A technology used to create communication among remotely placed devices through wireless connectivity is known as Mobile Communication. This technology gradually turns out to be a part of our day-to-day life in any form to save our precious time, cost, and effort on communicating far way persons/systems.

“This article is specially intended to present you advanced Mobile Communication Project Topics along with a new research!!!”

Communication Technologies for Mobile Communication 

Cellular technologies that are used in existing communication systems are 

• 5G
• 4G
• LTE-A
• LTE-M
• LTE

Further, it is growing in the direction of the 5G-to-6G transition. Now, we can see two main types of communication networks where one is mobile nodes and the other is static nodes. Here, the mobile nodes in the network have capabilities to move their position continuously from one region to other. 

As well, static nodes in the network have fixed positions throughout the course of communication. Relatively, communication among mobile nodes is a quite challenging task. Our resource team has sufficient experience in both types of communication networks to support you in all possible areas. 

Two Types of Communication Networks

• Mobile Nodes
  • Intermittently Connected Networks
    • Opportunistic Contact
      • Human and Vehicular Networks
      • Opportunistic Networks
    • Predicted / Scheduled Contact
      • Terrestrial-based Deterministic Mobility Networks
      • Space Communication Networks
    • Most-connected Networks
      • On-demand Contact
• Static Nodes
  • Intermittently Connected Networks
    • Predicted / Scheduled Contact
    • WSN
  • Continuously Connected Networks

In addition, we have given you the primary features of mobile communication. All these features are very effective in comparison with other common communication technology. As well, these features make mobile communication move on from the current level to the next level.

By the by, this transformation gains the attention of large-scale research interested people. We also have interesting Mobile Communication Project Topics that highlight these features. Overall, we help you to elevate your research project by boosting the important features of mobile communication.

Key Features of Mobile Communication 

• Consumes low power because the cell towers are placed in nearer region
• Greater coverage area because there is no limit for cell towers 
• Enhanced incapacity which allows the same frequency for multi-links from various cells

Furthermore, we have given you the list of mobile communication research issues. With an intention to give you up-to-date research topics, we have thoroughly undergone a deep study of several current research papers on mobile communication. All these papers are collected from standardized research journals such as Springer, Elsevier, IEEE, ScienceDirect, etc. 

Along with these papers, we also referred to several research magazines and articles. Overall, this comprehensive study helps us to find recent research challenges/issues. Some of the main issues are given below, 

Emerging Issues of Mobile communication 

• Network Control
  • In recent days, network size increasing more with thousands of nodes, firewalls, access points, switches, and other entities
  • This structure creates complexity in maintenance and security
  • Need smart-way of approach for centralized/decentralized network management
• High Capacity Offloading
  • All the wired / wireless network environs are expected to have high capacity offloading
  • If one access point is loaded fully, then the users are moved to another access point based on the availability of bandwidth in a new access point
• Scalability
  • The demand for new wireless devices are rising more in present days
  • The scalable network enables to start in small size and later may increase the capacity and coverage based on requirements without creating a new network

In the time of our deep study, we have noted down the existing techniques that are lacking in solving several research issues. So, we have analyzed different research solutions (techniques and algorithms) and handpicked efficient solutions under the suggestion of our field experts on mobile security. All these solutions are classified based on the primary processes of mobile communication. As well, we guarantee you that these algorithms are best in achieving the expected research outcome. 

Latest Interesting Mobile Communication Project Topics

• Backhaul Communication using OFDM for 5G Communication 
• Optimized Data Compression and Bandwidth Sharing for MEC System
• 5G-enabled D2D Communication using Cooperative Network Slice Schemes
• Bandit Learning for Beam Alignment and Tracking in mmWave Communications 
• Advanced MIMO-PDMA Design for Mobile Communication in 5G Network
• RAN-based RoF for mmWave Mobile Communication (28 GHz) in 5G Network

Latest Algorithms for Mobile communication 

For Secure Mobile Communication

           In mobile communication, the devices are placed in a remote position and also move everywhere. So, security achievement is the most challenging task in mobile communication. Although several security technologies are introduced, still looking for the best technology. Currently, mobile communication systems are moving towards blockchain solutions for security purposes. Further, it also includes conventional access control and cryptography techniques. Here, we have given you some important algorithms specifically designed for security in mobile communication. 

