Performance Analysis of Mobile Communication Simulation

Performance Analysis of Mobile Communication Simulation

The term mobile communication system refers to the system in which information has been transmitted through intelligent devices from one end to another end. Generally, mobile communication systems have reserved an eminent place in telecommunication technology. The devices interconnected to the networks are subject to wireless connections and they will become completely wireless within the ensuing decades. 

“This article provides you overall aspects enclosed in the mobile communication simulation concepts”

Contemporary development in the technologies with enormous services gear-ups to face contiguous issues challenges comprised in it. Hence it results in mobile communication system developments. This is the biggest reason to use the simulation concept here. Simulation helps us to visualize the faults that arise in it. Let us start this article with the objectives of mobile communication.

What are the Objectives of Mobile Communication?

  • To ensure reliable & smart communications over the network
  • To offer extended coverage throughout the network 
  • To assure the resource-constrained devices with effective energy efficiency 
  • To enhance the system with improved data rate & delay-free 

The aforementioned are the major objectives of mobile communication systems. On the other hand, innovative technologies are needed to develop communication systems. If it is applied then reliability and effective connectivity with the massive nodes will become possible.

Mobile communication systems have become more complex because it needs latency-free and effective mobile broadband. This could be obtainable by the link-level method which offers the measurement and analytical examinations. It also eliminates the limitations of mobile communication systems. It is aided with the numerical simulation methods which are very essential for examining wireless technologies and forecasting future generation technologies.

Simulation is the indispensable approach that needs to be followed in mobile communication systems. Since it clarifies the issues without being experimented. It helps us to compare the various variables to accommodate the model to achieve great performance. Along with this it incredibly identifies the material bottlenecks & flow of the model. In short, simulation models point out the issues and root cause problems to fix them before going to live.

As this article is titled with the mobile communication simulation, we wanted to give you an overview of the simulation in mobile communication systems for the ease of your understanding. Are you ready to move on further? Come let’s have the quick insights!

What is Simulation in Mobile Communication?

  • Simulator application of a computer recreates the VMware’s in the mobile devices
  • Mobile devices can be any kind of smart mobile phone i.e. Androids, iPhones
  • The simulator is also termed as the “Emulator”

Here, you might get confused about how do we simulate mobile communication systems. Don’t worry guys we’ve also covered this section with the same for your better understanding.

  • Make use of the programming languages such as JavaScript, Java & .NET
  • Design the regular scenarios & parameters for the simulation 
  • Obtain the results in the forms of BER / Spectral, Images, and Waveforms

As of now, we have enumerated the objectives & overview of mobile communication simulation with crystal clear points. Additionally, we have demonstrated the eminent aspects to simulate the mobile communication system. We hope that you would have understood the things till now covered. 

Our technical crew is always engaged in experiments and researches to inject innovations into the technology. This is because of our one of the main objectives is to offer incredible perspectives and ideas to the students in the fields of mobile communication and others. In this manner, we can have the next section with the mobile communication current trends.

Current Trends in Mobile Communication

  • Smart Networking & Protocol Models
  • Secured and Reliable Mobile Communication Networks
  • Trusted Green Computing & Delay-free Communication Systems 
  • Social Computing & Networking for Urban Area Development
  • QoE & QoS in Mobile Communication 
  • Edge & Cloud 
Mobile Computing
  • Deep Learning & Machine Learning for Resource Controlling
  • Smart Resource Distribution & Management
  • Structural Design of the Mobile Communication Systems

The aforesaid are some of the important current trends involved in mobile communication systems. These trends can be accompanied by simulation tools to perform their best in the areas of wireless communications. There are 5 tools mainly used in the mobile communication simulation.

Usually, our researchers are familiar with these tools and proficient in handling them same. By conducting various researches and experiments they know the application of the tools which could fit for every simulation. We are successfully yielding the best results by deploying exact tools. Let’s talk about the tools used in the mobile communication with clear explanations.

