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1. Continuous Bayesian Model Selection for Multivariate Causal Discovery

Author

Dhir, Anish, Sedgwick, Ruby, Kori, Avinash, Glocker, Ben, and van der Wilk, Mark

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Current causal discovery approaches require restrictive model assumptions or assume access to interventional data to ensure structure identifiability. These assumptions often do not hold in real-world applications leading to a loss of guarantees and poor accuracy in practice. Recent work has shown that, in the bivariate case, Bayesian model selection can greatly improve accuracy by exchanging restrictive modelling for more flexible assumptions, at the cost of a small probability of error. We extend the Bayesian model selection approach to the important multivariate setting by making the large discrete selection problem scalable through a continuous relaxation. We demonstrate how for our choice of Bayesian non-parametric model, the Causal Gaussian Process Conditional Density Estimator (CGP-CDE), an adjacency matrix can be constructed from the model hyperparameters. This adjacency matrix is then optimised using the marginal likelihood and an acyclicity regulariser, outputting the maximum a posteriori causal graph. We demonstrate the competitiveness of our approach on both synthetic and real-world datasets, showing it is possible to perform multivariate causal discovery without infeasible assumptions using Bayesian model selection.

Published
2024

2. WCEbleedGen: A wireless capsule endoscopy dataset and its benchmarking for automatic bleeding classification, detection, and segmentation

Author

Handa, Palak, Dhir, Manas, Mahbod, Amirreza, Schwarzhans, Florian, Woitek, Ramona, Goel, Nidhi, and Gunjan, Deepak

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

Computer-based analysis of Wireless Capsule Endoscopy (WCE) is crucial. However, a medically annotated WCE dataset for training and evaluation of automatic classification, detection, and segmentation of bleeding and non-bleeding frames is currently lacking. The present work focused on development of a medically annotated WCE dataset called WCEbleedGen for automatic classification, detection, and segmentation of bleeding and non-bleeding frames. It comprises 2,618 WCE bleeding and non-bleeding frames which were collected from various internet resources and existing WCE datasets. A comprehensive benchmarking and evaluation of the developed dataset was done using nine classification-based, three detection-based, and three segmentation-based deep learning models. The dataset is of high-quality, is class-balanced and contains single and multiple bleeding sites. Overall, our standard benchmark results show that Visual Geometric Group (VGG) 19, You Only Look Once version 8 nano (YOLOv8n), and Link network (Linknet) performed best in automatic classification, detection, and segmentation-based evaluations, respectively. Automatic bleeding diagnosis is crucial for WCE video interpretations. This diverse dataset will aid in developing of real-time, multi-task learning-based innovative solutions for automatic bleeding diagnosis in WCE. The dataset and code are publicly available at https://zenodo.org/records/10156571 and https://github.com/misahub2023/Benchmarking-Codes-of-the-WCEBleedGen-dataset.

Published
2024

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

Author

Handa, Palak, Mahbod, Amirreza, Schwarzhans, Florian, Woitek, Ramona, Goel, Nidhi, Chhabra, Deepti, Jha, Shreshtha, Dhir, Manas, Gunjan, Deepak, Kakarla, Jagadeesh, and Raman, Balasubramanian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present the Capsule Vision 2024 Challenge: Multi-Class Abnormality Classification for Video Capsule Endoscopy. It is being virtually organized by the Research Center for Medical Image Analysis and Artificial Intelligence (MIAAI), Department of Medicine, Danube Private University, Krems, Austria and Medical Imaging and Signal Analysis Hub (MISAHUB) in collaboration with the 9th International Conference on Computer Vision & Image Processing (CVIP 2024) being organized by the Indian Institute of Information Technology, Design and Manufacturing (IIITDM) Kancheepuram, Chennai, India. This document describes the overview of the challenge, its registration and rules, submission format, and the description of the utilized datasets., Comment: 6 pages

Published
2024

4. Optimal Defender Strategies for CAGE-2 using Causal Modeling and Tree Search

Author

Hammar, Kim, Dhir, Neil, and Stadler, Rolf

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Cryptography and Security
Abstract

