RF and Microwave Engineering Projects for Final Year

A Tri-band Elliptical Patch Antenna is a compact antenna design optimized for GPS and IRNSS (Indian Regional Navigation Satellite System) applications: It operates across three frequency bands, ensuring reliable satellite signal reception and accurate positioning for navigation purposes, making it suitable for both global and regional satellite navigation systems. Get help

A Metamaterial-based miniaturized DGS (Defected Ground Structure) antenna is a cutting-edge wireless communication solution: It utilizes metamaterials to shrink antenna size while maintaining excellent performance, making it ideal for compact wireless devices like smartphones and IoT devices, offering enhanced signal quality and range. Get help

Design of FSS based radome wall for airborne radar application

The design of an FSS (Frequency Selective Surface) based radome wall for airborne radar application: ensures radar transparency while protecting the equipment from external elements, offering reliable and efficient radar performance for aircraft in various weather conditions. Get help

A T-shaped tri-band antenna, designed using characteristic mode analysis, is tailored for satellite applications: It provides optimal performance across three distinct frequency bands, ensuring reliable communication and connectivity in satellite-based systems and missions. Get help

The design of an octagonal FSS (Frequency Selective Surface) based radome wall for broadband airborne applications: offers wide-frequency coverage while ensuring radar transparency, making it ideal for versatile and high-performance radar systems in aviation. Get help

The design of a novel multi-band antenna for satellite applications: caters to diverse frequency bands, enabling efficient and versatile communication and data transmission capabilities for satellite systems, enhancing connectivity and performance. Get help

Detection and Classification of Power Quality Disturbances Using Discrete Wavelet Transform and Rule Based Decision Tree

Detection and classification of power quality disturbances using Discrete Wavelet Transform and a rule-based decision tree: is an advanced technique that accurately identifies and categorizes electrical grid anomalies, aiding in the maintenance and stability of power distribution systems. Get help

The design of a dual-band 2×2 MIMO antenna system for 5G wireless terminals: offers enhanced data throughput and connectivity, enabling faster and more reliable wireless communication in next-generation mobile devices. Get help

The design of a compact tri-band stacked patch antenna for GPS and IRNSS applications: provides precise and reliable satellite navigation across multiple frequency bands, ensuring accurate positioning for both global and regional satellite systems in a small form factor. Get help

The design of a dual-band millimeter-wave antenna using SIW (Substrate Integrated Waveguide) material is optimized for 5G cellular networks: offering efficient and high-frequency connectivity for next-generation wireless communication systems. Get help

Design of circular polarized patch antenna for NaviC receiver applications

The design of a circular-polarized patch antenna for NaviC receiver applications: ensures precise and reliable reception of signals from the Indian Regional Navigation Satellite System (NaviC), enhancing navigation accuracy and performance in a variety of applications. Get help

A frequency reconfigurable quad-band patch antenna using FR-4 material: is a versatile solution for radar and satellite applications, allowing seamless operation across multiple frequency bands to support various communication and sensing tasks with cost-effective and readily available material. Get help

The design of a circularly polarized IRNSS (Indian Regional Navigation Satellite System) receiver antenna using characteristic mode analysis: ensures optimized signal reception and precise navigation for regional satellite-based applications, delivering accuracy and reliability. Get help

Design of five-band microstrip antenna for radar and satellite communications

The design of a five-band microstrip antenna caters to radar and satellite communications: offering versatile and efficient frequency coverage for a wide range of applications, ensuring robust and adaptable wireless connectivity. Get help

A tri-band microstrip patch antenna is engineered for C, X, and Ku band applications: providing versatile and high-performance communication capabilities across three distinct frequency ranges, catering to a variety of satellite and radar systems. Get help

A quad-band frequency reconfigurable antenna with shorted stubs is a versatile solution for microwave applications: offering seamless operation across four distinct frequency bands through adjustable stubs, enhancing its adaptability and utility in various communication and sensing scenarios. Get help

A Quad Band Frequency Reconfigurable Monopole Antenna with Shorted Stubs for Microwave Applications

A quad-band frequency reconfigurable monopole antenna with shorted stubs: is a versatile microwave antenna that can operate across four different frequency bands. Its adjustable stubs allow for dynamic tuning, making it adaptable for various communication and sensing applications. Get help

Detection and classification of complex power quality disturbances using Discrete Wavelet Transform and a rule-based decision tree is a sophisticated method that accurately identifies and categorizes electrical grid anomalies, facilitating effective maintenance and reliability in power distribution systems. Get help

The design of a microstrip patch antenna for future smartphones: aims to provide compact, high-performance connectivity, enabling seamless integration of advanced wireless technologies in next-generation mobile devices. Get help