PhD Research Topics in Telecommunication Engineering

Telecommunication engineering is denoted as the discipline that originated through the exchange of data over channels using wired and wireless means. It provides electrical engineering components such as system engineering, and computer engineering for the designing and developing the telecommunication systems. We have assisted numerous research scholars in designing phd research topics in telecommunication engineering.

Introduction to Telecommunication Engineering

Telecommunication’s main objective is surrounding remote communication and the telecom technique is deployed for the transmission of a message from one location to another location. The additional features of telecommunication are bidirectional and include some primary processes in the network based on telecommunication and they are enlisted in the following.

• Specification of protocols
  • It depicts the process of message regulation
• Actual data is represented through messages
  • It is functioning during the data transmission process and it includes both audio and data in the telephone network
• Control Software
  • It is used to regulate the functions and activities in the network
• Telecommunication processors
  • It is deployed to offer the required control process during the conversion process
• Telecommunication channels
  • It is used to send and receive data and it includes some cables and wireless radio frequencies
• Input and output devices
  • It is also called the terminals and it offers the starting and ending point of the communication. In addition, computers and peripheral devices and computers are included in the computer network

Uses of Telecommunication Engineering

• Electromagnetic systems (technology)
• Optical media
• Radio electricity
• Sounds (conversation) through wire
• Images
• Whether written
• Reception of signals
• Emission
• Types of transmission

Our experts are equipped with sufficient sound knowledge to guide every step of your research study. Further, if you need the best PhD research topics in telecommunication engineering and the complete PhD research work and then contact our research and development team. Now it’s time to discuss the important research areas in telecommunication engineering.

Research Areas in Telecommunication Engineering

• Next-generation networks
• Remote sensing, measurement, and control
• Optical networking
• Voice and data networks
• Fiber communications
• Mobile communications
• Computer communications and networking
• Cutting-edge internet of things
• Cloud-hosted VoIP
• Telecommunication security
• 5G
• Satellite telecommunications
• Telephony such as voice over internet protocol (VoIP)
• Cable distribution

Communication Research Areas

• Millimeter Wave (mmWave) and terahertz (THz) communications
• IoT and Satellite Communications massive access
  • ultra-reliable low latency communications (uRLLC)
• Dedicated short-range communications
  • For inter-vehicle comms and related applications
• Cognitive radio
  • Machine learning for wireless communications
  • Spectrum agile communications
• Multiple antenna communications
  • Space-timeme processing
  • Massive MIMO
  • MIMO
• Wireless network coding
  • Use network coding rather than routing
• Turbo-likeke processing and iterative receiver design
  • Regarded as the latest revolutionary technique for tough channels (RF and underwater)
• Multiuser information theory
  • Fundamental limits
  • Error control coding

The following is about the research algorithms which are essential to implement the research projects based on telecommunication engineering along with its notable specifications.

Algorithms in Telecommunication Engineering

• Space-timeme processing
  • It is used as the signals for the manipulation process with the receiver and transmitter from the antenna arrays and it is enhanced through the base stations in the applications
• Equalization
  • It is about the reversal process of distortion which is gained through the signal transmission using the channels. The equalizers are deployed with the render frequency
• OTFS
  • Orthogonal time frequency space is abbreviated as OTFS and it provides several benefits in the high-frequency dispersion it includes the larger Doppler spreads, telecommunications, higher phase noise, and mm-wave systems
• OFDM
  • Orthogonal frequency division multiplexing is abbreviated as OFDM and it includes various digital transmission processes for multiple carrier frequencies while data encoding

For your reference, our research experts in telecommunication engineering have enlisted the recent research trends that are used to select the PhD research topics in telecommunication engineering.

Current Trends in Telecommunication Engineering

• Massive M2M communication
• Ultra-reliable low latency communication
• Underwater and unmanned area communication
• Low exposure network planning
• Small cells and movable base stations
• Novel communication architectures
• Massive 5 G-based Hetnets
• 5G and mmWave communication for vehicular network
• Licensed assisted access for hybrid spectrum access
• Resource management for cellular communication
• Wireless multicasting and broadcasting
• Smart grid and power line
• SDN/NFV-based 5G architecture
• Wireless and mobile IP-based communication
• Cognitive and green radio communication
• NFV for future communication

For your information, in the following, we have listed some important research applications that are based on real-time processes. In this statement, there are lots of functions of the applications highlighted and each one is specialized in some aspects and has its unique features.

Application Telecommunication Engineering

• Applicationson are deployed for the following process
  • Develop better products
  • Recognize leads
  • Examine customer data
• Mobile payments
• Video streaming
• Messaging
• High-speeded internet

In general, the research topics in a telecommunication system is programmed and configured through the utilization of wireless channels and it includes various types of communication process such as.

