Light Fidelity with 5G Projects

     Light Fidelity with 5G Projects is develop for final year students those are interested in communication domain. Light Fidelity based communication is enable to use visible lights waves from light. For the achievement of higher data rates, light fidelity is integrated to 5G network. The individual significance of light fidelity and 5G are illustrate below.

Specialties of Light Fidelity:

  • Bi-directional communication
  • High speed in data transmission
  • Low cost Light Emitting Diode Bulbs are used
  • Supports all data types (voice, video)
  • Highly secure within a room
  • Minimizes wired connectives
  • Lesser installation charges
  • Higher bandwidth availabilities
  • Zero interference
  • Energy Saving by the use of Light Emitting Diodes

Specialties of 5G:

  • Higher data rate
  • Provide best Quality of Service
  • Maximized capacity
  • Ubiquitous connectivity
  • Increased bi–directional bandwidth

    According to switching of the Light Emitting Diodes into ON and OFF, the digital data are transmitted via uplink and downlink. These Light Emitting Diodes are the transmitters present in this system. This light fidelity is an alternative for radio-based wireless communication technologies. Due to the use of harmless visible lights, it is support for many significant applications.

For more ideas, go through the following topics given for Light Fidelity with 5G Projects,

  • A novel method of Road toward 5G process for Comparative Study of Physical Layer also in MTC Context system
  • An efficient practice for Continuous device positioning and synchronization in 5g dense networks also with skewed clocks [Light Fidelity with 5G Projects]
  • The fresh process of Access point assignment in hybrid LiFi and WiFi networks also in consideration of LiFi channel blockage
  • An effective performance for Pilot placement for power-efficient uplink positioning also in 5G vehicular networks
  • A new methodology function of Filter optimization based out-of-band emission and also BER analysis for FBMC-OQAM system in 5G system
  • An effective design mechanism for Element-staggered, circularly polarized reflectarray also by linearly polarized feed for 5G applications
  • An original practice for Time-domain analysis of monocycle pulse propagation meant also for 5G UWB communications system
  • A new process of MIMO 8×8 antenna through two H-slotted rectangular patch array designed also for 5G access radio at 15 GHz
  • An inventive process of Phase noise analysis for 28GHz phase-locked oscillator intended also for next generation 5G system
  • The fresh practice for Fast and efficient physical layer authentication designed also for 5G HetNet handover system
  • A new practice for Low Latency IDMA by Interleaved Domain Architecture intended also for 5G Communications system
  • An innovative process of Video-processing platform designed also for semi-autonomous driving over 5G networks [Light Fidelity with 5G Projects]
  • The fresh function of Precoder Design for Signal Superposition also in MIMO-NOMA Multicell Networks
  • The novel mechanism for Common Codebook Millimeter Wave Beam Design also based on Designing Beams used for Both Sounding and Communication With Uniform Planar Arrays system
  • An innovative performance for Shift and mutually orthogonal, multi-band pilot schemes also in favor of large-scale MIMO-OFDM systems