprehensive examination of all the controversies, ii) we also highlight the difference between hate speech and instigating hate speech by identifying distinguishing features, such as targeted identity attacks and reasons for hate.

Published

2024

20. Deep learning-based identification of patients at increased risk of cancer using routine laboratory markers

Author

Singh, Vivek, Chaganti, Shikha, Siebert, Matthias, Rajesh, Soumya, Puiu, Andrei, Gopalan, Raj, Gramz, Jamie, Comaniciu, Dorin, and Kamen, Ali

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

Early screening for cancer has proven to improve the survival rate and spare patients from intensive and costly treatments due to late diagnosis. Cancer screening in the healthy population involves an initial risk stratification step to determine the screening method and frequency, primarily to optimize resource allocation by targeting screening towards individuals who draw most benefit. For most screening programs, age and clinical risk factors such as family history are part of the initial risk stratification algorithm. In this paper, we focus on developing a blood marker-based risk stratification approach, which could be used to identify patients with elevated cancer risk to be encouraged for taking a diagnostic test or participate in a screening program. We demonstrate that the combination of simple, widely available blood tests, such as complete blood count and complete metabolic panel, could potentially be used to identify patients at risk for colorectal, liver, and lung cancers with areas under the ROC curve of 0.76, 0.85, 0.78, respectively. Furthermore, we hypothesize that such an approach could not only be used as pre-screening risk assessment for individuals but also as population health management tool, for example to better interrogate the cancer risk in certain sub-populations.

Published

2024

21. Dynamic Spectral fluorescence microscopy via Event-based & CMOS image-sensor fusion

Author

Baird, Richard G., Majumder, Apratim, and Menon, Rajesh

Subjects

Physics - Optics

Abstract

We present a widefield fluorescence microscope that integrates an event-based image sensor (EBIS) with a CMOS image sensor (CIS) for ultra-fast microscopy with spectral distinction capabilities. The EBIS achieves temporal resolution of $\sim10\thinspace\mu$s ($\sim\thinspace$50,000 frames/s), while the CIS provides diffraction-limited spatial resolution. A diffractive optical element encodes spectral information into a diffractogram, which is recorded by the CIS. The diffractogram is processed using a deep neural network to resolve the fluorescence of two beads, whose emission peaks are separated by only 7 nm and exhibit an 88\% spectral overlap. We validate our microscope by imaging the capillary flow of fluorescent beads, demonstrating a significant advancement in ultra-fast spectral microscopy. This technique holds broad potential for elucidating foundational dynamic biological processes.

Published

2024

22. AI on My Shoulder: Supporting Emotional Labor in Front-Office Roles with an LLM-based Empathetic Coworker

Author

Swain, Vedant Das, Zhong, Qiuyue "Joy", Parekh, Jash Rajesh, Jeon, Yechan, Zimmerman, Roy, Czerwinski, Mary, Suh, Jina, Mishra, Varun, Saha, Koustuv, and Hernandez, Javier

Subjects

Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, Computer Science - Computation and Language

Abstract

Client-Service Representatives (CSRs) are vital to organizations. Frequent interactions with disgruntled clients, however, disrupt their mental well-being. To help CSRs regulate their emotions while interacting with uncivil clients, we designed Pro-Pilot, an LLM-powered assistant, and evaluated its efficacy, perception, and use. Our comparative analyses between 665 human and Pro-Pilot-generated support messages demonstrate Pro-Pilot's ability to adapt to and demonstrate empathy in various incivility incidents. Additionally, 143 CSRs assessed Pro-Pilot's empathy as more sincere and actionable than human messages. Finally, we interviewed 20 CSRs who interacted with Pro-Pilot in a simulation exercise. They reported that Pro-Pilot helped them avoid negative thinking, recenter thoughts, and humanize clients; showing potential for bridging gaps in coworker support. Yet, they also noted deployment challenges and emphasized the irreplaceability of shared experiences. We discuss future designs and societal implications of AI-mediated emotional labor, underscoring empathy as a critical function for AI assistants in front-office roles.

Published

2024

23. UniMTS: Unified Pre-training for Motion Time Series

Author

Zhang, Xiyuan, Teng, Diyan, Chowdhury, Ranak Roy, Li, Shuheng, Hong, Dezhi, Gupta, Rajesh K., and Shang, Jingbo

Subjects

Electrical Engineering and Systems Science - Signal Processing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Motion time series collected from mobile and wearable devices such as smartphones and smartwatches offer significant insights into human behavioral patterns, with wide applications in healthcare, automation, IoT, and AR/XR due to their low-power, always-on nature. However, given security and privacy concerns, building large-scale motion time series datasets remains difficult, preventing the development of pre-trained models for human activity analysis. Typically, existing models are trained and tested on the same dataset, leading to poor generalizability across variations in device location, device mounting orientation and human activity type. In this paper, we introduce UniMTS, the first unified pre-training procedure for motion time series that generalizes across diverse device latent factors and activities. Specifically, we employ a contrastive learning framework that aligns motion time series with text descriptions enriched by large language models. This helps the model learn the semantics of time series to generalize across activities. Given the absence of large-scale motion time series data, we derive and synthesize time series from existing motion skeleton data with all-joint coverage. Spatio-temporal graph networks are utilized to capture the relationships across joints for generalization across different device locations. We further design rotation-invariant augmentation to make the model agnostic to changes in device mounting orientations. Our model shows exceptional generalizability across 18 motion time series classification benchmark datasets, outperforming the best baselines by 340% in the zero-shot setting, 16.3% in the few-shot setting, and 9.2% in the full-shot setting., Comment: NeurIPS 2024. Code: https://github.com/xiyuanzh/UniMTS. Model: https://huggingface.co/xiyuanz/UniMTS