The CAGE-2 challenge is considered a standard benchmark to compare methods for autonomous cyber defense. Current state-of-the-art methods evaluated against this benchmark are based on model-free (offline) reinforcement learning, which does not provide provably optimal defender strategies. We address this limitation and present a formal (causal) model of CAGE-2 together with a method that produces a provably optimal defender strategy, which we call Causal Partially Observable Monte-Carlo Planning (C-POMCP). It has two key properties. First, it incorporates the causal structure of the target system, i.e., the causal relationships among the system variables. This structure allows for a significant reduction of the search space of defender strategies. Second, it is an online method that updates the defender strategy at each time step via tree search. Evaluations against the CAGE-2 benchmark show that C-POMCP achieves state-of-the-art performance with respect to effectiveness and is two orders of magnitude more efficient in computing time than the closest competitor method., Comment: This work has been submitted to the IEEE for possible publication

Published
2024

5. Weak decays of $\pmb{B_c}$ involving vector mesons in self-consistent covariant light-front approach

Author

S., Thejus Mary, Hazra, Avijit, Sharma, Neelesh, and Dhir, Rohit

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

We present a comprehensive analysis of weak transition form factors, semileptonic decays, and nonleptonic decays of $B_c$ meson involving pseudoscalar ($P$) and vector ($V$) meson for bottom-conserving and bottom-changing decay modes. We employ self-consistent covariant light-front quark model (CLFQM), termed as Type-II correspondence, to calculate the $B_c$ to $P(V)$ transition form factors. The Type-II correspondence in the CLF approach gives self-consistent results associated with the $B^{(i)}_j$ functions, which vanish numerically after the replacement $M^{\prime(\prime\prime)} \to M_0^{\prime(\prime\prime)}$ in traditional Type-I correspondence, and the covariance of the matrix elements is also restored. We investigate these effects on bottom-conserving $B_c$ to $P(V)$ form factors that have not yet been studied in CLFQM Type-II correspondence. In addition, we quantify the implications of self-consistency propagating to weak decays involving both bottom-conserving and bottom-changing $B_c$ transition form factors. We use two different parameterizations, the usual three-parameter function of $q^2$ and the model-independent $z$-series expansion, to establish a clear understanding of $q^2$ dependence. Using the numerical values of the form factors, we predict the branching ratios and other physical observables, such as forward-backward asymmetries, polarization fractions, etc., of the semileptonic $B_c$ decays. Subsequently, we predict the branching ratios of two-body nonleptonic weak decays using the factorization hypothesis in self-consistent CLFQM. We also compare our results with those of other theoretical studies., Comment: 65 pages, 11 figures

Published
2024

8. Spatial Heterogeneity in Health Risk Assessment of Heavy Metals During North-East Monsoon and South-West Monsoon over India

Author

Rani, Martina, Ahlawat, Sakshi, Vijayan, N., Yadav, Lokesh, Banerjee, Tirthankar, Chatterjee, Abhijeet, Bhatti, Manpreet Singh, Das, Trupti, Dhir, Amit, Goel, Sangita, Khan, Altaf Husain, Khaiwal, Ravindra, Kuniyal, Jagdish Chandra, Lakhani, Anita, Gupta, Abhishek, Pal, Srimanta, Saikia, Prasenjit, Vyas, B. M., Mor, Suman, and Mandal, Tuhin Kumar

Published
2024
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11. Recent advances in ctDNA detection using electrochemical biosensor for cancer

Author

Sahil Kumar, Renu Poria, Deepak Kala, Rupak Nagraik, Yashika Dhir, Sunny Dhir, Bharat Singh, Naveen Kumar Kaushik, Md Salik Noorani, Deepak Kumar, Shagun Gupta, and Ankur Kaushal

Subjects
Cancer, Circulating tumor DNA, Electrochemical biosensor, Point of care diagnostics, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract In the quest for early cancer diagnosis, early identification and treatment are paramount. Recently, ctDNA detection has emerged as a viable avenue for early screening of cancer. The examination of ctDNA in fluid biopsies has gained substantial attention in tumor diagnosis and therapy. Both the scientific community and industry are actively exploring this field. However, developing cost-effective, portable, and real-time ctDNA measurement methods using conventional gene detection equipment poses a significant challenge. This challenge has led to the exploration of alternative approaches. Electrochemical biosensors, distinguished by their heightened sensitivity, remarkable specificity, affordability, and excellent portability, have emerged as a promising avenue for ctDNA detection. This review is dedicated to the specific focus on ctDNA detection, highlighting recent advancements in this evolving detection technology. We aimed to reference previous studies related to ctDNA-targeted cancer detection using electrochemical biosensors to advocate the utilization of electrochemical biosensors in healthcare diagnostics. Further research is imperative for the effective integration of ctDNA analysis into point-of-care cancer testing. Innovative approaches utilizing multiple markers need to be explored to advance this technology and make substantial contributions to societal well-being.

