1,748,524 research outputs found
Physics Colloquium 2014 - Dr. Rohit Deshpande
Dr. Rohit Deshpande talks to students about what a planet is and two different ways to find planets and stars, as well as finding habitable planets.Angelo State Universit
Rohit-Satyam/RNAgrinder: v1.0.0
<p>This is the first stable release of RNAgrinder</p>
ANALYSIS OF RLC CIRCUITS WITH EXPONENTIAL EXCITATION SOURCES BY A NEW INTEGRAL TRANSFORM: ROHIT TRANSFORM
In science and engineering, the analysis of RLC network circuits is a principal course and is generally done by applying calculus or Laplace Transform. In this paper, we will analyze RLC network circuits with exponential excitation sources by applying a new integral transform: Rohit Transform and obtained their responses in the form of current or voltage. This paper presents the use of the Rohit Transform and proves its applicability for analyzing the RLC network circuits with exponential excitation sources and concludes that Rohit Transform like other transforms or approaches is also an effective and simple tool
Solving General Differential Equations of Fractional Orders Via Rohit Transform
inspecting the attributes of derivatives and integrals of fractional orders known as fractional derivatives and integrals. In this article, a far-out complex integral transform known as the Rohit transform (RT) is put into use for working out general homogeneous and non-homogeneous differential equations of fractional or non-integral orders of particular forms entailing the Caputo fractional derivative operator and the Riemann-Liouville fractional derivative operator. The Rohit transform (RT) of the Mittag-Leffler function, the Caputo fractional derivative operator. and the Riemann-Liouville fractional derivative operator are obtained, and then the solutions of fractional systems characterized by fractional homogeneous and fractional non-homogeneous differential equations entailing the Caputo fractional derivative operator and the Riemann-Liouville fractional derivative operator are obtained by utilizing the Rohit transform (RT). This article showcases the ability and efficacy of the Rohit transform (RT) to straighten out fractional systems characterized by fractional homogeneous and fractional non-homogeneous differential equations. While other methods, present in the literature such as the homotopy-perturbation method, Adomian decomposition method, fractional variational iteration method, Lyapunov direct method, and generalized Mittag Leffler stability, may also be capable of solving the examples presented in the paper, the Rohit transform introduced innovative concepts or methodologies that offer new insights or perspectives on the problems examined in the paper, distinguishing itself from existing transforms and potentially opening up new research directions. The simplicity and ease of implementation of the Rohit transform make it a preferable choice for practical applications, requiring fewer computational steps, less complex algorithms, and simpler parameter tuning
Securing data transmission by cryptography using Rohit integral transform
The encryption and decryption processes to secure data transmission and protection in cryptography are very useful in a communication system for authentication and privacy. Recently, integral transform techniques have been used by many researchers to increase the strength of encryption and decryption processes in cryptography. In this paper, the ability of Rohit integral transform (RIT) is shown for the encryption and decryption processes in cryptography and in general, in the field of data security through practical application.</p
Analysing a central implementation of an electronic lab notebook (eLabFTW) at the University of Innsbruck
author: Rohit KarthikeyanMasterarbeit University of Innsbruck 202
Analysing a central implementation of an electronic lab notebook (eLabFTW) at the University of Innsbruck
author: Rohit KarthikeyanMasterarbeit University of Innsbruck 202
Utilizing photoswitchable lipids to photoregulate facilitated ion transport across membranes
Author Rohit YadavDissertation Johannes Kepler Universität Linz 2025Arbeit gesperr
Utilizing photoswitchable lipids to photoregulate facilitated ion transport across membranes
Author Rohit YadavDissertation Johannes Kepler Universität Linz 2025Arbeit gesperr
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