Published

2024

24. Imprompter: Tricking LLM Agents into Improper Tool Use

Author

Fu, Xiaohan, Li, Shuheng, Wang, Zihan, Liu, Yihao, Gupta, Rajesh K., Berg-Kirkpatrick, Taylor, and Fernandes, Earlence

Subjects

Computer Science - Cryptography and Security

Abstract

Large Language Model (LLM) Agents are an emerging computing paradigm that blends generative machine learning with tools such as code interpreters, web browsing, email, and more generally, external resources. These agent-based systems represent an emerging shift in personal computing. We contribute to the security foundations of agent-based systems and surface a new class of automatically computed obfuscated adversarial prompt attacks that violate the confidentiality and integrity of user resources connected to an LLM agent. We show how prompt optimization techniques can find such prompts automatically given the weights of a model. We demonstrate that such attacks transfer to production-level agents. For example, we show an information exfiltration attack on Mistral's LeChat agent that analyzes a user's conversation, picks out personally identifiable information, and formats it into a valid markdown command that results in leaking that data to the attacker's server. This attack shows a nearly 80% success rate in an end-to-end evaluation. We conduct a range of experiments to characterize the efficacy of these attacks and find that they reliably work on emerging agent-based systems like Mistral's LeChat, ChatGLM, and Meta's Llama. These attacks are multimodal, and we show variants in the text-only and image domains., Comment: website: https://imprompter.ai code: https://github.com/Reapor-Yurnero/imprompter v2 changelog: add new results to Table 3, correct several typos

Published

2024

25. Reversals of toroidal magnetic field in local shearing box simulations of accretion disc with a hot corona

Author

Singh, Nishant K., Ajay, Arunima, and Rajesh, S R

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Presence of a hot corona above the accretion disc can have important consequences for the evolution of magnetic fields and the Shakura-Sunyaev (SS) viscosity parameter $\alpha$ in such a strongly coupled system. In this work, we have performed three-dimensional magnetohydrodynamical shearing-box numerical simulations of accretion disc with a hot corona above the cool disc. Such a two-layer, piece-wise isothermal system is vertically stratified under linear gravity and initial conditions here include a strong azimuthal magnetic field with a ratio between the thermal and magnetic pressures being of order unity in the disc region. Instabilities in this magnetized system lead to the generation of turbulence, which, in turn, governs the further evolution of magnetic fields in a self-sustaining manner. Remarkably, the mean toroidal magnetic field undergoes a complete reversal in time by changing its sign, and it is predominantly confined within the disc. This is a rather unique class of evolution of the magnetic field which has not been reported earlier. Solutions of mean magnetic fields here are thus qualitatively different from the vertically migrating dynamo waves that are commonly seen in previous works which model a single layer of an isothermal gas. Effective $\alpha$ is found to have values between 0.01 and 0.03. We have also made a comparison between models with Smagorinsky and explicit schemes for the kinematic viscosity ($\nu$). In some cases with an explicit $\nu$ we find a burst-like temporal behavior in $\alpha$., Comment: 12 pages, 8 figures, 1 table

Published

2024

26. Prior Information-Aided ADMM for Multi-User Detection in Codebook-Based Grant-Free NOMA: Dynamic Scenarios

Author

Vikas, Vinjamoori, Deka, Kuntal, and Rajesh, A.

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

Code-domain non-orthogonal multiple access (CD-NOMA) systems offer key benefits such as high spectral efficiency, low latency, high reliability, and massive connectivity. NOMA's ability to handle overloading allows multiple devices to share a single resource element (RE) for data transmission. In CD-NOMA, different users are assigned distinct codewords, which are leveraged during multi-user detection (MUD). Codebook-based NOMA systems outperform spread-sequence (SS)-based NOMA due to the coding gains provided by the codebooks. Sparse code multiple access (SCMA) and dense code multiple access (DCMA) are two prominent examples of such systems. Additionally, NOMA is seen as a crucial technology for enabling grant-free access, especially in massive machine-type communications (mMTC). One of the main challenges in deploying grant-free NOMA systems is accurately detecting both user activity and transmitted data, particularly when user activity fluctuates dynamically across the transmission frame. This paper introduces codebook-based grant-free NOMA systems modeled using a block sparsity signal structure. The joint activity and data detection (JADD) problem in these systems is formulated as group LASSO and sparse group LASSO block compressive sensing (BCS) problems. To address these, a robust prior information-aided alternating direction method of multipliers (ADMM) algorithm is proposed. Extensive numerical experiments and theoretical analysis show the efficiency of the proposed algorithm, making it a suitable solution for mMTC networks.