• Full cognitive radio
  • It includes the existing parameters in the network and the wireless node
• Spectrum sensing cognitive radio
  • It is deployed to detect the channels that are based on the radio frequency spectrum

Hereby, we have delivered the innovative PhD research topics in telecommunication engineering for your reference. In addition, we provide complete research assistance for the research scholars in their research area.

PhD Research Topics in Telecommunication Engineering

• Mm-Waveve communication
• Space air-ground integrated networks
• Machine learning with wireless communication
• NFV and SDN-based research (network slicing)
• Wireless communication
• Machine-to-machine communication
• Optical networks and systems
• Internet of things
• Green communication systems
• Cognitive radio and network symposium
• Ad hoc and sensor networks symposium

In addition, our research developers have given some important data about the research techniques used in the research implementation with the list of characteristics in telecommunication engineering. The types of telecommunication engineering have a notable phase in the process of research methodologies in the research. Thus, we have enlisted the types in following.

Types of Telecommunication

• Bluetooth technology
• Microwave communication
  • Terrestrial microwave communication
  • Satellite microwave communication
• Broadcast radio
• Satellite communication

Below, our research professionals have highlighted the contemporary research projects list based on telecommunication engineering.

Research Projects in Telecommunication

• Reliable communication in vehicular ad hoc networks
• Improving the energy efficiency of internet routers
• Body area network for healthcare monitoring
• Multi-user MIMO communication

For your reference, our research professionals have listed some innovative research tools in the following that are based on the implementation process of telecommunication engineering.

Simulation Tools in Telecommunication

• CORE Simulator
• LTE System Toolbox also in Matlab
• OMNeT++ (SimuLTE, OMNeT++ v*, INET Framework v*)
• OPNET (OPNET Modeler)
• NS3 (LENA-LTE-EPC Network Simulator)

Our technical experts are ready with massive resources and all the practical descriptions that you needed to understand the standards, tools, techniques, and algorithms based on telecommunication engineering. In the following, we have enlisted the questions that are repeatedly asked by the research scholars along with the appropriate answer.

People Asked Questions

What are the basic telecommunications networks?

• Internet
  • It is functional through the transport control protocol and packet network routing
• Computer networks
  • It is the collection of resource transformation offered through the network nodes
• Radio broadcasting system
  • It is used to transmit and receive the electromagnetic waves
• Telephone network
  • It is based on the telecommunication network that is used to connect the telephones

How to simulate optical communication using NS3?

• Radio over fiber (RoF)
  • It is based on NS3 and YANS WiFi model
  • Simulation of 802.11 is functioning through RoF systems
  • It is used as the distributed antenna systems RoF modeling, optical module computing delays and attenuations through the radio signal transmission
  • PWNS is used for the integration of optical network component models
  • It is the protocol-independent model and is used in the WiFi transmission process
• Passive optical network (PON)
  • It is used to enhance the simulation model of XG-PON and is also called 10G-PON
• Optical transport network (OTN)
  • Control plane
  • Channels
  • Core network devices
  • Edge network devices
  • Physical interfaces

What are the recent interesting topics in telecommunication systems?

• • Heterogeneous wireless systems
    • 3G 4G and 5G
    • Wi-FI
  • 5G systems
  • Internet of things systems
  • Terahertz communications
    • It is a supporting technology for 6G systems
  • Fiber optic communication

What are the topics in telecommunications engineering?

• Intelligent reflecting surfaces based communications
• Software defined radio based communications
• Quantum communications
• Reliable communications for vehicular networks
• Body area networks for healthcare monitoring
• Networks for environmental pollution monitoring
• Improving the energy efficiency of internet routers
• Cognitive radio networks
• Cooperative wireless communications and network coding
• Multiuser MIMO communications

How to implement MIMO using Matlab?

The MIMO techniques are used to send and receive the data signals in massive quantities and at the same time, similar radio channels are exploited with the multipath propagation along with the potential gains of the channel over various antennas, transmitters, and receivers in the communication system. It includes the process such as

• LTE advanced
• LTE
• WiMAX
• WiFi

In addition, the toolboxes that are used in the communications system are highlighted in the following.

• Spherical decoding
• Orthogonal space-time block coding technique (OSTBC)
• MIMO fading channels

The research scholars can find enormous resources from all the working systems based on telecommunication engineering through this article. Our research experts are well knowledgeable in guiding the research scholars to develop the research project. You can choose any of the PhD research topics in telecommunication engineering to develop several innovations and you can step forward with your research ideas in telecommunication engineering and we provide complete guidance for the research work.