Published
2024
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12. A second space age spanning omics, platforms and medicine across orbits

Author

Mason, Christopher E., Green, James, Adamopoulos, Konstantinos I., Afshin, Evan E., Baechle, Jordan J., Basner, Mathias, Bailey, Susan M., Bielski, Luca, Borg, Josef, Borg, Joseph, Broddrick, Jared T., Burke, Marissa, Caicedo, Andrés, Castañeda, Verónica, Chatterjee, Subhamoy, Chin, Christopher R., Church, George, Costes, Sylvain V., De Vlaminck, Iwijn, Desai, Rajeev I., Dhir, Raja, Diaz, Juan Esteban, Etlin, Sofia M., Feinstein, Zachary, Furman, David, Garcia-Medina, J. Sebastian, Garrett-Bakelman, Francine, Giacomello, Stefania, Gupta, Anjali, Hassanin, Amira, Houerbi, Nadia, Irby, Iris, Javorsky, Emilia, Jirak, Peter, Jones, Christopher W., Kamal, Khaled Y., Kangas, Brian D., Karouia, Fathi, Kim, JangKeun, Kim, Joo Hyun, Kleinman, Ashley S., Lam, Try, Lawler, John M., Lee, Jessica A., Limoli, Charles L., Lucaci, Alexander, MacKay, Matthew, McDonald, J. Tyson, Melnick, Ari M., Meydan, Cem, Mieczkowski, Jakub, Muratani, Masafumi, Najjar, Deena, Othman, Mariam A., Overbey, Eliah G., Paar, Vera, Park, Jiwoon, Paul, Amber M., Perdyan, Adrian, Proszynski, Jacqueline, Reynolds, Robert J., Ronca, April E., Rubins, Kate, Ryon, Krista A., Sanders, Lauren M., Glowe, Patricia Savi, Shevde, Yash, Schmidt, Michael A., Scott, Ryan T., Shirah, Bader, Sienkiewicz, Karolina, Sierra, Maria A., Siew, Keith, Theriot, Corey A., Tierney, Braden T., Venkateswaran, Kasthuri, Hirschberg, Jeremy Wain, Walsh, Stephen B., Walter, Claire, Winer, Daniel A., Yu, Min, Zea, Luis, Mateus, Jaime, and Beheshti, Afshin

Published
2024
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15. Longitudinal multi-omics analysis of host microbiome architecture and immune responses during short-term spaceflight

Author

Tierney, Braden T., Kim, JangKeun, Overbey, Eliah G., Ryon, Krista A., Foox, Jonathan, Sierra, Maria A., Bhattacharya, Chandrima, Damle, Namita, Najjar, Deena, Park, Jiwoon, Garcia Medina, J. Sebastian, Houerbi, Nadia, Meydan, Cem, Wain Hirschberg, Jeremy, Qiu, Jake, Kleinman, Ashley S., Al-Ghalith, Gabriel A., MacKay, Matthew, Afshin, Evan E., Dhir, Raja, Borg, Joseph, Gatt, Christine, Brereton, Nicholas, Readhead, Benjamin P., Beyaz, Semir, Venkateswaran, Kasthuri J., Wiseman, Kelly, Moreno, Juan, Boddicker, Andrew M., Zhao, Junhua, Lajoie, Bryan R., Scott, Ryan T., Altomare, Andrew, Kruglyak, Semyon, Levy, Shawn, Church, George M., and Mason, Christopher E.