Published

2024

27. Multi-View Multi-Task Modeling with Speech Foundation Models for Speech Forensic Tasks

Author

Phukan, Orchid Chetia, Koshal, Devyani, Behera, Swarup Ranjan, Buduru, Arun Balaji, and Sharma, Rajesh

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound, 68T45, I.2.7

Abstract

Speech forensic tasks (SFTs), such as automatic speaker recognition (ASR), speech emotion recognition (SER), gender recognition (GR), and age estimation (AE), find use in different security and biometric applications. Previous works have applied various techniques, with recent studies focusing on applying speech foundation models (SFMs) for improved performance. However, most prior efforts have centered on building individual models for each task separately, despite the inherent similarities among these tasks. This isolated approach results in higher computational resource requirements, increased costs, time consumption, and maintenance challenges. In this study, we address these challenges by employing a multi-task learning strategy. Firstly, we explore the various state-of-the-art (SOTA) SFMs by extracting their representations for learning these SFTs and investigating their effectiveness at each task specifically. Secondly, we analyze the performance of the extracted representations on the SFTs in a multi-task learning framework. We observe a decline in performance when SFTs are modeled together compared to individual task-specific models, and as a remedy, we propose multi-view learning (MVL). Views are representations from different SFMs transformed into distinct abstract spaces by characteristics unique to each SFM. By leveraging MVL, we integrate these diverse representations to capture complementary information across tasks, enhancing the shared learning process. We introduce a new framework called TANGO (Task Alignment with iNter-view Gated Optimal transport) to implement this approach. With TANGO, we achieve the topmost performance in comparison to individual SFM representations as well as baseline fusion techniques across benchmark datasets such as CREMA-D, emo-DB, and BAVED.

Published

2024

28. Beyond Speech and More: Investigating the Emergent Ability of Speech Foundation Models for Classifying Physiological Time-Series Signals

Author

Phukan, Orchid Chetia, Behera, Swarup Ranjan, Girish, Akhtar, Mohd Mujtaba, Buduru, Arun Balaji, and Sharma, Rajesh

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Electrical Engineering and Systems Science - Signal Processing, 68T45, I.2.7

Abstract

Despite being trained exclusively on speech data, speech foundation models (SFMs) like Whisper have shown impressive performance in non-speech tasks such as audio classification. This is partly because speech shares some common traits with audio, enabling SFMs to transfer effectively. In this study, we push the boundaries by evaluating SFMs on a more challenging out-of-domain (OOD) task: classifying physiological time-series signals. We test two key hypotheses: first, that SFMs can generalize to physiological signals by capturing shared temporal patterns; second, that multilingual SFMs will outperform others due to their exposure to greater variability during pre-training, leading to more robust, generalized representations. Our experiments, conducted for stress recognition using ECG (Electrocardiogram), EMG (Electromyography), and EDA (Electrodermal Activity) signals, reveal that models trained on SFM-derived representations outperform those trained on raw physiological signals. Among all models, multilingual SFMs achieve the highest accuracy, supporting our hypothesis and demonstrating their OOD capabilities. This work positions SFMs as promising tools for new uncharted domains beyond speech.

Published

2024

29. SeQuiFi: Mitigating Catastrophic Forgetting in Speech Emotion Recognition with Sequential Class-Finetuning

Author

Jain, Sarthak, Phukan, Orchid Chetia, Behera, Swarup Ranjan, Buduru, Arun Balaji, and Sharma, Rajesh

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound, 68T45, I.2.7

Abstract

In this work, we introduce SeQuiFi, a novel approach for mitigating catastrophic forgetting (CF) in speech emotion recognition (SER). SeQuiFi adopts a sequential class-finetuning strategy, where the model is fine-tuned incrementally on one emotion class at a time, preserving and enhancing retention for each class. While various state-of-the-art (SOTA) methods, such as regularization-based, memory-based, and weight-averaging techniques, have been proposed to address CF, it still remains a challenge, particularly with diverse and multilingual datasets. Through extensive experiments, we demonstrate that SeQuiFi significantly outperforms both vanilla fine-tuning and SOTA continual learning techniques in terms of accuracy and F1 scores on multiple benchmark SER datasets, including CREMA-D, RAVDESS, Emo-DB, MESD, and SHEMO, covering different languages.