• Signcryption Algorithm 
• AI-assisted Kernel Function
• Hashing Graph Functions 
• NN-Chaotic Encryption Method 
• Automata-based Security Strategies 
• Fuzzy Logic and Trust Assessment
• CNN-BiLSTM-CRF Entity Recognition Method

For Modulation Recognition

           With an intention to find modulation type, Automatic Modulation Recognition (AMC) techniques are largely preferred in both present and upcoming mobile communications. Moreover, it is highly used to modulate signals by the transmitter. In order to make this process as much possible, many smart algorithms are introduced.

• Tri-LSTM, LSTM and Bi-LSTM 
• Modular Convolutional Neural Network
• Gated Recurrent Neural Network
• Pyramidal Network
• Generative Adversarial Network
• Capsule Network
• Spiking Quantum Neural Network

For Energy-Efficient Communication 

           When the size of the network increases, computation also increases. This may lead to high energy and resource utilization due to the long processing time. In order to properly utilize energy, we have to implement energy-aware communication techniques in all the processes. For instance: data collection, data processing, task scheduling, node clustering routing, etc. Generally, our proposed techniques for any kind of project at any operation are energy-aware and energy-conserving methods. Here, we have given you only some of the important energy-efficient techniques.

• Energy Preservation Techniques 
  • MAC Layer Management Methods
  • Wireless Power Charger Controlling Methods
  • Topology and Energy Conservation Methods
• Traditional Energy Management Techniques
  • Routing and Scheduling Approaches
  • Joint Energy Efficient Designs
  • Clustering Approaches
  • Node Positioning Approaches
• Evolving Energy Efficient Techniques
  • Cognitive Radio Networks
  • Energy-Aware Machine Learning 
• Mobile Data Acquisition Techniques
  • Portable Data Collector Methods
  • Moving Sink Controller Methods

For Task Offloading

           Due to more user requests and increasing data, the maintenance of network load has become the more crucial part. In order to overcome this issue, it is essential to balance the load through the task offloading process. The aim of this process is to manage the computation-intensive tasks which range from mobile to fog devices. For this purpose, several algorithms are designed. Here, we have given you some efficient algorithms that are widely used in the mobile communication field. 

• Hypercube Algorithm
• Optimized Duellist Algorithm 
• Simulated Annealing 
• Hybrid PSO and Firefly Algorithm
• Water Cycle Optimizer
• HyperX Optimization Algorithm 
• Lion Pride Optimization
• Whale Optimization Algorithm 

For Multiple Access Techniques 

• Non-Orthogonal
  • Cooperative
    • NOMA-based Multi-Relay Channel
    • NOMA-based Relay Channel
  • Non-Cooperative
    • Sparse Code Multiple Access (SCMA)
    • Cognitive Radio Adaptation (CR-NOMA)
    • Topological Interference Management NOMA (TIM-NOMA)
    • Pattern Division Multiple Access (PDMA)
    • Low-Density Spreading (LDS)
    • Outer loop Link Adaptation (OLLA)
    • Multi-User Shared Access (MUSA)
• Orthogonal
  • MIMO-OMA
  • CDMA or TDMA or FDMA

Next, we can see about some important research areas of mobile communication. We ensure you that these areas have massive Mobile Communication Project Topics for both current and future researchers. 

Our developers come across a variety of projects in all these areas. So, we know all emerged new dimensions and hidden facts of these areas. By the by, we also extend our help on other significant areas of mobile communication. 