Published
2024
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17. Spectroscopy and Annihilation Decay Widths of Charmonium and Bottomonium Excitations

Author

A., Christas Mony and Dhir, Rohit

Subjects
High Energy Physics - Phenomenology
Abstract

We study the charmonium ($c\bar{c}$) and bottomonium ($b\bar{b}$) spectra, using Cornell potential with additional constant potential term in a non-relativistic framework, with spin-dependent corrections corresponding to the spin-spin, spin-orbit, and tensor interactions added perturbatively. We predict the masses of low-lying and excited states of charmonium and bottomonium up to $n=6$ and $L=2$. We analyze the radial and orbital Regge trajectories of both the systems and investigate their departure from linearity. Further, we estimate the wave function at the origin and, consequently, predict the decay widths of charmonium and bottomonium states annihilating to leptons and photons. Also, we investigate the effect of scale dependence of the wave function at the origin and the strong coupling constant on the predictions of annihilation decay widths. We compare our predictions of heavy quarkonium spectra and decay widths with experimental results and other theoretical models., Comment: 54 pages, 9 figures, 9 tables, Revised version

Published
2023

18. $B_c$ to $A$ Transition Form Factors and Semileptonic Decays in Self-consistent Covariant Light-front Approach

Author

Hazra, Avijit, S., Thejus Mary, Sharma, Neelesh, and Dhir, Rohit

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

We present a comprehensive analysis of the semileptonic weak decays of $B_c$ meson decaying to axial-vector ($A$) mesons for bottom-conserving and bottom-changing decay modes. We employ self-consistent covariant light-front quark model (CLFQM) that uses type-II correspondence to eliminate inconsistencies in the traditional type-I CLFQM. As a fresh attempt, we test the self-consistency in CLFQM through type-II correspondence for $B_c \to A$ meson transition form factors. We establish that in type-II correspondence the form factors for longitudinal and transverse polarization states are numerically equal and are free from zero-mode contributions, which confirms the self-consistency of type-II correspondence for $B_c \to A$ transition form factors. Furthermore, we ascertain that the problems of inconsistency and violation of covariance of CLFQM within the type-I correspondence are resolved in type-II correspondence for $B_c \to A$ transitions. We thoroughly investigate the effects of self-consistency between type-I and type-II schemes using a comparative analysis. We also study the $q^2$ dependence of the form factors in weak hadronic currents for the whole accessible kinematic range $0 \leqslant q^2 \leqslant q^2_{max}$ for both bottom-conserving as well as bottom-changing transitions. In addition, we extend our analysis to predict the branching ratios of the semileptonic weak decays of $B_c$ meson involving axial-vector meson in the final state to quantify the effects of self-consistency in these decays that were not studied before. We evaluate the lepton mass effect on these branching ratios and various other important physical observables, such as forward-backward asymmetries, lepton-side convexity parameter, asymmetry parameter, and longitudinal polarization asymmetries and fractions. Finally, we obtain the lepton flavor universality ratios for various decays., Comment: 68 pages, 16 figures, 8 tables. Revised manuscript

Published
2023

19. Optimal Observation-Intervention Trade-Off in Optimisation Problems with Causal Structure

Author

Hammar, Kim and Dhir, Neil

Subjects
Computer Science - Artificial Intelligence
Abstract

We consider the problem of optimising an expensive-to-evaluate grey-box objective function, within a finite budget, where known side-information exists in the form of the causal structure between the design variables. Standard black-box optimisation ignores the causal structure, often making it inefficient and expensive. The few existing methods that consider the causal structure are myopic and do not fully accommodate the observation-intervention trade-off that emerges when estimating causal effects. In this paper, we show that the observation-intervention trade-off can be formulated as a non-myopic optimal stopping problem which permits an efficient solution. We give theoretical results detailing the structure of the optimal stopping times and demonstrate the generality of our approach by showing that it can be integrated with existing causal Bayesian optimisation algorithms. Experimental results show that our formulation can enhance existing algorithms on real and synthetic benchmarks.