Published

2024

30. Change in Magnetic Order in NiPS3 Single Crystals Induced by a Molecular Intercalation

Author

Chakraborty, Nirman, Harchol, Adi, Abu-Hariri, Azhar, Yadav, Rajesh Kumar, Dawod, Muhamed, Gaonkar, Diksha Prabhu, Sharma, Kusha, Eyal, Anna, Amouyal, Yaron, Naveh, Doron, and Lifshitz, Efrat

Subjects

Condensed Matter - Materials Science, Physics - Chemical Physics

Abstract

Intercalation is a robust method for tuning the physical properties of a vast number of van der Waals (vdW) materials. However, the prospects of using intercalation to modify magnetism in vdWs systems and the associated mechanisms have not been investigated adequately. In this work, we modulate magnetic order in an XY antiferromagnet NiPS3 single crystals by introducing pyridine molecules into the vdWs gap under different thermal conditions. X-ray diffraction measurements indicated pronounced changes in the lattice parameter beta, while magnetization measurements at in-plane and out-of-plane configurations exposed reversal trends in the crystals Neel temperatures through intercalation-de-intercalation processes. The changes in magnetic ordering were also supported by three-dimensional thermal diffusivity experiments. The preferred orientation of the pyridine dipoles within vdW gaps was deciphered via polarized Raman spectroscopy. The results highlight the relation between the preferential alignment of the intercalants, thermal transport, and crystallographic disorder along with the modulation of anisotropy in the magnetic order. The theoretical concept of double-exchange interaction in NiPS3 was employed to explain the intercalation-induced magnetic ordering. The study uncovers the merit of intercalation as a foundation for spin switches and spin transistors in advanced quantum devices.

Published

2024

31. Learning Agents With Prioritization and Parameter Noise in Continuous State and Action Space

Author

Mangannavar, Rajesh and Srinivasaraghavan, Gopalakrishnan

Subjects

Computer Science - Artificial Intelligence, Computer Science - Machine Learning, I.2.6

Abstract

Among the many variants of RL, an important class of problems is where the state and action spaces are continuous -- autonomous robots, autonomous vehicles, optimal control are all examples of such problems that can lend themselves naturally to reinforcement based algorithms, and have continuous state and action spaces. In this paper, we introduce a prioritized form of a combination of state-of-the-art approaches such as Deep Q-learning (DQN) and Deep Deterministic Policy Gradient (DDPG) to outperform the earlier results for continuous state and action space problems. Our experiments also involve the use of parameter noise during training resulting in more robust deep RL models outperforming the earlier results significantly. We believe these results are a valuable addition for continuous state and action space problems., Comment: 10 pages, 3 figures. Published in Advances in Neural Networks - ISNN 2019

Published

2024

32. Experimental detection of topological electronic state and large linear magnetoresistance in $SrSn_{4}$ superconductor

Author

Pariari, Arnab Kumar, Sharma, Rajesh O, Balal, Mohammad, Hücker, Markus, Das, Tanmoy, and Barman, Sudipta Roy

Subjects

Condensed Matter - Materials Science

Abstract

While recent experiments confirm the existence of hundreds of topological electronic materials, only a few exhibit the coexistence of superconductivity and a topological electronic state. These compounds attract significant attention in forefront research because of the potential for the existence of topological superconductivity, paving the way for future technological advancements. $SrSn_{4}$ is known for exhibiting unusual superconductivity below the transition temperature ($T_{C}$) of 4.8 K. Recent theory predicts a topological electronic state in this compound, which is yet to be confirmed by experiments. Systematic and detailed studies of the magnetotransport properties of $SrSn_{4}$ and its Fermi surface characterizations are also absent. For the first time, a quantum oscillation study reveals a nontrivial $\pi$ Berry phase, very light effective mass, and high quantum mobility of charge carriers in $SrSn_{4}$. Magnetotransport experiment unveils large linear transverse magnetoresistance (TMR) of more than 1200% at 5 K and 14 T. Angle-dependent transport experiments detect anisotropic and four-fold symmetric TMR, with the maximum value ($\sim$ 2000%) occurring when the angle between the magnetic field and the crystallographic b-axis is 45 degree. Our results suggest that $SrSn_{4}$ is the first topological material with superconductivity above the boiling point of helium that displays such high magnetoresistance., Comment: Advanced Functional Materials, Published online on 10th October,2024

Published

2024

33. Phases and Phase Transitions of the Disordered Quantum Clock Model

Author

Kuttanikkad, Vishnu Pulloor, Khairnar, Gaurav, Narayanan, Rajesh, and Vojta, Thomas

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

We study the phases and phase transitions of a disordered one-dimensional quantum $q$-state clock Hamiltonian using large-scale Monte Carlo simulations. Making contact with earlier results, we confirm that the clean, translational invariant version of the model, for $q=6$, hosts an intermediate emergent quasi-long-range ordered (QLRO) phase between the symmetry-broken true long-range ordered (TLRO) phase and the disordered (paramagnetic) phase. With increasing disorder strength, the quasi-long-range ordered phase shrinks and finally vanishes at a multi-critical point, beyond which there is a direct transition from the TLRO phase to the paramagnetic phase. After establishing the phase diagram, we characterize the critical behaviors of the various quantum phase transitions in the model. We find that weak disorder is an irrelevant perturbation of the Berezinskii-Kosterlitz-Thouless transitions that separate the QLRO phase from the TLRO and paramagnetic phases. For stronger disorder, some of the critical exponents become disorder-dependent already before the system reaches the multicritical point. We also show that beyond the multicritical point, the direct transition from the TLRO phase to the paramagnetic phase is governed by an infinite-randomness critical point in line with strong-disorder renormalization group predictions. While our numerical results are for $q=6$, we expect the qualitative features of the behavior to hold for all $q>4$., Comment: 17 pages, 18 figures

