Emulated Virtual Environment Next Generation (EVE-NG) is used for the simulation of difficult networks and considered as an extensive network emulator. Including various devices from sellers such as Juniper, Cisco and others, we can employ it to emulate different network topologies. Particularly for training, presenting and experimenting motives, this serves as a perfect environment:
Project Plans for EVE-NG:
- Developing a Multi-Vendor Network Environment: Simulate real-time situations in which different techniques coincide by collaborating devices from various dealers like MikroTik, Juniper and Cisco into an individual network topology using EVE-NG.
- Security Lab Setup: To simulate different protection situations like VPN settings, intrusion detection frameworks and firewall configurations, create a network platform. In interpreting the troubleshooting and deployment of safety appliances in a network, this project is beneficial.
- Network Automation with Containers and gNMI: Through simulating network topologies with the help of containers, discover network automation. By offering practical experience with network automation tools, utilize Containerlab with EVE-NG to deploy network topologies which use gNMI for handling and configuration.
- IoT Network Simulation: For analyzing the interaction among IoT devices and the cloud, develop an IoT network platform with the assistance of EVE-NG. Simulating sensor data transmission beyond the network and configuring MQTT brokers and IoT gateways are the processes included in this project.
- SD-WAN Simulation: Interpret in what way SD-WAN technique enhances traffic flow throughout wide area networks by simulating an SD-WAN network. It consists of the tasks like implementing strategies for traffic routing, configuring SD-WAN controllers and establishing virtual WAN connections.
Tools and Resources for EVE-NG:
- Official EVE-NG Documentation: To interpret the aspects, installation procedure and the process of dealing with various network devices, begin by discovering the authorized documents and instructions that are offered by EVE-NG.
- Linux Image for EVE-NG: For simulating endpoints and servers inside our network topologies, importing a Linux host within EVE-NG is highly valuable. To offer a basis for a vast amount of network situations, The Network Berg provides advice on importing a Linux host.
- MikroTik RouterOS: By enabling the research of RouterOS aspercts and configurations into a virtual lab platform, combining MikroTik’s RouterOS within EVE-NG extends the simulation abilities.
- Containerlab and vrnetlab: To execute network devices in Docker containers, Containerlab and vrnetlab can be combined with EVE-NG especially for network automation projects. Through advanced protocols and tools, this setting promotes communication and automation with the network.
What are the research areas & problems used for EVE-NG network simulator?
The EVE-NG network simulator is certainly valuable in many ways such as cybersecurity tests, learning purposes, heterogeneous network projects and others. We provide a list of few unique applications and research fields that utilize EVE-NG excellently:
- Cybersecurity Experiments: For penetration testing training, susceptibility evaluations and hacking practical tests, the software is beneficial for constructing cybersecurity labs or cyber polygons. It is utilized for simulating actual network situations and cybersecurity threats in a controlled platform by assisting QEMU/KVM as well as IOL/Dynamips images.
- Educational Purposes: EVE-NG permits experts and students to experiment with virtual networks which imitate real-time situations and configurations. For network certification planning, it is also implemented broadly in training and online education.
- Heterogeneous Network Projects: To emulate networks from various producers, EVE-NG is honored for its strength. For learning heterogeneous networks in which various techniques and vendor devices coincide, it acts as an exceptional environment.
- Network Device Configuration and Testing: From crucial sellers such as Huawei, Juniper, Cisco, EVE-NG permits the testing and configuration of various network models and tools such as switches, firewalls and routers having the assistance for importing and changing different image setups.
- Network Automation and DevOps: By offering a setting for experimenting with software-defined networking (SDN) results, scripts and automation procedures, the environment can be combined with tools especially for DevOps experiences and network automation.
EVENG Network Simulator Project Topics
The experts at phdservices.org have shared a list of project topics for the EVENG Network Simulator. We are here to offer comprehensive support for your research endeavours. Implementing EVE-NG software for network simulation in a research or academic field can be both thrilling and demanding. By utilizing this network emulation software, we provide valuable guidance to scholars. The selection of tools for your research work will be tailored to your specific concept.
- An approximation algorithm for weak vertex cover problem in IP network traffic measurement
- Bayesian-based virtual network reconfiguration for dynamic optical networks
- A Reliable Hybrid Wireless Network Architecture for Smart Grid Neighbourhood Area Networks
- Topology Discovery for Telecommunications-carrier Networks using Equipment Alarms
- Design and simulation implementation of protection algorithms based on Network Coding in mesh networks
- Coverage-oriented pon planning with LTE networks deployed for power distribution communication network
- IPDAC: An Integrated IP Address Management Framework for Telecommunication Management Networks
- Performance Evaluation of Alternative Network Architectures for Sensor-Satellite Integrated Networks
- Experiments of operating mutiple virtual networks over IP-optical network
- Evolution of network configurations: High-level analysis of an operational IP backbone network
- Virtual data planes for easy creation and operation of end-to-end virtual networks
- On backup path activation to achieve differentiated dual-failure restorability in WDM mesh networks
- NFV orchestration over disaggregated metro optical networks with end-to-end multi-layer slicing enabling crowdsourced live video streaming
- The network service plane: An approach for inter-domain network reservations
- A high speed network interface card for optical burst switched networks
- Optical Transport Network Design for Inverse-Multiplexed 100 Gb/s Ethernet Services with Minimum Capacity and Buffer Requirements
- A novel approach using mutual information for critical nodes detecting in virtual networking environment
- Scalable Photonic Interconnection Network With Multiple-Layer Configuration for Warehouse-Scale Networks
- EARS: Intelligence-driven experiential network architecture for automatic routing in software-defined networking
- Resiliency in SD-WAN with eBPF Monitoring: Municipal Network and Video Streaming Use Cases