Just connect with us and share your desired research areas, we provide you with all the latest research ideas and topics in your desired areas. 

Latest Areas in Mobile Communications

• Massive MIMO and NOMA
• Wireless Cellular Backhaul
• 5G-based New Waveforms
• Multi-TRP Transmission
• Simulation Software Modelling
• Software defined Networking
• 5G-based Ultra-dense network
• Network Function Virtualization
• Cloud-based Radio Access Network
• Prototypes Testing and Assessment
• Unlicensed and licensed Spectrum Sharing
• Hybrid Beamforming in 5G-Radio access
• Sideline, Uplink, and Downlink Transmission
• Multi-User Superposition Transmission (MUST)
• 5G-Radio Network Slicing and Standardizations
• Future Wi-Fi Technologies (IEEE 802.11 ah /ax / ad / ay)
• Radio Interference and Resource Control (mMTC, eMBB, and URLLC)

Further, we have given you some latest communication technologies particularly largely recognized in mobile networks. Due to the technological advancements and users’ demand, these technologies are growing-fast in all aspects. Further, we also know other possible research challenges in all these technologies along with suitable research solutions. If you are interested to know more Mobile Communication Project Topics in these technologies then approach us. We are here to provide you latest research info to satisfy your research needs. 

Which is the latest technology in the mobile network?

• Long-Range Wireless Power
• Wi-Max and Wi-Fi
• Wireless Sensor Network
• 5G Cellular Communication
• Vehicle-to-Everything (V2X)
• Advance Wireless Location Detector
• Wireless Millimeter Wave
• Low-Power Wide-Area Networks

Besides, we have given you the future research directions of mobile communication. When one chooses research topics, first analyze three main elements such as importance, need, and future scope of the proposed research problem in wireless communication. Since selecting the topic without future scope is not a useful thing. Therefore, choose a topic that has the highest degree of future scope which enables you and your followers to do further studies on the same research area. Here, we have given you only a few research directions for your references.

Future Research Directions in Mobile Communication 

• Energy-Harvesting Transmission
  • Wireless Power Charging
    • Distributed Laser Charging
    • Microwave Radiation
    • MR And Inductive Coupling
  • Energy Generation
    • Sunlight
    • Micro-vibrations
    • Ambient Radio Frequency Signals
• High Privacy and Safety 
  • Blockchain Security
  • Robust Multi-level Security in Distributed Environ
  • VLC-based Quantum Key Management
• Multi-band Super-speed Communication
  • Visible Light Frequency Band
  • Tera Hertz Band (range from 0.1 THz to 10 THz)
• Artificial Intelligence (AI)
  • Environ-oriented Intelligence
  • Service-oriented Intelligence
  • Operation-oriented Intelligence

So far, we have completely discussed the research point of view. Now, we can see about some important updates on development. In any sort of project development, performance evaluation is the default phase. Mainly, it is performed for assessing the proposed research solutions of your project. For that, there exist various parameters to evaluate the system performance. Here, we have given you two main performance evaluation aspects such as QoE and QoS with their key parameters. Further, there are more parameters that vary based on your project needs. 

Performance Evaluation Metrics for Mobile communication 

• Quality of Experience (QoE)
  • Bit Rate 
  • Reliability
  • Frame Rate
  • MOS and PSNR
  • Service Availability 
  • Packet Loss Ratio
  • Goodput and Throughput
• Quality of Service (QoS)
  • Flat Rate
  • Services Grade
  • Ergodic Capacity
  • Packet Delivery Ratio 
  • Bit Error Rate (BER)
  • Probability of Blocking 

Further, our developers are like to share one sample project that represents the whole project development. In this, we have mentioned your project title, an overview of proposed work, different phases of the project with performance metrics to evaluate system efficiency. Similarly, we guide you in every step starting from mobile communication project topics. Once you finalized your topic with us, then we provide you implementation plan for your projects. This plan makes you clear in development flow, handpicked algorithms, techniques, and performance metrics with basic system requirements.