Published

2024

34. Influence of the microstructure on the mechanical behavior of nanoporous materials under large strains

Author

Chandrasekaran, Rajesh, Itskov, Mikhail, and Rege, Ameya

Subjects

Condensed Matter - Materials Science, Physics - Computational Physics

Abstract

Nanoporous materials are characterized by their complex porous morphology illustrated by the presence of a solid network and voids. The fraction of these voids is characterized by the porosity of the structure, which influences the bulk mechanical properties of the material. Most literature on the mechanics of porous materials has focused on the density-dependence of their elastic properties. In addition to porosity, other pore characteristics, namely pore-size and shape described by the pore-size distribution, and pore-wall size and shape, also influence the bulk response of these materials. In this work, the mechanical structure-property relation of nanoporous materials is studied under large deformations using a computational framework. The interdependent microstructural parameters are identified. After a successful correlation between the synthesis and microstructural parameters, the synthesis of porous materials can be guided and optimized by controlling these parameters., Comment: 22 pages, 14 figures

Published

2024

35. On a Conjecture about Ron Graham's Sequence

Author

Kagey, Peter and Rajesh, Krishna

Subjects

Mathematics - Number Theory, Mathematics - Combinatorics, 05A15

Abstract

Ron Graham's Sequence is a surprising bijection from non-negative integers to non-negative, non-prime integers that was introduced by Ron Graham in the June 1986 "Problems" column of $\textit{Mathematics Magazine}$, and which later appeared in Problem A2 of the 2013 William Lowell Putnam Mathematical Competition. We describe some properties of this function, give an algorithm for computing its values in pseudo-polynomial time, and prove a 22 year-old conjecture about an upper bound for the function., Comment: 10 pages

Published

2024

36. A Comprehensive Survey of Retrieval-Augmented Generation (RAG): Evolution, Current Landscape and Future Directions

Author

Gupta, Shailja, Ranjan, Rajesh, and Singh, Surya Narayan

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Information Retrieval

Abstract

This paper presents a comprehensive study of Retrieval-Augmented Generation (RAG), tracing its evolution from foundational concepts to the current state of the art. RAG combines retrieval mechanisms with generative language models to enhance the accuracy of outputs, addressing key limitations of LLMs. The study explores the basic architecture of RAG, focusing on how retrieval and generation are integrated to handle knowledge-intensive tasks. A detailed review of the significant technological advancements in RAG is provided, including key innovations in retrieval-augmented language models and applications across various domains such as question-answering, summarization, and knowledge-based tasks. Recent research breakthroughs are discussed, highlighting novel methods for improving retrieval efficiency. Furthermore, the paper examines ongoing challenges such as scalability, bias, and ethical concerns in deployment. Future research directions are proposed, focusing on improving the robustness of RAG models, expanding the scope of application of RAG models, and addressing societal implications. This survey aims to serve as a foundational resource for researchers and practitioners in understanding the potential of RAG and its trajectory in natural language processing., Comment: 4 Figures

Published

2024

37. Early review of Gender Bias of OpenAI o1-mini: Higher Intelligence of LLM does not necessarily solve Gender Bias and Stereotyping issues

Author

Ranjan, Rajesh, Gupta, Shailja, and Singh, Surya Naranyan

Subjects

Computer Science - Computers and Society

Abstract

In this paper, we present an early evaluation of the OpenAI o1-mini model, analyzing its performance in gender inclusivity and bias. Our research, conducted on 700 personas 350 from GPT-4o mini and 350 from o1-mini, reveals that despite improvements in inclusivity regarding personality traits and preferences, significant gender biases remain. For instance, o1-mini rated male personas higher in competency, with a score of 8.06, compared to female personas at 7.88 and non-binary personas at 7.80. Additionally, o1-mini assigned PhD roles to 28% of male personas but only 22.4% of females and 0% of non-binary personas. Male personas were also more likely to be perceived as successful founders, at 69.4%, and CEOs, at 62.17%, compared to female personas at 67.97% and 61.11%, and non-binary personas at 65.7% and 58.37%. The analysis reveals persistent gender biases across fields like Engineering, Data, and Technology, where males dominate, reflecting traditional stereotypes. Conversely, fields like Design, Art, and Marketing show a stronger presence of females, reinforcing societal notions that associate creativity and communication with females. These findings highlight ongoing challenges in mitigating gender bias, reinforcing the need for further interventions to ensure equitable representation across all genders in AI models.

Published

2024

38. Shock propagation following an intense explosion in an inhomogeneous gas: core scaling and hydrodynamics

Author

Kumar, Amit and Rajesh, R.

