Communication Related Topics

Wireless communication is examined as an interesting as well as rapidly evolving domain that enables data sharing among various devices without the aid of wired techniques. Relevant to performance analysis in wireless interaction, we recommend a few intriguing research topics:

  1. Performance Analysis of 5G Networks:
  • In 5G, the performance of various modulation policies has to be assessed.
  • On the performance of 5G networks, analyze the effect of network slicing.
  • In ultra-reliable low-latency communication (URLLC), consider throughput and latency analysis.
  1. Massive MIMO Systems:
  • In terms of various channel constraints, carry out performance assessment of massive MIMO.
  • On the performance of massive MIMO, consider the effect of beamforming approaches.
  • In massive MIMO systems, examine spectral effectiveness and energy effectiveness.
  1. Cognitive Radio Networks:
  • On network performance, analyze spectrum sensing preciseness and its implication.
  • In cognitive radio network performance, focus on the effect of major user actions.
  • Carry out performance assessment of dynamic spectrum access approaches.
  1. Vehicular Ad-Hoc Networks (VANETs):
  • On the basis of various mobility models, conduct latency and throughput analysis in VANETs.
  • In VANET performance, examine the effect of vehicle density.
  • Regarding various routing protocols, carry out performance comparison in VANETs.
  1. Wireless Sensor Networks (WSNs):
  • Time period and energy usage analysis of WSNs.
  • On WSN performance, consider the effect of data aggregation approaches.
  • In WSNs, conduct performance assessment of various routing protocols.
  1. Internet of Things (IoT) Communication:
  • By examining various IoT interaction protocols like CoAP and MQTT, carry out performance analysis.
  • On IoT device interaction, analyze the implication of network congestion.
  • For IoT, consider the assessment of low-power wide-area networks (LPWAN).
  1. Visible Light Communication (VLC):
  • In various indoor platforms, conduct performance analysis of VLC.
  • On VLC performance, study the effect of environmental light interference.
  • Specifically in hybrid VLC-RF systems, focus on latency and throughput analysis.
  1. Energy Harvesting and Green Communication:
  • In wireless networks, consider the performance assessment of energy harvesting approaches.
  • On network performance, analyze the effect of renewable energy sources.
  • In wireless interaction, examine energy-effective protocols.
  1. Quantum Communication:
  • On communication delay and throughput, study the implication of quantum entanglement.
  • In wireless networks, carry out the performance evaluation of quantum key distribution.
  • Particularly in quantum interaction systems, consider the assessment of error rates.
  1. Software-Defined Networking (SDN) in Wireless Networks:
  • Concentrate on the performance implication of dynamic resource allocation related to SDN.
  • In SDN-based wireless networks, examine throughput and latency.
  • In 5G and across other networks, carry out the performance assessment of network slicing with SDN.
  1. UAV-Assisted Wireless Networks:
  • In UAV-related communication relays, conduct performance analysis.
  • On network performance, consider the effect of UAV mobility trends.
  • In UAV-based IoT networks, assess latency and throughput.

What is the research area of wireless communication?

In the domain of wireless communication, several areas are emerging that offer a wide range of opportunities for carrying out research. On the basis of this domain, we list out numerous major research areas to consider:

  1. Next-Generation Wireless Networks (5G/6G):
  • Consider the creation and enhancement of 5G and 6G mechanisms.
  • Massive Machine-Type Communication (mMTC), Ultra-Reliable Low Latency Communication (URLLC), and Enhanced Mobile Broadband (eMBB).
  • For next-generation networks, focus on spectrum handling and usage.
  1. Massive MIMO (Multiple Input Multiple Output):
  • Enhancement of spectral effectiveness and energy effectiveness.
  • In massive MIMO systems, examine hardware and signal processing issues.
  • Innovative spatial multiplexing and beamforming approaches.
  1. Cognitive Radio and Dynamic Spectrum Access:
  • Spectrum sensing and sharing methods.
  • Implementation of machine learning in cognitive radio.
  • In cognitive radio networks, consider adaptive modulation and coding.
  1. Wireless Sensor Networks (WSNs):
  • Data aggregation approaches and energy-effective protocols.
  • In WSNs, concentrate on confidentiality and security problems.
  • WSNs implementation in industrial automation, healthcare, and ecological tracking.
  1. Internet of Things (IoT):
  • IoT interaction principles and protocols.
  • Emphasize credibility and adaptability in IoT networks.
  • Combination of IoT into fog and edge computing.
  1. Vehicular Ad-Hoc Networks (VANETs) and V2X Communication:
  • For vehicle-to-everything (V2X) and vehicle-to-vehicle (V2V) communications, consider interaction protocols.
  • Traffic handling and security applications.
  • In vehicular networks, examine confidentiality and safety problems.
  1. Visible Light Communication (VLC):
  • Indoor navigation and positioning with the aid of VLC.
  • Combination of VLC into RF interaction.
  • For VLC, consider signal processing and modulation policies.
  1. Machine Learning and AI in Wireless Communication:
  • AI-based network handling and enhancement.
  • Anomaly identification and predictive maintenance.
  • Smart interference handling and spectrum allocation.
  1. Energy Harvesting and Green Communication:
  • Harvest energy from environmental sources using appropriate methods.
  • Focus on minimizing the ecological effect of wireless networks.
  • Energy-effective interaction protocols.
  1. Quantum Communication:
  • Cryptography and quantum key distribution.
  • In communication, consider quantum entanglement and its applications.
  • Realistic application of quantum interaction frameworks.
  1. Software-Defined Networking (SDN) and Network Function Virtualization (NFV):
  • Implementation of NFV and SDN in wireless networks.
  • By means of virtualization, improving network effectiveness and adaptability.
  • Dynamic resource allocation and network slicing.
  1. Unmanned Aerial Vehicles (UAVs) and Drones:
  • UAV-related interaction networks and relays.
  • UAV-supported remote sensing and IoT applications.
  • Swarm intelligence and coordination.
  1. Security and Privacy in Wireless Networks:
  • Assure safer interaction in wireless networks through efficient approaches.
  • Privacy-preserving mechanisms and protocols.
  • In wireless systems, focus on intrusion detection and prevention.
  1. Blockchain and Distributed Ledger Technology (DLT):
  • In protecting wireless interaction, examine the use of blockchain.
  • Improvement of reliability and credibility in wireless networks.
  • Decentralized resource handling.
  1. Performance Analysis and Optimization:
  • Analysis of wireless networks in terms of credibility, latency, and throughput.
  • On network performance, analyze the effect of ecological and mobility aspects.
  • For enhanced performance, concentrate on improving network protocols and resources.

Communication Related Research Proposal Topics

Communication Related Research Topics

Some of the trending and original Communication Related Research Topics are listed in this page we constantly update ourselves daily so any type of assistance are given by us for scholars. We are the trusted partner in which you can always rely on us.

  1. Array design for mm-wave UAV-assisted cooperative communications with simultaneous wireless information and power transmission
  2. Analysis on unit maximum capacity of orthogonal multiple watermarking for multimedia signals in B5G wireless communications
  3. Design of Computationally Efficient Sharp FIR Filter Utilizing Modified Multistage FRM Technique for Wireless Communications Systemss
  4. 15 Mbps underwater wireless optical communications based on acousto-optic modulator and NRZ-OOK modulation
  5. Protograph bit-interleaved coded modulation: A bandwidth-efficient design paradigm for 6G wireless communications
  6. Cognitive computing and wireless communications on the edge for healthcare service robots
  7. Application of maximum rank distance codes in designing of STBC-OFDM system for next-generation wireless communications
  8. On the secrecy performance of RIS-enabled wireless communications over Nakagami-m fading channels
  9. The TeraNova platform: An integrated testbed for ultra-broadband wireless communications at true Terahertz frequencies
  10. Machine-type wireless communications enablers for beyond 5G: Enabling URLLC via diversity under hard deadlines
  11. Coupled ring split ring resonator (CR-SRR) based epsilon negative metamaterial for multiband wireless communications with high effective medium ratio
  12. Optimization of intensities and locations of diffuse spots in indoor optical wireless communications
  13. Optical investigations of Cu2CdSnS4 quaternary alloy nanostructure for indoor optical wireless communications
  14. Analytical evaluation of certain integrals occurring in studies of wireless communications systems using the Mellin-transform method
  15. A survey on unmanned aerial and aquatic vehicle multi-hop networks: Wireless communications, evaluation tools and applications
  16. Optimization of passive metamaterial design with high effective medium ratio for wireless communications
  17. Underwater optical wireless communications, networking, and localization: A survey
  18. Analysis of low power wide area network wireless technologies in smart agriculture for large-scale farm monitoring and tractor communications
  19. Analysis and mitigation of vulnerabilities in short-range wireless communications for industrial control systems
  20. In-band full duplex wireless communications and networking for IoT devices: Progress, challenges and opportunities