Top 5 Mobile Communication Simulation Tools

Top 5 Important Mobile Communication Simulation Tools

  • NetSim
    • Code-Division Multiple Access/CDMA & Global System for Mobile Communication / GSM comprised in this tool
    • These standards ensure the data transmission from one end to another end
    • It offers broad wireless exposures such as LTE, IoT, 5G & Wi-Fi, etc.,  
  • NYU Wireless
    • It is an open-source simulator of the 5G & 6G channel models
    • Examples of modeling elements are penetration loss in both outdoor-to-indoor, human blockage & spatial ratio (NYUSIM 2.0)
    • It helps to handle the mmWave, circuit models, distributed networking & signals
    • Deploys the improved mobile system designs to model the channel, propagate the messages (radio) & enhance the countermeasures
  • Ansys
    • High fidelity 3D EM are communicated with the electromagnetic Ansys simulations 
    • Thermo powered stress, antenna models & geometric deviations analysis are supported here
    • Throughout, consistency & effective antenna ranges obtained through the interconnected workflow
    • It also considers the effective power consumption, power and signal reliability, and the aerial configurations with results
    • Example, improved I/O bandwidth, increased power density, and data rates 
  • MATLAB
    • MATLAB computes the mobile communication simulation
    • It simulates the analog or mixed-signal processing of the multi-domain models
    • Executes the user protocols, radio signals & (OFDM) orthogonal frequency division multiplexing transmission
  • OPNET
    • It examines the nodes of each end by the simulation level approach
    • Protocols, devices & models can dynamically perform in a virtual environ
    • Processes of the model are determined by analyzing features & debugging code
    • PAN, LAN & Mobile Ad Hoc Networks are supported with modeler wireless 

The above listed are some of the major tools used in the mobile communication simulation. We hope that you would have understood the things as of now listed. If you still any clarifications in this area you can also approach our expert to sort out your doubts. We demonstrate the students with the graphical representations which will ensure a clear understanding.

Here, we felt that mentioning the latest simulators list will help you more. Thus we have covered the next section following the latest mobile communication simulators to update you. It is one of the important sections of the article so that we are advising you to pay your concentration in this area. Shall we get into that next phase guys? Come let’s try to understand them with clear bulletins.

Latest Mobile Communication Simulators

  • Vienna 5G LL Simulator
    • Waveforms: WOLA, UFMC, FBMC, F-OFDM/CP-OFDM
    • Languages: C / C++ 
  • Open Air Interface
    • Waveforms: OFDM
    • Languages: C
  • NS3 Simulation
    • Waveforms: PHY Model
    • Languages: Python & C++
  • GTEC 5G LL Simulator
    • Waveforms: FBMC & OFDM
    • Languages: C / C++ 

The listed above are some of the latest mobile communication simulators. Our technical crew is very much familiar with these latest simulators. We are offering our projects and researches according to these simulators. Simulation is subject to various parameters. In the upcoming passage, we are going to give you the mobile communication simulation parameters for the ease of your understanding.

Simulation Parameters for Mobile Communication

  • Transport & Application
    • Considers size of the packet with a flow
  • Routing
    • Network traffic routed by “static routing”
  • Link Layer
    • Determines the queue size policies
  • MAC
    • Basic & auto rate fallbacks (802.11b) 
  • Physical
    • Involves in the communication range, antennas height/gain, error model & propagation 
  • Mobility
    • Steps out the data packet movements in communication
  • Statistics
    • Determines the broadcast duration and the no. of samples

The previous passage has revealed to you the eminent parameters that determine the mobile communication simulation. These explained points showcase our potentials here. This is possible by having sound knowledge in every aspect of the simulation. We are especially good at doing mobile communication projects and researches. If you need any assistance in these areas you can approach our technical team to avail the best suggestions.

Along with these simulation parameters, we are going to point out the mobility models for the mobile communication systems for the ease of your understanding. They are branched in group and entity models respectively. Let’s have further explanations in the following passage. Come on enthusiasts lets we grab them.

Mobility Models for Mobile Communication

  • “Group” Mobility Models
    • Nomadic Community 
    • Reference Point Group
    • Purse & Column Models
    • Exponential Correlated Random
  • “Entity” Mobility Models
    • Boundless Simulation Area
    • City Section Models
    • Random Walks’ Probability Version
    • Gauss Markov & Random Direction
    • Random Way Point Models  

The aforementioned are the 2 important mobility models for mobile communication. We need to consider several aspects while applying these mobility models. We know that you might need brief explanations here. Our technical crew has covered the immediate section as the same.

  • City Section
    • Protocol model for a city walk
  • Probabilistic Random Walk
    • Parameters selection according to the real-time
  • Gauss-Markov
    • Reliable & accurate model
  • Random Direction 
    • Inaccurate model & a kind of random walk 
  • Boundless Simulation
    • Inaccurate radio propagation & neighborhood conditions
  • Random Waypoint
    • Museum & conference scenarios
  • Random Walk
    • Large & small input parameters

The above listed are some of the important aspects that need to be considered in the application of the mobility model. They are categorized into 3 types. Come let’s have further explanations in the following passage.

