GROOVENET NETWORK SIMULATOR

     GROOVENET NETWORK SIMULATOR is a hybrid simulator, which enables communication between real vehicles, simulated vehicles and between real and simulated vehicles. It facilitates protocol design and in-vehicle deployment by modeling inter-vehicular communication with real street map based topography. It is a modular event based simulator with well defined model interfaces and GUI support.

We have implemented nearly 1000+ projects using Groove Net Simulator for students from various parts of the world. We offer complete support for assignment accomplishment, lab session programs and projects using Groovenet Network simulator. Our team of dynamic researchers and experts are always available to serve you to fulfill your project needs and requirements. Approach us with your project/assignment topic and get our complete aid to accomplish it with a ground breaking success. Now, let’s have a glance over few basics of Groove net simulator along with its recent research topics.

Requirements for developing GrooveNet projects
Linux Operating System:
  • SUSE: Linux distribution provider
  • Linux kernel 2.6
  • Latest version of Groove net supported in Ubuntu 1204.
Qt Graphics Library:
  • Required Qt 3.X graphic library
Applications of GrooveNet simulator:
  • V2V network protocols for rode safety and traffic congestion probing
  • Antenna Design and Channel Modeling
  • User interfaces and navigation
  • Autonomous vehicles
  • Artificial Intelligence and computer vision
  • Embedded systems and bus design applications
Latest Research topics for Groove-net Network simulator based projects
  • An efficient usage of geographical routing protocol also for extended wireless mesh network for VANET
  • The process of dynamic independent connectivity patterns also in VANET based on a bio-inspired artificial bee colony approach
  • A new mechanism also for Development of hybrid VANET routing protocol between buses and cars
  • A new method for Quantitative analysis also based on various safety centric based approaches in VANET
  • The process of Mitigating Doppler effects also based on physical-layer network coding in VANET
  • The efficient performance of VANET group integration also based on an efficient multiple session key establishment scheme
  • An efficient usage of BUCK Filter and also VANET Content Fragile Watermarking for Detection of impersonation attack in VANETs
  • A new technology also for an robust recursive ant colony optimization strategy in VANET for accident avoidance
  • The process of extended mobility management and also routing protocols for internet-to-VANET multicasting
  • A new technology also for an Estimating the upper bound of transmission capacity in linear VANET
  • The new mechanism for a TDMA-based MAC protocol to achieve high reliability of one-hop broadcast in VANET
  • A new technology a two level privacy preserving pseudonymous authentication protocol also for VANET
  • The new method for Bandwidth-aware breach-free barrier construction with VANET nodes also for real time fugitive search
  • Improve pedestrian safety in Black Spots also by using a hybrid VANET of vehicular and body sensors
  • The usage of Generalized Packet Loss Model also for an Analysis on Stochastic Broadcast Range in VANET

       We have provided few recent research topics for student’s reference. For further topic assistance also for your project, assignments or lab sessions, approach us through our online guidance service. We are pleasured to assist you with help of our dynamic research experts.