Network Domain Projects

The Network is referred to as the pool of connected computing devices and other entities to share data from one node to another. Here, the data is first collected from the source and split up into several packets (i.e., the smallest unit of data) and then forward the respective destination through optimal routes. At last, in network domain projects receiver collects the packets from different paths and assembles them together to form whole data.

From this page, you can gather significant information on the latest network domain projects, research areas, ideas, simulation tools, and technologies!!!

Primarily, networks help to hand over network packets from source to destination and vice-versa. This operation takes place at both source and destination hosts in the Network. In the source, it captures the packets in the transport layer and places them in a datagram. Next, it forwards the collected packets to the data link layer. Then, it passes the data to the destination. In destination, it decapsulates the received datagram and extracts the packets. Next, it is forwarded to the respective transport layer.

Due to the current technological advancements, networking is leaving its foot impression in innumerable real-world applications. At least, even as a small contribution, you can find the networking research areas concepts in emerging applications. Below, we have given few most popular Network domain projects related applications for your knowledge.

What are the applications of networks?

• Data transmission in deep underwater sensors
• Remote patient health monitoring system
• Speech recognition and synthesis
• Security in cyber system infrastructure
• Context-aware networking and computing
• Military defense system surveillance
• Smart spaces and satellite monitoring
• Inventory tracing in production supply chain system

What are the key factors of Network?

Next, we can see some key characteristics of Networks such as topology, routing, system design, residual energy usage, localization, QoS, mobility, network scaling, packet forwarding, etc. All these characteristics play a major role in boosting the efficiency of the Network regardless of network scenarios and type. 

Research Challenges in Networking Projects

We hope that you have got clear ideas on basic networking and their performance influencing characteristics. Below, we have addressed the important challenges in designing a network domain projects. While designing the network domain projects, we have to focus on the below issues along with scalability, energy utilization, QoS, network security, and programmability.

• Dynamic Network Topology, Architecture and Deployment
• Network Coverage and Computation Speed
• Protocol and Cross-Layer Design
• Network Traffic Load Balancing
• Hardware Cost, Memory and Battery Size
• Network Heterogeneity and Self-Configuration
• Wireless Device Localization and Connectivity
• Data Redundancy and Fusion in Data-Centric Network
• Wireless Sensor Sink / Node Dynamic Movement
• Network Lifetime and Fault Tolerance in Network / Node Failure

Our developers are always passionate about working with the current growing technologies of network domain. So, tirelessly do practice on all growing research areas for developing unique network projects. Further, we also update our skills in handling new simulation tools and frameworks to present you with accurate results. Here, we have given you how we work on networking projects, from handpicking research issues to result in attainment.

What are the phases of network domain projects?

• At first, we describe the research question / problem
• Next, design the prototype of proposed system based on related models
• Then, choose the appropriate performance metrics and variable parameters for system evaluation
• After that, implement the model and configure the suitable static parameters
• Further, configure the simulator for generate necessary performance values
• Next, simulate the network model and acquire the performance values after execution
• At last, investigate and understand the obtained results

As a matter of fact, we constantly prefer new and evergreen research areas for collecting pearl of research ideas.  At this point, we experts have noticed that the following domains are ruling the networking fields. Furthermore, we also support you in your interested network domain. Whatever the domains, we have a goal to attain the best ideas for the best projects.

What are the domains of networks?

• Wireless Sensor Networks (WSN)
• Wireless Mobile / Cellular Networks
• Cognitive Radio Networks (CRN)
• Low Power Resource Constrained Networks
• Ad hoc Networks (VANET, MANET, FANET, etc.)
• Edge computing and Internet of Things (IoT)
• Mobile Computing

For illustrative purposes, we have cherry-picked the “Edge computing and Internet of Things (IoT)” from the above list for a detailed explanation since these two areas are collected from top-demanding networking domains.

Network Domain Research Areas

At the present time, we are working on many network domain projects in these areas.

• Internet-of-Things (IoT) – IoT Research Projects is a widespread area that ranges from hundreds to million devices architecture. Also, it deploys only resource-constrained devices in both small and large-scale networks. So, it is looking low-power applications. For instance: health monitoring using wearable devices, supply chain in manufacturing, etc.
• Edge Computing – Many of today’s applications are looking for low-power consumption services at the network edge computing. So, this field is specially designed to meet those user requirements. In addition, it also enhances the speed of the request’s response and network bandwidth. For instance: Power-aware edge network services in 5G.

Next, we can see some major classifications of wireless sensor networks since WSN is an ever-popular extensive-range networking research domain. Therefore, we have given you a few significant parameters that scholars should consider while designing a proposed system in the WSN domain. For each project, the following parameters may vary according to the needs. So, decide before designing the network model.