Channel Models for Mobile Communication

  • Standard Channel Model
    • 3GPP 3D & Spatial
    • Cost & SUI
    • Random Cluster
    • IEEE 802.16d / 802.11n 
  • Physical Model
    • Geometric Models
      • Elliptical
      • 2 Ring & 1 Ring Model
    • Non-geometrical Models
      • Zwick
      • Saleh and Extended Valenzuela
  • Deterministic Models
    • Stored and Ray Tracking
  • Analytical Model
    • Space-Time Coding
    • Maximum Entropy
    • Finite Scatterer
    • Structured & Run Surface
    • Diagonal Decorrelation
    • Virtual Representations
    • Weichsel Berger & I.I.D 
    • Kronecker

Radio channel models are one of the important models of mobile communication. Signal transmission of the radio is determined by several paradigms as mentioned below. We need to consider several application measures while undertaking the stochastic radio channel model. Are you ready to know about that? Yes, we know that you are interested. Come let’s have clear points.

  • Transceiver Features
    • Aerial Configuration
    • Velocity Rate & Routing Path
    • Dispersion Propagation & Fluctuations
    • Short Term Fluctuations
  • Fast Fading
    • Long Term Fluctuations
    • Drift Directions & Delay
    • Transitions & Shadowing
    • Path Loss
  • Multi-path Propagation
    • Polarization
    • Scattering Function
    • Incidence Direction
    • Doppler Shift
    • Average Power 
  • Operation Scenario Parameters 
    • Environ Types
    • Range Frequencies
    • Bandwidth

These are the models and the considerations that need to be taken into account while applying any model as mentioned. As of now, we have discussed all the possible areas that get covered in the mobile communication models. In the following section, we have listed the emerging technologies of mobile communication systems.

Mobile Communication based Technologies

  • Mixed Numerology & Multicarrier Transmission (MNMT)
  • UAV oriented Satellite Networks (HAPs, LAPs & LEO / GEO)
  • Heterogeneous Terrestrial Networks (HTN)
  • Millimeter Wave Transmission (mmWave)
  • Non-orthogonal Multiple Access (NOMA)
  • Beamforming in Massive Multiple Input Multiple Output (MIMO) 
  • Full-Dimension Beamforming (2D/3D)
  • Ultra-reliable & Low-latency Communication (URLLC)
  • Massive Machine Type Communication (mMTC)
  • Enhanced Mobile Broadband (eMBB)

The above mentioned are some of the recent technologies of mobile communication. Our technical crews are masters in these technologies. By offering continuous projects and researchers we know every technical update. In this regard, let us also have a quick insight into the future concepts in mobile communication systems.

Future Concepts in Mobile Communication
  • Digital Batteryless Telecommunication Systems
  • 3G, 4G & 5G Mobile Technologies
  • WLAN- Wireless Local Area Networks
  • Improved Satellite Mobile Communication Systems
  • Local Loops in Wireless Communication Systems
  • Trunking Mobile Communication Systems
  • IS-95 Mobile Communication Systems
  • Code-Division Multiple Access (CMDA) in Communication Systems
  • Global System for Mobile Communication (GSM) Data Transmission

These are the several futuristic concepts of the mobile communication system. We hope that this article will help you a lot to explore more in this area. Mobile communication simulation is one of the wide areas which offer us to do various researches and projects. It is absolutely a promising area to be sure. Come let’s hold our hands to revolute the world.

Live Tasks
Technology Ph.D MS M.Tech
NS2 75 117 95
NS3 98 119 206
OMNET++ 103 95 87
OPNET 36 64 89
QULANET 30 76 60
MININET 71 62 74
MATLAB 96 185 180
LTESIM 38 32 16
COOJA SIMULATOR 35 67 28
CONTIKI OS 42 36 29
GNS3 35 89 14
NETSIM 35 11 21
EVE-NG 4 8 9
TRANS 9 5 4
PEERSIM 8 8 12
GLOMOSIM 6 10 6
RTOOL 13 15 8
KATHARA SHADOW 9 8 9
VNX and VNUML 8 7 8
WISTAR 9 9 8
CNET 6 8 4
ESCAPE 8 7 9
NETMIRAGE 7 11 7
BOSON NETSIM 6 8 9
VIRL 9 9 8
CISCO PACKET TRACER 7 7 10
SWAN 9 19 5
JAVASIM 40 68 69
SSFNET 7 9 8
TOSSIM 5 7 4
PSIM 7 8 6
PETRI NET 4 6 4
ONESIM 5 10 5
OPTISYSTEM 32 64 24
DIVERT 4 9 8
TINY OS 19 27 17
TRANS 7 8 6
OPENPANA 8 9 9
SECURE CRT 7 8 7
EXTENDSIM 6 7 5
CONSELF 7 19 6
ARENA 5 12 9
VENSIM 8 10 7
MARIONNET 5 7 9
NETKIT 6 8 7
GEOIP 9 17 8
REAL 7 5 5
NEST 5 10 9
PTOLEMY 7 8 4

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