Published
2023

25. To study and compare effect of isoflurane and sevoflurane on adult patients postoperatively under general anesthesia by measure liver function test

Author

Vinita Rawat, Gourab Bhaduri, Shreya Dhir, and Sahil Yadav

Subjects
isoflurane, sevoflurane, postoperatively, general anesthesia, liver function test, Medicine
Abstract

Background: Effect of inhalational agents, namely, isoflurane and sevoflurane on patients having renal parameters has been explored quite often but the effect on liver function test has been rarely reviewed till date. Aims and Objectives: The aim of the study was to study the pre-operative liver function of patients who underwent general anesthesia by measuring their liver function test, post-operative effects of isoflurane, sevoflurane, and comparison. Materials and Methods: A total of 90 patients aged between 18 and 60 years who were further divided into two groups, that is, Group 1: (Isoflurane, n=45) and Group 2: (Sevoflurane, n=45) were included in the study. Results: The study comprised 51.1% of males and 48.9% of females, with similar distribution in either group (P>0.05). Comparison of various pre-operative parameters at 24, 48, and 72 h in isoflurane cases showed that bilirubin, serum glutamic oxaloacetic transaminase (SGOT), serum glutamic-pyruvic transaminase (SGPT), protein, albumin, globulin were found to be statistically significant but urea, creatinine, prothrombin time, and international normalized ratio were insignificant (P>0.05, NS). Comparison of pre-operative hemoglobin with that at 24, 48, and 72 h in isoflurane cases showed that mean isoflurane was 12.69±1.77 which was found to be nil within 24 h, 48 h, and 72 h. Comparison of various parameters at 24, 48, and 72 h in sevoflurane cases showed that pre-operative mean sevoflurane was 0.49±0.18 which was found to increase within 72 h, that is, 0.60±0.18. Similarly, SGOT was found increased from pre-operative 27.58±8.09 to 29.32±7.32, SGPT 23.29±7.02 to 26.22±6.81. Conclusion: Inhalation agent isoflurane and sevoflurane cause significant changes in patient’s liver function test, postoperatively under general anesthesia as indicated by various liver function parameters.

Published
2024
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26. $$\varvec{B_c}$$ B c to A transition form factors and semileptonic decays in self-consistent covariant light-front approach

Author

Avijit Hazra, S. Thejus Mary, Neelesh Sharma, and Rohit Dhir

Subjects
Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract We present a comprehensive analysis of the semileptonic weak decays of $$B_c$$ B c meson decaying to axial-vector (A) mesons for bottom-conserving and bottom-changing decay modes. We employ self-consistent covariant light-front quark model (CLF QM) that uses type-II correspondence to eliminate inconsistencies in the traditional type-I CLF QM. As a fresh attempt, we test the self-consistency in CLF QM through type-II correspondence for $$B_c \rightarrow A$$ B c → A meson transition form factors. We establish that in type-II correspondence the form factors for longitudinal and transverse polarization states are numerically equal and are free from zero-mode contributions, which confirms the self-consistency of type-II correspondence for $$B_c \rightarrow A$$ B c → A transition form factors. Furthermore, we ascertain that the problems of inconsistency and violation of covariance of CLF QM within the type-I correspondence are resolved in type-II correspondence for $$B_c \rightarrow A$$ B c → A transitions. We thoroughly investigate the effects of self-consistency between type-I and type-II schemes using a comparative analysis. In this investigation, we employ a direct calculation approach to determine the form factors within the space-like region. Subsequently, we employ a vector meson dominance (VMD)-inspired three-parameter form to extrapolate these form factors into the physically accessible region. This enables us to study the $$q^2$$ q 2 dependence of the form factors in weak hadronic currents for the whole accessible kinematic range for both bottom-conserving as well as bottom-changing transitions. In addition, we extend our analysis to predict the branching ratios of the semileptonic weak decays of $$B_c$$ B c meson involving axial-vector meson in the final state to quantify the effects of self-consistency in these decays that were not studied before. We evaluate the lepton mass effect on these branching ratios and various other important physical observables, such as forward-backward asymmetries, lepton-side convexity parameter, asymmetry parameter, and longitudinal polarization asymmetries and fractions. Finally, we obtain the lepton flavor universality ratios for various decays.