Subjects

Condensed Matter - Statistical Mechanics

Abstract

We study the shock propagation in a spatially inhomogeneous gas following an intense explosion. We generalize the exact solution of the Euler equation for the spatio-temporal variation of density, velocity, and temperature to arbitrary dimensions. From the asymptotic behavior of the solution near the shock center, we argue that only for a critical dimension dependent initial density distribution will the Euler equation provide a correct description of the problem. For general initial density distributions, we use event-driven molecular dynamics simulations in one dimension to demonstrate that the Euler equation fails to capture the behavior near the shock center. However, the Navier-Stokes equation successfully resolves this issue. The crossover length scale below which the dissipation terms are relevant and the core scaling for the data near the shock center are derived and confirmed in EDMD simulations.

Published

2024

39. RAGProbe: An Automated Approach for Evaluating RAG Applications

Author

Sivasothy, Shangeetha, Barnett, Scott, Kurniawan, Stefanus, Rasool, Zafaryab, and Vasa, Rajesh

Subjects

Computer Science - Computation and Language, Computer Science - Machine Learning

Abstract

Retrieval Augmented Generation (RAG) is increasingly being used when building Generative AI applications. Evaluating these applications and RAG pipelines is mostly done manually, via a trial and error process. Automating evaluation of RAG pipelines requires overcoming challenges such as context misunderstanding, wrong format, incorrect specificity, and missing content. Prior works therefore focused on improving evaluation metrics as well as enhancing components within the pipeline using available question and answer datasets. However, they have not focused on 1) providing a schema for capturing different types of question-answer pairs or 2) creating a set of templates for generating question-answer pairs that can support automation of RAG pipeline evaluation. In this paper, we present a technique for generating variations in question-answer pairs to trigger failures in RAG pipelines. We validate 5 open-source RAG pipelines using 3 datasets. Our approach revealed the highest failure rates when prompts combine multiple questions: 91% for questions when spanning multiple documents and 78% for questions from a single document; indicating a need for developers to prioritise handling these combined questions. 60% failure rate was observed in academic domain dataset and 53% and 62% failure rates were observed in open-domain datasets. Our automated approach outperforms the existing state-of-the-art methods, by increasing the failure rate by 51% on average per dataset. Our work presents an automated approach for continuously monitoring the health of RAG pipelines, which can be integrated into existing CI/CD pipelines, allowing for improved quality., Comment: 11 pages, 5 figures, 9 tables

Published

2024

40. A Comprehensive Survey of Bias in LLMs: Current Landscape and Future Directions

Author

Ranjan, Rajesh, Gupta, Shailja, and Singh, Surya Narayan

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Computers and Society, Computer Science - Human-Computer Interaction

Abstract

Large Language Models(LLMs) have revolutionized various applications in natural language processing (NLP) by providing unprecedented text generation, translation, and comprehension capabilities. However, their widespread deployment has brought to light significant concerns regarding biases embedded within these models. This paper presents a comprehensive survey of biases in LLMs, aiming to provide an extensive review of the types, sources, impacts, and mitigation strategies related to these biases. We systematically categorize biases into several dimensions. Our survey synthesizes current research findings and discusses the implications of biases in real-world applications. Additionally, we critically assess existing bias mitigation techniques and propose future research directions to enhance fairness and equity in LLMs. This survey serves as a foundational resource for researchers, practitioners, and policymakers concerned with addressing and understanding biases in LLMs., Comment: 2 Tables, 1 Figure

Published

2024

41. Representation Loss Minimization with Randomized Selection Strategy for Efficient Environmental Fake Audio Detection

Author

Phukan, Orchid Chetia, Girish, Akhtar, Mohd Mujtaba, Behera, Swarup Ranjan, Choudhury, Nitin, Buduru, Arun Balaji, Sharma, Rajesh, and Prasanna, S. R Mahadeva

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound, 68T45, I.2.7

Abstract

The adaptation of foundation models has significantly advanced environmental audio deepfake detection (EADD), a rapidly growing area of research. These models are typically fine-tuned or utilized in their frozen states for downstream tasks. However, the dimensionality of their representations can substantially lead to a high parameter count of downstream models, leading to higher computational demands. So, a general way is to compress these representations by leveraging state-of-the-art (SOTA) unsupervised dimensionality reduction techniques (PCA, SVD, KPCA, GRP) for efficient EADD. However, with the application of such techniques, we observe a drop in performance. So in this paper, we show that representation vectors contain redundant information, and randomly selecting 40-50% of representation values and building downstream models on it preserves or sometimes even improves performance. We show that such random selection preserves more performance than the SOTA dimensionality reduction techniques while reducing model parameters and inference time by almost over half., Comment: Submitted to ICASSP 2025

Published

2024

42. Avengers Assemble: Amalgamation of Non-Semantic Features for Depression Detection

Author

Phukan, Orchid Chetia, Behera, Swarup Ranjan, Singh, Shubham, Singh, Muskaan, Rajan, Vandana, Buduru, Arun Balaji, Sharma, Rajesh, and Prasanna, S. R. Mahadeva