Important Parameters of Sensor Networks

• Moving Entity – Sink (Mobile), Sensors, etc.  
• Applications – Event-based, Time-based, Tracking-oriented and On-demand
• Control Mode – Centralized, Decentralized and Hybrid
• Radio Propagation Model – Realistic and First order
• Network Features – Heterogeneous and Homogeneous
• Routing Techniques – Hybrid, reactive and hybrid
• Data Acquisition Approaches – Node-centric, Position-centric and Data-centric
• Network Structures – Mesh, Tree, Cluster, Hybrid, Chain and Flat / Unstructured
• Data Transmission Model – Mobile-centric, Sink-centric, Data-centric, Human-centric, Actor-centric, Query-centric, Address or Node-centric and Position or Geo or Location-centric
• Mobility Models – Autoregressive, Non-recurrent, Virtual game-based, social-aid community, group, flocking and swarm

For the benefit of active scholars, our resource team has shared few important research topics that we are currently developing in networks. These topics are collected from current networking research areas. In addition to this, we have countless research notions in all respects of the networking field. Once you choose your interested areas, then we provide you all the latest research perspectives of those areas.

Current Trending Research Topics in Network Domain

• Improved Network Traffic Monitoring, Prediction and Classification
• Development of Scheduling and Duty Cycle Approach
• Efficient Data Aggregation and Clustering in Large-scale Networks
• Resource Identification and Cell Selection
• Optimal Routing Scheme for Efficient Resource Allocation in Mobile-IoT
• Advance Interference and Power Control Mechanisms

Besides, we have also spot-lighted the emerging network technologies that have more advantages. These technologies are valuable by means of creating positive research contributions in modern society. If you are interested, then we are ready to give information on technologies that current scholars are looking forward to for their study in network domain projects.

Latest Technologies in Networks

• NOMA
• MIMO and Massive MIMO
• Heterogeneous Networks (HetNets)
• Device-to-Device Communication (D2D)

Simulation Analysis of Networks

The main benefit of simulating a Network is to analyze the relationship between the connected devices/entities (access points, nodes, router, link, switch, base station, and more) in the Network. Basically, it is performed based on the instruction given in the software. For any networking research, it is the essential part to carry out in the research journey.

Since it helps to evaluate and study whole system performance with their behaviour, further, it enables the developer to adjust some features to analyze the performance of network/protocol at various conditions and scenarios. Below, we have given the few common metrics used for performance assessment.

• MOS value
• Jitter
• Packet End-to-End Latency
• Packet Latency Variation
• Traffic Transferred (bytes/sec and packets/sec)  
• Traffic Received (bytes/sec and packets/sec)   

Overall, it predicts the functionalities of the Network through the appropriate software called network simulator. It is mainly used to simulate complex networks that are hard to assess using standard analytical techniques. Due to its scalability and easiness, now it is preferred in all levels of applications for estimating the system performance.

In the practical development, the Network is modelled through network components, communication links, and applications to control the simulation. Moreover, the simulators are expected to cope with all newly evolving networks (LTE, 5G, SDN Projects, CRN, Green-IoT, WSN, Ad-hoc, Evalvid etc.) and their technologies (mmWave, MIMO, Li-Fi, etc.).

Here, we can see in what way we develop network domain projects for our handhold scholars. For that, we segmented the project into the following phases:

• Modeling Network Scenario
  • Select the environment based on proposed system requirements
  • Design the suitable network topology with required number of nodes
  • Collect the application-level needs for development
• Network Models and System Configurations
  • Utilize appropriate network interface
  • Employ the network traffic and mobility model
  • Develop the protocol stack
  • Abstract the physical and radio frequency information
• Implementation
  • Debug the run-time errors
  • Execute in both soft and hard real-time modes
• Monitoring
  • Screen the generated simulation results logs and statistics
  • Monitor the produced data from wireshark, signal and time analyzer
• Comparative Study
  • Validate the network protocols performance
  • Perform whole system testing (unit and integration)
  • Assess the entire system performance / efficiency

Network Emulation

Similar to simulation, emulation is also another way of virtually developing and testing network applications. However, it is common in virtual developments; it concentrates on mathematical functioned integrated hardware, channel, protocol, traffic, etc. Majorly, it assists in analyzing the network performance, which incorporates external hardware. In specific, it examines the effect of network variations for optimal decision-making.

Different Network Simulations

For your information, here we have given the various kinds of commercial and open network simulators..

• Network Simulator version 3 (NS-3)
• OPNET
• Netkit
• JSIM (Java-based Simulation)
• Marionnet
• QualNet
• Network Simulator version 2 (NS-2)

In the above list, JSIM, Netkit, Marrionet, NS2 are open-source tools, and QualNet and OPNET are commercial tools.   Overall, we will give end-to-end development guidance on your interesting research network domain projects through the best-fitting tool. At the time of project delivery, we give you the project with source code, execution screenshots, running procedure video, as well as guidelines, software requirements, and installation guidelines. So, if you are interested in more about our services, then communicate with us.