Published
2024
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27. Sustaining the mobile medical units to bring equity in healthcare: a PLS-SEM approach

Author

Jignesh Patel, Sangita More, Pravin Sohani, Shrinath Bedarkar, Kamala Kannan Dinesh, Deepika Sharma, Sanjay Dhir, Sushil Sushil, Gunjan Taneja, and Raj Shankar Ghosh

Subjects
Equity, Health care, Immunization, Mobile medical units, PLS-SEM, Sustainability, Public aspects of medicine, RA1-1270
Abstract

Abstract Background Equitable access to healthcare for rural, tribal, and underprivileged people has been an emerging area of interest for researchers, academicians, and policymakers worldwide. Improving equitable access to healthcare requires innovative interventions. This calls for clarifying which operational model of a service innovation needs to be strengthened to achieve transformative change and bring sustainability to public health interventions. The current study aimed to identify the components of an operational model of mobile medical units (MMUs) as an innovative intervention to provide equitable access to healthcare. Methods The study empirically examined the impact of scalability, affordability, replicability (SAR), and immunization performance on the sustainability of MMUs to develop a framework for primary healthcare in the future. Data were collected via a survey answered by 207 healthcare professionals from six states in India. Partial least squares structural equation modeling (PLS-SEM) was conducted to empirically determine the interrelationships among various constructs. Results The standardized path coefficients revealed that three factors (SAR) significantly influenced immunization performance as independent variables. Comparing the three hypothesized relationships demonstrates that replicability has the most substantial impact, followed by scalability and affordability. Immunization performance was found to have a significant direct effect on sustainability. For evaluating sustainability, MMUs constitute an essential component and an enabler of a sustainable healthcare system and universal health coverage. Conclusion This study equips policymakers and public health professionals with the critical components of the MMU operational model leading toward sustainability. The research framework provides reliable grounds for examining the impact of scalability, affordability, and replicability on immunization coverage as the primary public healthcare outcome.

Published
2024
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28. Improved simultaneous mapping of epigenetic features and 3D chromatin structure via ViCAR

Author

Sean M. Flynn, Somdutta Dhir, Krzysztof Herka, Colm Doyle, Larry Melidis, Angela Simeone, Winnie W. I. Hui, Rafael de Cesaris Araujo Tavares, Stefan Schoenfelder, David Tannahill, and Shankar Balasubramanian

Subjects
3D genome structure, Hi-C, Histone marks, G-quadruplex DNA, Biology (General), QH301-705.5, Genetics, QH426-470
Abstract

Abstract Methods to measure chromatin contacts at genomic regions bound by histone modifications or proteins are important tools to investigate chromatin organization. However, such methods do not capture the possible involvement of other epigenomic features such as G-quadruplex DNA secondary structures (G4s). To bridge this gap, we introduce ViCAR (viewpoint HiCAR), for the direct antibody-based capture of chromatin interactions at folded G4s. Through ViCAR, we showcase the first G4-3D interaction landscape. Using histone marks, we also demonstrate how ViCAR improves on earlier approaches yielding increased signal-to-noise. ViCAR is a practical and powerful tool to explore epigenetic marks and 3D genome interactomes.

Published
2024
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29. A Moderated-Mediation Model of Training Transfer from Leadership Intervention

Author

Yasmin Yaqub, Tanusree Dutta, and Swati Dhir

Abstract

Purpose: Grounding on the goal-setting theory and flow theory, this study explored the mechanism underlying the association between transfer design (TD); identical elements and training transfer (TT). Specifically, the authors explored a moderated mediation process of trainer performance and motivation to improve work through learning (MTIWL) that has received less consideration in the TT literature. Design/methodology/approach: Data were collected using the retro-perspective survey method. The first survey was administered offline (t1: the day when leadership intervention was completed. Subsequently, trainees were requested to participate in an online survey (t2: 12-14 weeks later). In all, 355 executives participated. Findings: The results of structural equation modeling (SEM) analyses suggested that trainees' MTIWL mediational impact between leadership intervention triggers (transfer design and identical elements), and TT was supported. In addition, the indirect impact of these variables on TT was found to be significant when the trainer had high performance than when it was low. This confirmed the trainer's performance as a potential moderator in the TT process. Practical implications: This study is limited to the exploration of leadership intervention variables on TT. The findings have implications for leadership professionals and scholars who use leadership intervention and motivation metrics to predict TT. Originality/value: This study offers a moderated mediation mechanism for enhancing TT through leadership intervention triggers. The proposed conceptual model included MTIWL as mediator and trainer performance during leadership intervention as moderator.

Published
2024
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30. MANER: Multi-Agent Neural Rearrangement Planning of Objects in Cluttered Environments

Author

Gupta, Vivek, Dhir, Praphpreet, Dani, Jeegn, and Qureshi, Ahmed H.