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound, 68T45, I.2.7

Abstract

In this study, we address the challenge of depression detection from speech, focusing on the potential of non-semantic features (NSFs) to capture subtle markers of depression. While prior research has leveraged various features for this task, NSFs-extracted from pre-trained models (PTMs) designed for non-semantic tasks such as paralinguistic speech processing (TRILLsson), speaker recognition (x-vector), and emotion recognition (emoHuBERT)-have shown significant promise. However, the potential of combining these diverse features has not been fully explored. In this work, we demonstrate that the amalgamation of NSFs results in complementary behavior, leading to enhanced depression detection performance. Furthermore, to our end, we introduce a simple novel framework, FuSeR, designed to effectively combine these features. Our results show that FuSeR outperforms models utilizing individual NSFs as well as baseline fusion techniques and obtains state-of-the-art (SOTA) performance in E-DAIC benchmark with RMSE of 5.51 and MAE of 4.48, establishing it as a robust approach for depression detection., Comment: Submitted to ICASSP 2025

Published

2024

43. Inconsistencies of metalens performance and comparison with conventional diffractive optics

Author

Menon, Rajesh and Sensale-Rodriguez, Berardi

Subjects

Physics - Optics

Abstract

We posit that inconsistent interpretations of experimental data have led to inaccurate claims on metalens focusing efficiencies. By performing a meta-analysis,we show that extraordinary claims of high focusing efficiency at high numerical apertures are, unfortunately, not yet backed by rigorous simulation or experimental results. In this document, we have included the original comment and supplement, as well as the revised versions that correct the errors found in the original.

Published

2024

44. Strong Alone, Stronger Together: Synergizing Modality-Binding Foundation Models with Optimal Transport for Non-Verbal Emotion Recognition

Author

Phukan, Orchid Chetia, Akhtar, Mohd Mujtaba, Girish, Behera, Swarup Ranjan, Kalita, Sishir, Buduru, Arun Balaji, Sharma, Rajesh, and Prasanna, S. R Mahadeva

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound, 68T45, I.2.7

Abstract

In this study, we investigate multimodal foundation models (MFMs) for emotion recognition from non-verbal sounds. We hypothesize that MFMs, with their joint pre-training across multiple modalities, will be more effective in non-verbal sounds emotion recognition (NVER) by better interpreting and differentiating subtle emotional cues that may be ambiguous in audio-only foundation models (AFMs). To validate our hypothesis, we extract representations from state-of-the-art (SOTA) MFMs and AFMs and evaluated them on benchmark NVER datasets. We also investigate the potential of combining selected foundation model representations to enhance NVER further inspired by research in speech recognition and audio deepfake detection. To achieve this, we propose a framework called MATA (Intra-Modality Alignment through Transport Attention). Through MATA coupled with the combination of MFMs: LanguageBind and ImageBind, we report the topmost performance with accuracies of 76.47%, 77.40%, 75.12% and F1-scores of 70.35%, 76.19%, 74.63% for ASVP-ESD, JNV, and VIVAE datasets against individual FMs and baseline fusion techniques and report SOTA on the benchmark datasets., Comment: Submitted to ICASSP 2025

Published

2024

45. Are Music Foundation Models Better at Singing Voice Deepfake Detection? Far-Better Fuse them with Speech Foundation Models

Author

Phukan, Orchid Chetia, Jain, Sarthak, Behera, Swarup Ranjan, Buduru, Arun Balaji, Sharma, Rajesh, and Prasanna, S. R Mahadeva

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Machine Learning, Computer Science - Sound, 68T45, I.2.7

Abstract

In this study, for the first time, we extensively investigate whether music foundation models (MFMs) or speech foundation models (SFMs) work better for singing voice deepfake detection (SVDD), which has recently attracted attention in the research community. For this, we perform a comprehensive comparative study of state-of-the-art (SOTA) MFMs (MERT variants and music2vec) and SFMs (pre-trained for general speech representation learning as well as speaker recognition). We show that speaker recognition SFM representations perform the best amongst all the foundation models (FMs), and this performance can be attributed to its higher efficacy in capturing the pitch, tone, intensity, etc, characteristics present in singing voices. To our end, we also explore the fusion of FMs for exploiting their complementary behavior for improved SVDD, and we propose a novel framework, FIONA for the same. With FIONA, through the synchronization of x-vector (speaker recognition SFM) and MERT-v1-330M (MFM), we report the best performance with the lowest Equal Error Rate (EER) of 13.74 %, beating all the individual FMs as well as baseline FM fusions and achieving SOTA results., Comment: Submitted to ICASSP 2025

Published

2024

46. Shock propagation in a driven hard sphere gas: molecular dynamics simulations and hydrodynamics

Author

Kumar, Amit and Rajesh, R.

Subjects

Condensed Matter - Statistical Mechanics, Condensed Matter - Soft Condensed Matter

Abstract

The continuous injection of energy at a localized region in space in a stationary gas creates a shock wave that propagates radially outwards. We study the hydrodynamics of this disturbance using event driven molecular dynamics of a hard sphere gas in three dimensions, the numerical solution of the Euler equation with a virial equation of state for the gas, and the numerical solution of the Navier-Stokes equation. We show that the results from the Euler equation do not agree with the data from hard sphere simulations. Including dissipative terms through the Navier-Stokes equation results in reasonably good description of the data, when the coefficients of dissipation are chose parametrically.

