| 5 |
| 5G | SimuLTE-MEC: Extending SimuLTE for Multi-Access Edge Computing |
| a |
| Ad hoc | Cross-layer Stack Design Framework in OMNeT++ |
| Aeronautical communications | Simulating LISP-Based Multilink Communications in Aeronautical Networks |
| Analysis of Communication Networks | Teaching Modelling and Analysis of Communication Networks using OMNeT++ Simulator |
| b |
| background service | ResourSim – Evaluating the end-user Device usage |
| Battery | ResourSim – Evaluating the end-user Device usage |
| Blockchain | An Integrated Framework for Fog Communications and Computing in Internet of Vehicles |
| Bluetooth | ResourSim – Evaluating the end-user Device usage |
| c |
| Chord | An Integrated Framework for Fog Communications and Computing in Internet of Vehicles |
| CMM | Community-based Mobility Model and Probabilistic ORBIT Mobility Model Implementations in OMNeT++ |
| cross-layer | Cross-layer Stack Design Framework in OMNeT++ |
| d |
| Device usage | ResourSim – Evaluating the end-user Device usage |
| e |
| Epidemic Flooding based | An Integrated Framework for Fog Communications and Computing in Internet of Vehicles |
| f |
| Fog Communications and Computing | An Integrated Framework for Fog Communications and Computing in Internet of Vehicles |
| Framework | Cross-layer Stack Design Framework in OMNeT++ |
| g |
| gPTP | A Simulation Model of IEEE 802.1AS gPTP for Clock Synchronization in OMNeT++ |
| h |
| human factor | ResourSim – Evaluating the end-user Device usage |
| i |
| INET | Towards evaluating Named Data Networking for the IoT: A framework for OMNeT++ |
| Information Centric Networking | Towards evaluating Named Data Networking for the IoT: A framework for OMNeT++ |
| Internet of Things | Towards evaluating Named Data Networking for the IoT: A framework for OMNeT++ |
| Internet of Vehicles | An Integrated Framework for Fog Communications and Computing in Internet of Vehicles |
| j |
| Java | jUDPWrapper: A Lightweight Approach to Access the OMNeT++/INET UDP Functionality from Java |
| JNI | jUDPWrapper: A Lightweight Approach to Access the OMNeT++/INET UDP Functionality from Java |
| l |
| Lisp | Simulating LISP-Based Multilink Communications in Aeronautical Networks |
| LTE | SimuLTE-MEC: Extending SimuLTE for Multi-Access Edge Computing |
| m |
| MEC | SimuLTE-MEC: Extending SimuLTE for Multi-Access Edge Computing |
| mobile phone | ResourSim – Evaluating the end-user Device usage |
| Multi-access Edge Computing | SimuLTE-MEC: Extending SimuLTE for Multi-Access Edge Computing |
| n |
| Named Data Networking | Towards evaluating Named Data Networking for the IoT: A framework for OMNeT++ |
| network coding | An Integrated Framework for Fog Communications and Computing in Internet of Vehicles |
| network simulation | jUDPWrapper: A Lightweight Approach to Access the OMNeT++/INET UDP Functionality from Java |
| o |
| OMNeT simulator | Teaching Modelling and Analysis of Communication Networks using OMNeT++ Simulator |
| OMNeT++ | jUDPWrapper: A Lightweight Approach to Access the OMNeT++/INET UDP Functionality from Java
SimuLTE-MEC: Extending SimuLTE for Multi-Access Edge Computing
Simulating LISP-Based Multilink Communications in Aeronautical Networks
Migration from SERCOS III to TSN - Simulation Based Comparison of TDMA and CBS Transportation
Towards evaluating Named Data Networking for the IoT: A framework for OMNeT++ |
| Oppnets | Community-based Mobility Model and Probabilistic ORBIT Mobility Model Implementations in OMNeT++ |
| opportunistic network | ResourSim – Evaluating the end-user Device usage |
| orbit | Community-based Mobility Model and Probabilistic ORBIT Mobility Model Implementations in OMNeT++ |
| p |
| probabilistic ORBIT | Community-based Mobility Model and Probabilistic ORBIT Mobility Model Implementations in OMNeT++ |
| r |
| rare event | Rare event analysis using the Limited Relative Error algorithm for OMNeT++ simulations |
| real-time | A Simulation Model of IEEE 802.1AS gPTP for Clock Synchronization in OMNeT++ |
| resources | ResourSim – Evaluating the end-user Device usage |
| s |
| SERCOS III | Migration from SERCOS III to TSN - Simulation Based Comparison of TDMA and CBS Transportation |
| simulating OppNets | Community-based Mobility Model and Probabilistic ORBIT Mobility Model Implementations in OMNeT++ |
| simulation result analysis | Rare event analysis using the Limited Relative Error algorithm for OMNeT++ simulations |
| SimuLTE | SimuLTE-MEC: Extending SimuLTE for Multi-Access Edge Computing |
| stack | Cross-layer Stack Design Framework in OMNeT++ |
| statistical evaluation | Rare event analysis using the Limited Relative Error algorithm for OMNeT++ simulations |
| synchronization | A Simulation Model of IEEE 802.1AS gPTP for Clock Synchronization in OMNeT++ |
| synthetic mobility models | Community-based Mobility Model and Probabilistic ORBIT Mobility Model Implementations in OMNeT++ |
| t |
| teaching | Teaching Modelling and Analysis of Communication Networks using OMNeT++ Simulator |
| TSN | Migration from SERCOS III to TSN - Simulation Based Comparison of TDMA and CBS Transportation |
| u |
| UDP | jUDPWrapper: A Lightweight Approach to Access the OMNeT++/INET UDP Functionality from Java |
| w |
| WiFi | ResourSim – Evaluating the end-user Device usage |
| wireless networks | Towards evaluating Named Data Networking for the IoT: A framework for OMNeT++ |