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

Object rearrangement is a fundamental problem in robotics with various practical applications ranging from managing warehouses to cleaning and organizing home kitchens. While existing research has primarily focused on single-agent solutions, real-world scenarios often require multiple robots to work together on rearrangement tasks. This paper proposes a comprehensive learning-based framework for multi-agent object rearrangement planning, addressing the challenges of task sequencing and path planning in complex environments. The proposed method iteratively selects objects, determines their relocation regions, and pairs them with available robots under kinematic feasibility and task reachability for execution to achieve the target arrangement. Our experiments on a diverse range of simulated and real-world environments demonstrate the effectiveness and robustness of the proposed framework. Furthermore, results indicate improved performance in terms of traversal time and success rate compared to baseline approaches., Comment: The videos and supplementary material are available at https://sites.google.com/view/maner-supplementary

Published
2023
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31. Bivariate Causal Discovery using Bayesian Model Selection

Author

Dhir, Anish, Power, Samuel, and van der Wilk, Mark

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Much of the causal discovery literature prioritises guaranteeing the identifiability of causal direction in statistical models. For structures within a Markov equivalence class, this requires strong assumptions which may not hold in real-world datasets, ultimately limiting the usability of these methods. Building on previous attempts, we show how to incorporate causal assumptions within the Bayesian framework. Identifying causal direction then becomes a Bayesian model selection problem. This enables us to construct models with realistic assumptions, and consequently allows for the differentiation between Markov equivalent causal structures. We analyse why Bayesian model selection works in situations where methods based on maximum likelihood fail. To demonstrate our approach, we construct a Bayesian non-parametric model that can flexibly model the joint distribution. We then outperform previous methods on a wide range of benchmark datasets with varying data generating assumptions.

Published
2023

44. Continual Learning for End-to-End ASR by Averaging Domain Experts

Author

Plantinga, Peter, Yoo, Jaekwon, and Dhir, Chandra

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

Continual learning for end-to-end automatic speech recognition has to contend with a number of difficulties. Fine-tuning strategies tend to lose performance on data already seen, a process known as catastrophic forgetting. On the other hand, strategies that freeze parameters and append tunable parameters must maintain multiple models. We suggest a strategy that maintains only a single model for inference and avoids catastrophic forgetting. Our experiments show that a simple linear interpolation of several models' parameters, each fine-tuned from the same generalist model, results in a single model that performs well on all tested data. For our experiments we selected two open-source end-to-end speech recognition models pre-trained on large datasets and fine-tuned them on 3 separate datasets: SGPISpeech, CORAAL, and DiPCo. The proposed average of domain experts model performs well on all tested data, and has almost no loss in performance on data from the domain of original training., Comment: Submitted to INTERSPEECH 2023

Published
2023

45. A Cross-Sectional Study of Labor Analgesia Practices Across India

Author

Kajal Jain, Nidhi Bhatia, Ketan Parikh, Karan Singla, Ankita Dhir, Sunanda Gupta, Anju Grewal, and Anjan Trikha

Subjects
labor analgesia, safe practices, survey, Anesthesiology, RD78.3-87.3, Gynecology and obstetrics, RG1-991
Abstract

Introduction: Labour analgesia practices have evolved significantly over the past years, with most of the current practices being evidence-based. Labour analgesia is considered a standard of care in resource-rich countries. However, in resource-limited countries such as India, there is a lack of awareness, and round the clock availability of labour analgesia services across the country. This raises significant challenges in establishing successful labour analgesia programs. Methods: This survey was conducted using multi-question Google Form@, so as to improve our understanding of labour analgesia practices in India. Our primary objective was to study the prevalence of labour analgesia practices amongst anaesthesiologists across India. Our secondary objectives included the work profile of anaesthesiologists providing labour analgesia, common techniques of labour analgesia practised, drugs used and common complications as well as side-effects encountered. Results: The results of our survey showed that 72.9% of the respondents practised labour analgesia in one form or the other. Practitioners in non-government facilities such as private hospitals, private medical colleges, and nursing homes accounted for more than 60% of the total labour analgesia delivered. Government medical colleges fared the best among practitioners at government-owned facilities. Approximately 85% of those polled agreed that the most common way of pain relief in a labouring patient was regional analgesia. The most prevalent was labour epidural (59.4%), followed by a single shot spinal analgesic, while 29% of anaesthesiologists used systemic analgesia. Conclusion: The impediments to delivering widespread labour analgesia services across India were poor infrastructure and high costs.