Published

2024

47. Comprehensive Study on Sentiment Analysis: From Rule-based to modern LLM based system

Author

Gupta, Shailja, Ranjan, Rajesh, and Singh, Surya Narayan

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Computers and Society, Computer Science - Human-Computer Interaction

Abstract

This paper provides a comprehensive survey of sentiment analysis within the context of artificial intelligence (AI) and large language models (LLMs). Sentiment analysis, a critical aspect of natural language processing (NLP), has evolved significantly from traditional rule-based methods to advanced deep learning techniques. This study examines the historical development of sentiment analysis, highlighting the transition from lexicon-based and pattern-based approaches to more sophisticated machine learning and deep learning models. Key challenges are discussed, including handling bilingual texts, detecting sarcasm, and addressing biases. The paper reviews state-of-the-art approaches, identifies emerging trends, and outlines future research directions to advance the field. By synthesizing current methodologies and exploring future opportunities, this survey aims to understand sentiment analysis in the AI and LLM context thoroughly., Comment: 2 Images

Published

2024

48. Hybridized Projected Differential Transform Method For collisional-breakage equation

Author

Shweta, Hussain, Saddam, and Kumar, Rajesh

Subjects

Computer Science - Computational Engineering, Finance, and Science, Mathematics - Dynamical Systems, Mathematics - Numerical Analysis

Abstract

The non-linear collision induced fragmentation plays a crucial role in modeling several engineering and physical problems. In contrast to linear breakage, it has not been thoroughly investigated in the existing literature. This study introduces an innovative method that leverages the Elzaki integral transform as a preparatory step to enhance the accuracy and convergence of domain decomposition, used alongside the projected differential transform method to obtain closed-form or series approximations of solutions for the collisional breakage equation (CBE). A significant advantages of this technique is its capability to directly address both linear and nonlinear differential equations without the need for discretization or linearization. The mathematical framework is reinforced by a thorough convergence analysis, applying fixed point theory within an adequately defined Banach space. Additionally, error estimates for the approximated solutions are derived, offering more profound insights into the accuracy and dependability of the proposed method. The validity of this approach is demonstrated by comparing the obtained results with exact or finite volume approximated solutions considering several physical examples. Interestingly, the proposed algorithm yields accurate approximations for the number density functions as well as moments with fewer terms and maintains higher precision over extended time periods.

Published

2024

49. Edge States with Hidden Topology in Spinner Lattices

Author

Vishwakarma, Udbhav, Irfan, Murthaza, Theocharis, Georgios, and Chaunsali, Rajesh

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Classical Physics

Abstract

Symmetries -- whether explicit, latent, or hidden -- are fundamental to understanding topological materials. This work introduces a prototypical spring-mass model that extends beyond established canonical models, revealing topological edge states with distinct profiles at opposite edges. These edge states originate from hidden symmetries that become apparent only in deformation coordinates, as opposed to the conventional displacement coordinates used for bulk-boundary correspondence. Our model, realized through the intricate connectivity of a spinner chain, demonstrates experimentally distinct edge states at opposite ends. By extending this framework to two dimensions, we explore the conditions required for such edge waves and their hidden symmetry in deformation coordinates. We also show that these edge states are robust against disorders that respect the hidden symmetry. This research paves the way for advanced material designs with tailored boundary conditions and edge state profiles, offering potential applications in fields such as photonics, acoustics, and mechanical metamaterials., Comment: 11 pages, 4 figures

Published

2024

50. A Fine-grained Sentiment Analysis of App Reviews using Large Language Models: An Evaluation Study

Author

Shah, Faiz Ali, Sabir, Ahmed, and Sharma, Rajesh

Subjects

Computer Science - Computation and Language, Computer Science - Software Engineering

Abstract

Analyzing user reviews for sentiment towards app features can provide valuable insights into users' perceptions of app functionality and their evolving needs. Given the volume of user reviews received daily, an automated mechanism to generate feature-level sentiment summaries of user reviews is needed. Recent advances in Large Language Models (LLMs) such as ChatGPT have shown impressive performance on several new tasks without updating the model's parameters i.e. using zero or a few labeled examples. Despite these advancements, LLMs' capabilities to perform feature-specific sentiment analysis of user reviews remain unexplored. This study compares the performance of state-of-the-art LLMs, including GPT-4, ChatGPT, and LLama-2-chat variants, for extracting app features and associated sentiments under 0-shot, 1-shot, and 5-shot scenarios. Results indicate the best-performing GPT-4 model outperforms rule-based approaches by 23.6% in f1-score with zero-shot feature extraction; 5-shot further improving it by 6%. GPT-4 achieves a 74% f1-score for predicting positive sentiment towards correctly predicted app features, with 5-shot enhancing it by 7%. Our study suggests that LLM models are promising for generating feature-specific sentiment summaries of user reviews., Comment: The summary of the project is available at https://bit.ly/3XGcRM1

Published

2024