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           Routing Protocol for Low Power and Lossy Networks (RPL) is known as the Distance Vector Routing Protocol. Protocol RPL Simulation mainly aims at the Collection Based Networks, and it is the point for nodes that forward data packets to the destination or aggregation node. Primarily, it is considered to be extremely adaptive to network settings and to distribute additional routes when the default routes are unapproachable. It provides a mechanism to distribute the data through the emerging molded network topology.

This page deals with the innovative Protocol RPL Simulation project topics and the dynamic applications in RPL.

What are the main features of the RPL Protocol?

  • Extensibility or elasticity 
  • Path Enhancement
  • Overhead in Control Plane 
  • Confidence in Local Servers 
  • Scalability
  • Convergence Time 

Up to now, there are many key features and technologies used to estimate the Protocol RPL Simulation implementation. If you want to know more information about the RPL protocol project topics and novel technologies, then you can approach us. Our experts are intense to provide the best research ideas according to your requirements. If you have your ideas then our research professionals are ready to assist you to get better results by using the suitable modules, programming languages, tools information, and mathematical analysis. At this point, we have highlighted the types of nodes in RPL Simulation.

RPL Protocol Simulation Tools

What are the key elements in Protocol RPL Simulation?

  • Router
    • Router is equipment that produces and forward the traffic and cannot construct the DODAG graph
  • Host
    • Generally, the host is end equipment that can produce traffic but not send traffic
  • Low Power and Lossy Border Routers (LBRs)
    • LBRs describe the source of DODAG that acts as an entryway for LLN and the Internet. Additionally, it is an assemblage point in-network with the capability to figure the DODAG graph

In general, the Protocol RPL Simulation uses objective functions for root selection and also parent selection. We have listed out some performance metrics for choosing the clear objective functions. The best objective function is used to choose the routing path for data transmission, the cost of the routing path is measured properly. 

How to define an objective function in RPL protocol?

  • Link Level
    • ETX
    • LQL / RSSI 
    • Latency
    • Throughput
  • Node Level
    • End to end delay
    • Energy
    • Hop Count

Here, our experts have given you some information about the Protocol RPL Simulation applications which helps the research scholars to get tuned results in their research networking project. In this way, we have mentioned the suitable applications with their requirements. For instance, we have listed some parameters such as latency, network scale, communication model, and traffic pattern. The variation is happened due to the difference in the protocols.

RPL Protocol Applications

  • Industrial
    • Latency
      • The type of the application is based on tens of milliseconds to seconds 
    • Network Scale
      • Typical: 10 – 200 nodes
    • Traffic Pattern
      • P2P (rare)
      • P2MP (rare)
      • MP2P (prevalent)
    • Communication Model
      • Periodic
      • Event-Based 
      • Query Based
  • Home Automation
    • Latency
      • Alarm and light control application: <250 ms
      • Other applications: 10’s of seconds
    • Network Scale
      • Classic: 0 – 100 nodes
      • Max: 0-250 nodes
    • Traffic Pattern
      • P2P 
      • P2MP
      • MP2P
    • Communication Model
      • Regular Based 
      • Event-Based 
      • Query Based 
  • Urban
    • Latency
      • It can be varied for different types of applications 
    • Network Scale
      • Max: 107
      • Subnetworks: 102 – 104
    • Traffic Pattern
      • P2P
      • P2MP
      • MP2P 
    • Communication Model
      • Regular 
      • Alarm Based 
      • Query Based 
  • Building Automation
    • Latency
      • Alarm and light control application: <250ms
      • Other applications: 10’s of seconds
      • Real-time
    • Network Scale
      • Typical: 10 – 1000 nodes
      • Max: 10000 nodes
      • Subnetworks: Up to 255 nodes
    • Traffic Pattern
      • P2P (30%)
      • P2MP (70%)
      • MP2P
    • Communication Model
      • Regular
      • Event-Based
      • Query Based 

So far, we have discussed the applications of Protocol RPL Simulation with their requirements. In addition, we can provide details about the parameters such as mobility, hops, and convergence range due to the variation of the protocol. Now, it’s time to discuss significant research ideas in the RPL protocol.

Research Ideas in Protocol RPL Simulation

  • Mobile Web Security and Privacy
  • Network Resilience in IoT 
  • Game-Theoretic Enhancement
  • Dynamic Resource Allocation
  • M2M Communication
  • Cyber Security
  • Network function virtualization
  • Network Security Analysis and Architecture 
  • Trends in Malicious Codes and Malware Analysis 
  • Routing Attacks and Mitigation Methods
  • Context-Aware Load Balancing
  • Cross-Layer Optimization and Design 
  • Multimedia Transmission
  • Cyber-Physical System Security

As a result of this page, we believe that you have received some knowledge about the RPL protocol. Our research experts assist with your Protocol RPL Simulation project topics such as the significant uses of methods and modifications in the protocols.

Related Topics

  • Network Intrusion Detection Projects
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