Your search keyword '"Jha, Shivam"' showing total 4 results

1. Evolution of Perturbation in Quiescent Medium

Author

Sengupta, Tapan K., Jha, Shivam K., Sengupta, Aditi, Joshi, Bhavna, and Sundaram, Prasannabalaji

Subjects

Physics - Fluid Dynamics, Mathematical Physics

Abstract

Here, the perturbation equation for a dissipative medium is derived from the first principle from the linearized compressible Navier-Stokes equation without Stokes's hypothesis. The dispersion relations of this generic governing equation are obtained for one and three-dimensional perturbations, which exhibit both the dispersive and dissipative nature of the perturbations traveling in a dissipative medium, depending upon the length scale. We specifically provide a theoretical cut-off wave number above which the perturbation equation represents diffusive and dissipative nature. Such behavior has not been reported before, as per the knowledge of the authors., Comment: 12 page 1 figure. arXiv admin note: substantial text overlap with arXiv:2212.13795

Published

2023

2. MASCARA: Systematically Generating Memorable And Secure Passphrases

Author

Mukherjee, Avirup, Murali, Kousshik, Jha, Shivam Kumar, Ganguly, Niloy, Chatterjee, Rahul, and Mondal, Mainack

Subjects

Computer Science - Cryptography and Security, Computer Science - Human-Computer Interaction

Abstract

Passwords are the most common mechanism for authenticating users online. However, studies have shown that users find it difficult to create and manage secure passwords. To that end, passphrases are often recommended as a usable alternative to passwords, which would potentially be easy to remember and hard to guess. However, as we show, user-chosen passphrases fall short of being secure, while state-of-the-art machine-generated passphrases are difficult to remember. In this work, we aim to tackle the drawbacks of the systems that generate passphrases for practical use. In particular, we address the problem of generating secure and memorable passphrases and compare them against user chosen passphrases in use. We identify and characterize 72, 999 user-chosen in-use unique English passphrases from prior leaked password databases. Then we leverage this understanding to create a novel framework for measuring memorability and guessability of passphrases. Utilizing our framework, we design MASCARA, which follows a constrained Markov generation process to create passphrases that optimize for both memorability and guessability. Our evaluation of passphrases shows that MASCARA-generated passphrases are harder to guess than in-use user-generated passphrases, while being easier to remember compared to state-of-the-art machine-generated passphrases. We conduct a two-part user study with crowdsourcing platform Prolific to demonstrate that users have highest memory-recall (and lowest error rate) while using MASCARA passphrases. Moreover, for passphrases of length desired by the users, the recall rate is 60-100% higher for MASCARA-generated passphrases compared to current system-generated ones., Comment: This paper appeared on ACM ASIACCS '23 conference. The pdf includes Github repository with all data and code

Published

2023

3. egr3 is a mechanosensitive transcription factor gene required for cardiac valve morphogenesis

Author

da Silva, Agatha Ribeiro, primary, Gunawan, Felix, additional, Boezio, Giulia L. M., additional, Faure, Emilie, additional, Théron, Alexis, additional, Avierinos, Jean-François, additional, Lim, SoEun, additional, Jha, Shivam Govind, additional, Ramadass, Radhan, additional, Guenther, Stefan, additional, Looso, Mario, additional, Zaffran, Stéphane, additional, Juan, Thomas, additional, and Stainier, Didier Y. R., additional

Published

2024

4. egr3 is a mechanosensitive transcription factor gene required for cardiac valve morphogenesis.

Author

Ribeiro da Silva, Agatha, Gunawan, Felix, Boezio, Giulia L. M., Faure, Emilie, Théron, Alexis, Avierinos, Jean-François, Lim, SoEun, Jha, Shivam Govind, Ramadass, Radhan, Guenther, Stefan, Looso, Mario, Zaffran, Stéphane, Juan, Thomas, and Stainier, Didier Y. R.

Subjects

*HEART valves, *TRANSCRIPTION factors, *AORTIC valve, *MORPHOGENESIS, *ENDOTHELIAL cells, *ION channels, *NUCLEAR receptors (Biochemistry)

Abstract

Biomechanical forces, and their molecular transducers, including key mechanosensitive transcription factor genes, such as KLF2, are required for cardiac valve morphogenesis. However, klf2 mutants fail to completely recapitulate the valveless phenotype observed under no-flow conditions. Here, we identify the transcription factor EGR3 as a conserved biomechanical force transducer critical for cardiac valve formation. We first show that egr3 null zebrafish display a complete and highly penetrant loss of valve leaflets, leading to severe blood regurgitation. Using tissuespecific loss- and gain-of-function tools, we find that during cardiac valve formation, Egr3 functions cell-autonomously in endothelial cells, and identify one of its effectors, the nuclear receptor Nr4a2b. We further find that mechanical forces up-regulate egr3/EGR3 expression in the developing zebrafish heart and in porcine valvular endothelial cells, as well as during human aortic valve remodeling. Altogether, these findings reveal that EGR3 is necessary to transduce the biomechanical cues required for zebrafish cardiac valve morphogenesis, and potentially for pathological aortic valve remodeling in humans. [ABSTRACT FROM AUTHOR]

Published

2024