Your search keyword '"Chettiyar Vani Vivekanand"' showing total 3 results

1. Performance evaluation of pair selection algorithms in device-to-device communication using relay-assisted techniques

Author

Abdullahi Adan Omar, Kannan Pauliah Nadar, Chettiyar Vani Vivekanand, E. Anna Devi, A. Jasmine Xavier, T. M. Inbamalar, L. Magthelin Therase, J. Vanitha, C. Andrews Sonia, and J. Binisha Rose

Subjects

Bit error rate, Signal to noise ratio, Spectral efficiency, Energy efficiency, Throughput, Telecommunication, TK5101-6720, Electronics, TK7800-8360

Abstract

Abstract Communication services that are dependable are crucial, particularly during emergencies when the regular infrastructure for communication may be disrupted or nonexistent. In such situations, device-to-device (D2D) communication can be a helpful choice since it allows user equipment (UE) that is close to one another to connect directly, bypassing the cellular network infrastructure. The primary focus of this thesis is the application of D2D communication in a decentralized emergency scenario with a damaged eNodeB. The main objective is to find an appropriate strategy for finding and selecting D2D couples by simulating several methods in MATLAB. This study compares three D2D pair selection algorithms: distance-based, Signal-to-Interference and Noise Ratio (SINR)-based, and data rate-based distance-based. The simulation results show that the data rate-based strategy is the most effective method for selecting D2D couples in emergency scenarios. In contrast to algorithms that rely on distance and SINR, this one reduces the chance of an outage by 20%. Bit error rate (BER), capacity, spectral efficiency, and energy efficiency are the three types of links that are assessed: direct links, relay links, and UE relay links. The results show that, with the lowest BER and maximum data throughput, the direct link is the most reliable and efficient communication option. However, the relay connection and the UE relay link show better overall spectral efficiency in comparison to the direct link, indicating their ability to transport more data per unit of bandwidth. The option that consumes the least energy among the three is the direct link. The study demonstrates the great potential of D2D communication in emergency scenarios where conventional communication infrastructure may not be available. The direct link is the most dependable and effective alternative for communication, according to the data, although the UE link can still function effectively in the event that the direct link is compromised. The data rate-based method is a useful strategy for finding and choosing D2D partners. The results of this study can direct the development of D2D emergency communication solutions in 5G networks.

Published

2024

2. Design and Analysis of Microstrip Patch Antenna Array and Electronic Beam Steering Linear Phased Antenna Array with High Directivity for Space Applications

Author

Kannan Pauliah Nadar, Vanitha Jeyaprakasam, Inbamalar Tharcis Mariapushpam, Chettiyar Vani Vivekanand, Anna Devi Eswaralingam, Magthelin Therase Louis, Jasmine Xavier Arul Raj, Hassen Ahmed Jibril, Andrews Sonia Chellappa, Rajesh Kannan Muthukutty, and Saravanaram Gopalakrishnan

Subjects

Chemistry, QD1-999

Published

2023

3. Comparative Performance Study of Difference Differential Amplifier Using 7 nm and 14 nm FinFET Technologies and Carbon Nanotube FET

Author

Anand Kumar, M. Janakirani, M. Anand, Sudeep Sharma, Chettiyar Vani Vivekanand, and Ankit Chakravarti

Subjects

Article Subject, General Materials Science

Abstract

Difference differential amplifiers (DDA), which were built on FinFET and carbon nanotube FET (CNTFET), are frequently used for signal processing owing to their advantages of low-power dissipation and reduced device dimension. In this work, high-performance DDA was established using CNTFET model parameters as well as FinFET 7 nm and 14 nm technology. The DDA circuit used in this scenario was identically the same to the one used previously. With the use of Verilog AMS code-based Stanford model parameters applied CNTFET and 7 nm and 14 nm FinFETs, schematic capture and simulations of the DDA were carried out in the Symica environment. The mostly used measurements for assessing the performance of operational amplifiers were also adopted for DDA. The CNTFET-based difference differential amplifiers have slew rates of 10.8 V/femtosecond and 11.2 mV/femtosecond, respectively, with settling times of 0.65 femtosecond and 0.43 femtosecond, respectively. The power supply rejection ratio (PSRR) is 2.53 dB with a dynamic range of 198 mV and 6 mV for CNTFET DDA operating at 0.6 V DC. The incentives of CNTFET appropriateness for DDA designed in this study for any analogue front end were further demonstrated by using CNTFET for DDA with the achievement of open loop differential gain of 116.03 dB with BW of 4 GHz and phase margin of 270 and common mode gain of -28.65 dB with BW of 55.14 MHz and phase margin of 270.

Published

2022