Best Mobile Communication Project 

“SDN-NFV enabled Resource Allocation and Multi-Layer Network Slicing for Traffic-aware QoS in 5G Network”

System Model Overview 

• Intended to enhance QoS with respect to SLA constraints 
• Mainly, it has a layered architecture which composed of the followings
  • Device Layer – 5G Devices
  • Virtual / Physical OpenFlow Switch Layer – Virtual OFS and Physical OFS 
  • Multiple Controller Layer – Local and Global Controller 
  • Slicing Layer – “N” number of Slices
• Every layer is attempting to balance traffic by QoS level

Multi-Level Queuing and Scheduling

• 5G Network Traffic Balancing at Access Point
  • Markov Chain Multi-Queuing Model (MCMQM) 
• Request Scheduling
  • Kapur’s Entropy-based Priority-based Scheduling (KEPS) algorithm
• Traffic-level Prediction
  • Parameters – Service Type, Payload Size, SLA Level, Deadline, Service Type, 
  • For instance: SLA level represents 10-High SLA, 05-Moderate SLA, and 00-Low SLA
• Overall, reduces the waiting time of traffic in real-world scenarios

Network Slicing 

• When the slicing request is received, the global SDN controller make the network slice into multiple pieces such as URLLC, mMTC, eMBB, etc. based on constraints
• Network Slicing
  • Stacked LiteNet (DL Algorithm)
    • Constraints – SLA and QoS constraints
      • QoS Constraints – Slice Priority, Traffic Type, and Slice Capacity 
      • SLA Constraints – Need of throughput, reliability, and latency

Virtual Load Balancing       

• When the traffic is directed to vOFS / pVFS, the local controller manage the virtual cluster to achieve offloading
  • Cluster Creation
    • Magnetic Force Optimizer (MaFO) Algorithm
    • Compute OFS fitness value based on Future Load and Current Load levels
• Achieve high-level cluster as Null until flow migration takes place on real-time traffic
• If OFS filled, then make Con_Req to respective local controller
• Next, the global controller implants local controller for a specific OFS region
• Overall, it balances the load in vOFS and pOFS 

Resource Allocation

• When the resource request is received, LC assign requested resources to user traffic
  • Resource Assignment
    • Maximum Matching Coordinated Game Model
      • Parameters – Service availability and Resource availability
      • Identify highly matching VNFs for user traffic based on parameters
• Choose Optimal Resource
• Throughput, Response Time, SINR, Service Priority
• Overall, assign user traffic to optimal resources with an assurance of high QoS 

Slice Resource Sharing

• GC perform slice resource sharing and control
• Execute Inter-slice resource sharing based on two conditions for a specific slice
  • High traffic density  
  • High user mobility  
• Resource Sharing
  • GraphNet algorithm
    • Build existing VNF resources in the slice in the form of a graph 
    • Perform VNF sharing based on the graph of each and every slice
    • Consider service availability, user mobility, and traffic density for resource sharing over slices

The performance of this project is compared with the proposed work with some existing works based on the following metrics. 

Based on the Number of Virtual Controllers

• Data Rate
• Delay
• Slice Capacity
• Throughput 
• Resource Consumption
• Packet Transmission Ratio
• Packet Loss Ratio

Based on Traffic Rate

• Data Rate
• Delay
• Slice Capacity
• Throughput 
• Resource Consumption
• Packet Transmission Ratio
• Packet Loss Ratio

Overall, we are here to help you in every aspect of the research and development phases of your mobile communication project topics. To great extent, we also help you in manuscript writing for your project thesis/dissertation submission. When you create a bond with us, we allocate you many teams to support you in all these different phases. Moreover, we also help you to develop your own research ideas on inappropriate development tools and technologies. We hope that you make use of this chance to create a masterwork of your research career.