Riddhi Mohan BoraIndian Institute of Technology Delhi | IIT Delhi · Department of Electrical Engineering
Riddhi Mohan Bora
Contraction Theory || K-Contraction || Stability Analysis || Networked System Applications || Nonlinear System Dynamics
About
14
Publications
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Introduction
1) Stability analysis of nonlinear dynamical systems with multiple equilibria in the higher-order contraction framework.
2) Application of Higher-order contraction (k-contraction).
3) Same and Reduced Order Synchronization of Chaotic and Hyperchaotic Systems.
4) R&D work in Vehicle level design of electrical systems in construction equipment.
5) Networked systems stability analysis.
Additional affiliations
May 2013 - May 2017
June 2020 - June 2022
Publications
Publications (14)
Over the last few decades, there has been a growing interest in chaotic systems and their behavior across research communities. Chaotic systems are dependent on initial conditions, meaning that even small variations can lead to vastly different outcomes, making precise prediction difficult. Synchronizing chaotic systems has become an important chal...
This work offers a systematic technique to achieve ROS (Reduced Order Synchronization) between two different order general classes of chaotic systems in a master-slave configuration. In this study, the dynamics of the master and slave systems are assumed to follow a special class of strict-feedback form, namely the Generalized Triangular Feedback f...
This proof is a supplementary part of the research article "Investigation on Synchronization of Two Identical Class of Chaotic Systems Using Back-stepping Control Technique in the Presence of Time Delays" which has been accepted in the IEEE CODIT,2023 International Conference already and published online now on IEEE Xplore. Follow the article @ htt...
Chemotherapy as a cancer treatment has garnered much scientific interest in recent years. Chemotherapy is essential for the elimination of cancer cells to the greatest extent possible. Clinical studies demonstrate a predictable trajectory of tumor volume after chemotherapy. However, the standard dose regimens often utilized in chemotherapy have sub...
Since, the last several decades, there has been a growing interest in chaotic systems and their behavior within all research communities. The dependence on initial conditions is the most prevalent and important characteristic of chaotic systems. A little variation or minuscule alteration of the initial conditions might result in very different and...
In this paper, we have addressed a ROS (Reduced Order Synchronization) problem of two general classes of chaotic or hyperchaotic systems in master (drive) and slave (response) configuration. The master and the slave systems are considered to follow a very specific form of structure; so-called the strict-feedback form. Being a ROS problem, the order...
In this paper, we tried to achieve synchronization between two chaotic systems of different order in a master-slave configuration. We mainly focused on the reduced-order synchronization case. Achieving synchronization of two non-identical non-linear systems is often a very challenging problem. This paper proposes an adaptive law while utilizing to...
In this paper, we tried to achieve synchronization between two chaotic systems of different order in master-slave configuration. We mainly focused on reduced order synchronization case. Achieving synchronization of two non-identical non-linear systems is often a very challenging problem. This paper proposes an adaptive law while utilizing to attain...
In this article, a nonlinear active control technique is proposed so as to attain the synchronization of two different chaotic systems. Master and slave configuration is incorporated for the analysis. The main objective is to design a Reduced Order Synchronization (ROS) scheme, where the order of the master system is greater than that of the slave...
In this article, a nonlinear active control technique is proposed so as to attain the synchronization of two different chaotic systems. Master and slave configuration is incorporated for the analysis. The main objective is to design a Reduced Order Synchronization (ROS) scheme, where the order of the master system is greater than that of the slave...
Sometimes it is impossible to complete a given task by a single person or it becomes quite difficult for that person to complete the work. In such cases, there is a need for a team or group of members who can collaboratively work and make the work of the person very much simple.
Swarm intelligence (SI) is the study of collective behavior in a dece...