Published
2024
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46. Characterisation and modelling of potassium-ion batteries

Author

Shobhan Dhir, John Cattermull, Ben Jagger, Maximilian Schart, Lorenz F. Olbrich, Yifan Chen, Junyi Zhao, Krishnakanth Sada, Andrew Goodwin, and Mauro Pasta

Subjects
Science
Abstract

Abstract Potassium-ion batteries (KIBs) are emerging as a promising alternative technology to lithium-ion batteries (LIBs) due to their significantly reduced dependency on critical minerals. KIBs may also present an opportunity for superior fast-charging compared to LIBs, with significantly faster K-ion electrolyte transport properties already demonstrated. In the absence of a viable K-ion electrolyte, a full-cell KIB rate model in commercial cell formats is required to determine the fast-charging potential for KIBs. However, a thorough and accurate characterisation of the critical electrode material properties determining rate performance—the solid state diffusivity and exchange current density—has not yet been conducted for the leading KIB electrode materials. Here, we accurately characterise the effective solid state diffusivities and exchange current densities of the graphite negative electrode and potassium manganese hexacyanoferrate $${{{{\rm{K}}}}}_{2}{{{\rm{Mn}}}}[{{{\rm{Fe}}}}{({{{\rm{CN}}}})}_{6}]$$ K 2 Mn [ Fe ( CN ) 6 ] (KMF) positive electrode, through a combination of optimised material design and state-of-the-art analysis. Finally, we present a Doyle-Fuller-Newman model of a KIB full cell with realistic geometry and loadings, identifying the critical materials properties that limit their rate capability.

Published
2024
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47. The role of community mobilization in people’s healthcare-seeking behavior during the COVID-19 vaccination journey: select case studies from Madhya Pradesh

Author

Priyanka Das, Santosh Shukla, Vipin Shrivastav, Saurabh Purohit, Deepika Sharma, Sanjay Dhir, Sushil, Harkabir Singh Jandu, Meenal Kukreja, Mehak Bhatia, Nitin Kothari, Saurabh Sharma, Shyamashree Das, Gunjan Taneja, and Raj Shankar Ghosh

Subjects
History of scholarship and learning. The humanities, AZ20-999, Social Sciences
Abstract

Abstract The purpose of this study is to understand the impact of community mobilization initiatives on citizens’ health-seeking behavior through the lens of COVID-19 vaccination in the state of Madhya Pradesh, India. This study follows a case study approach to understand community mobilization initiatives that led to increased COVID-19 vaccination uptake. The study delineates the process to increase community mobilization to improve the uptake of COVID-19 vaccination. It highlights the key components of community mobilization that were adopted: the involvement of local leadership (at district, block, and village level), support of vaccination/mobilizer team, the role of in-person communication, involvement of influential community heads and social workers, localized strategies and IEC materials, and support from the state administration. Additionally, the key communication themes that played a crucial role in increasing COVID-19 vaccination coverage are identified. The findings of this study will help the policymakers and practitioners in the domains of Health and Medical Humanities, Health Policy and Services, and Social Sciences to clarify the roles of community mobilization activities and initiatives in increasing vaccination coverage. Furthermore, the study provides evidence for the adaptation, integration, and enhancement of these activities based on the four case studies discussed.

Published
2024
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50. An explicit sub-Weyl bound for $\zeta(1/2 + it)$

Author

Patel, Dhir and Yang, Andrew

Subjects
Mathematics - Number Theory, 11L07, 11M06
Abstract

In this article we prove an explicit sub-Weyl bound for the Riemann zeta function $\zeta(s)$ on the critical line $s = 1/2 + it$. In particular, we show that $|\zeta(1/2 + it)| \le 66.7\, t^{27/164}$ for $t \ge 3$. Combined, our results form the sharpest known bounds on $\zeta(1/2 + it)$ for $t \ge \exp(61)$., Comment: 30 pages

Published
2023

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