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Top 25 Antenna Projects

Top 25 Antenna Projects

What is Antenna

An antenna that converts radiofrequency fields into alternating current or vice versa. Top 25 Antenna Projects provides how the transmission of a radio transmitter supplies an electric current to the antenna’s terminal and radiates the energy from the current as electromagnetic waves.

 Top 25 Antenna Projects

  1. Cooperative Spectrum Sensing in Communication System
  2. Energy Efficient UAV Assisted Communication with Spectrum Optimization
  3. Non-Orthogonal Multiple Access Technique In 5G Communication System
  4. Performance Evaluation for 5G NR Based MM Wave MIMO Systems
  5. Encrypted Image Transmission Over OFDM System
  6. Robust Design of Spectrum Sharing Network
  7. Multi Slotted Microstrip Patch Antenna for Multiple Wireless Applications
  8. Dielectric Rectangular Resonator Antenna
  9. Multi-Band MIMO Antenna Design for 4G and 5G Mobile Terminals
  10. Millimeter-Wave Doughnut Slot MIMO Antenna
  11. Monopole Antenna for Indoor MIMO
  12. Monopole Antenna for Quad-Band
  13. Multi Rectangular Slotted Hexi Band Micro Strip Patch Antenna
  14. Switchable Frequency Slot Ring Antenna
  15. Array Antenna for Wireless Communication
  16. Slotted Microstrip MIMO Antenna for 5G Mobile Applications
  17. Reconfigurable Antenna Design
  18. Wide Band Slotted Circular Ring Patch Antenna Design
  19. Parasitic Patch Antenna Design using HFSS
  20. Microstrip Patch Antenna Design for Wi-Fi Application

     

    1. Cooperative Spectrum Sensing in Communication System

    It is a key function of cognitive radio to prevent harmful interference with licensed users and identify available spectrum for improving the utilization. Cooperative sensing is provided to address the issues of cooperation method, gain, and cooperation overhead.

     

    1. Energy Efficient UAV Assisted Communication with Spectrum Optimization

    It is one of the long-term communications technology developments taking place on radio receiver devices. The cognitive radio technology enables more effective communications systems to be developed over the multi-access service providers. It accesses technology to improve the network capacity of the data transmission.

     

    1. Non-Orthogonal Multiple Access Technique In 5G Communication System

    The concept of non-orthogonal multiple access (NOMA) access for 5G. It provides the fundamentals of the technique for both downlink and uplink channels to optimize the network capacity under constraints. It impacts imperfect receivers on the performance of NOMA networks.

     

    1. Performance Evaluation for 5G NR Based MM Wave MIMO Systems

    The Massive Multi-Input Multi-Output (MIMO) is a key technology that improves spectrum efficiency. It is manifested by the use of a large number of antennas at the base station to serve a higher number of users’ frequency resources as well as a large multiplex gain and an array diversity gain.

     

    1. Encrypted Image Transmission Over OFDM System

    Wireless communication refers to transferring data and information without using a wire, cable, or any electrical conductor. These improvements include methods such as encryption of data at the source and decryption at the destination, scrambling of data, precoding, etc.

     

    1. Robust Design of Spectrum Sharing Network

    In spectrum-sharing networks, primary users have the right to prompt secondary users, which significantly degrades the performance of underlying secondary users. It provides reliability guarantees for secondary users that minimizes the amount of recovery capacity.

     

    1. Multi Slotted Microstrip Patch Antenna for Multiple Wireless Applications

    A new design technique of microstrip patch antenna consists of an inverted patch structure with an air-filled dielectric, direct coaxial probe feed technique, and a novel slotted shaped patch. The effect of integrating these techniques offers a low profile and compact antenna element.

     

    1. Dielectric Rectangular Resonator Antenna

    An overview of relevant approaches for controlling circuital characteristics and radiation properties of dielectric resonator antennas is presented. The advanced design solutions for enhancing the realized gain of individual DRAs are investigated. It is provided to radiofrequency (RF) front-end designers in the selection of different antennas to achieve terms of frequency response, gain, and polarization.

     

    1. Multi-Band MIMO Antenna Design for 4G and 5G Mobile Terminals

    A design of a multi-band slot antenna array applicable for 4G and 5G mobile phones. The design is composed of double-element square-ring slot radiators fed by microstrip-line structures for easy integration with radio frequency (RF)/microwave circuitry.

     

    1. Millimeter-Wave Doughnut Slot MIMO Antenna

    It aims in the deployment of base stations and antennas upgrading from 4G to 5G results in three main benefits: faster speed, shorter delays, and increased connectivity. The enhancement in technologies can be used in new electronic components. It intends to design an antenna in millimeter wave frequency range for 5G applications

     

    1. Monopole Antenna for Indoor MIMO

    The antenna has a modified rectangular for improving isolation between radiating ports and two monopole radiators. The MIMO antenna shows good radiation characteristics and diversity performance. Measured and simulated results are generally in good agreement.

     

    1. Monopole Antenna for Quad-Band

    It is present for simultaneously satisfying the global positioning system (GPS), wireless local area network (WLAN), and microwave access applications. Each can be controlled independently with little interference from others, which brings convenience to the antenna design, optimization, and debugging processes.

     

    1. Multi Rectangular Slotted Hexi Band Micro Strip Patch Antenna

    It is to enhance the rectangular microstrip patch antenna gain and bandwidth. These antennas are designed using a dielectric substrate with permittivity. The antenna has been designed for the range and is highly suitable for various applications such as satellite communication, Radar, Medical applications, and other Wireless systems.

     

    1. Switchable Frequency Slot Ring Antenna

    A frequency reconfigurable slot-ring antenna switching between L- and C-bands is presented. It operates with a fractional bandwidth in the L/ C-band operating respectively. This antenna is scalable to a larger array with element spacing of less than half-wavelength in both frequency bands.

     

    1. Array Antenna for Wireless Communication

    It develops a miniature antenna of 5G Generation and a system for multiple inputs and outputs (MIMO). The dual-band response is achieved by etching a T-shaped slot from the main radiator. The antenna array exhibits Omni-directional radiations and offers an acceptable gain for both frequency bands.

     

    1. Slotted Microstrip MIMO Antenna for 5G Mobile Applications

    It consists of the design and comparisons of slotted antenna parameters with asymmetrical U-shaped slots about the center of the patch. The tool is used for the design and simulation as a dielectric substrate. Low cost, low profile, and ease of fabrication are the major highlights of using the antenna for the design.

     

    1. Reconfigurable Antenna Design

    Reconfigurable antennas are to cover different wireless services that operate over a wide frequency range. It uses dynamically variable and adaptable single-antenna without increasing the real estate required to accommodate multiple antennas.

     

    1. Wide Band Slotted Circular Ring Patch Antenna Design

    A ring-shaped patch antenna is designed which is suitable for wireless communications. It reduces the fading and interferences from the outside environment.

     

    1. Parasitic Patch Antenna Design using HFSS

    Wideband is the emerging technology for utilizing several wireless communication applications. This limitation is to be overcome by using a technique called parasitic element to achieve wider bandwidth. It is composed of microstrip with parasitic elements and the antenna return loss and gain have been simulated by the HFSS software.

     

    1. Microstrip Patch Antenna Design for Wi-Fi Application

    It improves transmission, reduces power consumption, improved lifetime, and improved the efficiency of the communication device. Microstrip patch antenna for Wi-Fi application is designed and simulated using Advanced Design System (ADS) Software.

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