Wireless Body Area Network Simulation

Wireless Body Area Network Simulation

Overview of Wireless Body Area Network

          The wireless body area network is denoted in various names such as medical body area network (MBAN), body sensor network (BSN), body area network (BAN) and etc. It considered as the wireless network including the wearable computing devices. As the matter of fact, body area network is a technology that is used for logging and observing the health status of the patients and the patient might be suffer from various diseases through attaching the sensor in the human body. The medical sensor is a massive network and it is used to accumulate the biological data of the patients. In healthcare platform, the radio frequency identification and body area networks are utilized.

Usage of Wireless Body Area Network Simulation

          Mainly, the body area network is functional to learn the transition and dynamics of the disease based on the limitations in antenna design. The techniques such as antenna miniaturization are used to reduce the dimension of antenna.

          In the following, our research professionals have enlisted the uses of the wireless body area network simulation process and it is beneficial for the research scholars to develop their research in wireless body area network simulation process.

  • Mobility requests
  • The WBAN users will always move around and the nodes based on WBAN are used to share the similar mobility pattern as per the external gateway. Body sensors used to provide some signals and that are managed to the central point
  • Easy access and comfort
  • Nodes in wireless body area network are placed in human body might be hidden under clothing with some tactics. This process includes the non-invasive sensors which is small in size and cost effective
  • Real time processing
  • It is used to register the physiological activities and actions of human beings in real time. This application is capable to enhance the energy consumption and reliability

Vital Modules in Wireless Body Area Network Simulation

         Let us take a look into the significant modules in the wireless body area network simulation process along with their significance in the following.

  • Castalia
  • It is considered as the developing radio models, mobility and particular wireless channels in BAN. The test bed includes some channel measurements with the combination of simulators. Radio modules includes the transceiver parameters with the assistance of various modulation schemes such as
  • Differential quadrature phase shift keying (DQPSK)
  • Differential binary phase shift keying (DBPSK)
  • Phase shift keying (PSK)
  • Frequency shift keying (FSK)
  • WBAN
    • It is denoted as the realistic channel models that are related to the measurement campaign in both the BBN and BAN. It provides some protocols, realistic performance, algorithms and etc.

Prominent Plugins in Wireless Body Area Network Simulation

           Our research experts in wireless body area network simulation have highlighted the list of substantial uses about the plugins in the wireless body area network simulation.

  • Plugin test approach and smart cards
    • It is deployed to sense and process the secure medical data with the provision of the exact computing area and storing the encrypted data. The smart cards are functional to exchange the keys with medical sensors with the beck end colour to send and receive the data based on encryption. It includes two elements with smart card integration such as
  • Two android phones
  • JavaCard applet

Dynamic Classes in Wireless Body Area Network Simulation

          In addition, our research experts have been enlisted the major classes based on wireless body area network simulation in the following along with that the research scholars can use various other classes that are apt for the simulation process in WBAN.

  • IEEE 802156 radio model in OMNeT++
    • It is deployed as the implementation of medium access control as the sub layer with some specifications in the 802.15.6 WBAN standard based radio model process and snir threshold value process
  • IEEE 802156 routing OMNeT++
    • It includes the implementation of MAC sub layer process in the parallel 802.15.6 WBAN standards of routing process

Integrated Tools in Wireless Body Area Network Simulation

           Our technical experts have lots of experience about the integrated tools and their functions for more reference you can contact us for the wireless body area network simulation implementation. Here, the tools are highlighted below.

  • Integration of cloudsim
    • It is denoted as the Java based tool for the cloud computing simulation process with the integration

Programming Languages in Wireless Body Area Network Simulation

           For your reference, we have listed down the important programming languages used in the implementation of wireless body area network simulation based projects.

  • OMNeT++
    • INI
    • NED
    • C++
  • Ns3
    • Python
    • C++
  • Ns2
    • TCL
    • C++

OS Support in Wireless Body Area Network Simulation

           The notable operating systems in wireless body area network simulation are listed below. And we extend our support for all your requirements based on research.

  • Ubuntu – 18.04
  • Windows – 8 (64 bit)

Tools Versions in Wireless Body Area Network Simulation

         The tools versions in wireless body area network simulation are beneficial for the research scholars to update their research project implementation and the versions are enlisted below.

  • OMNeT++ 5.4.1
  • Ns 3.32
  • Ns 2.35

Typical Protocols in Wireless Body Area Network Simulation

          Our research professionals are well versed in all the protocols and we provide support for your selected research protocols. Here, we have listed the significant protocols used in wireless body area network simulation.

  • QOS based routing
    • DMQoS
    • QoS framework
    • LocalMor
    • RL-QRP
  • Temperature based routing
    • ALTR
    • TSHR
    • TARA
    • LTR
  • Cluster based routing
  • Poster based routing
  • Cross layer routing
    • TICOSS
    • BIOCOMM
    • WASP
    • CICADA

Essential Parameters in Wireless Body Area Network Simulation

           Generally, parameters are used for the evaluation process in the research projects. Thus, the research experts have highlighted the notable parameters in the wireless body area network simulation.

  • Control overhead
    • It is utilized to measure the packet transmission
  • Network lifetime
    • It is used to calculate the amount of energy consumed in the network node
  • Energy consumption
    • It is based on the consumption of energy through the node in network and measured through the joules

Subjects Based Modules in Wireless Body Area Network Simulation

        The following is about the research subjects with the supportive tools in the wireless body area network simulation.

  • Internet in NS3 is used to identify the functions of internet
  • Simulation in OMNET++ is utilized as the collection of 4G communication
  • Queue in NS2 is used to design the packet transmission queue
  • Lr-wpan in NS3 is used to present the Simulation in WPAN

Key Syntax in Wireless Body Area Network Simulation

        For your reference, the research experts have listed down the significant syntaxes used in the wireless body area network simulation.

network WBA_NW
{
submodules:
Body_Sensors1: Body_Sensors {
parameters:
@display("p=181,92;i=device/
}
Body_Sensors2: Body_Sensors {
parameters:
@display("p=376,555;i=device/
}
channelControl: ChannelControl {
parameters:
@display("p=1,1;is=vs");
}
configurator: IPv4NetworkConfigurator

{ config = xml(" netmask='255.255.0.0'/> @display("p=140,50");
}
Environment_Sensors1:
Environment_Sensors {
@display("p=397,199;i=device/
}
Environment_Sensors2:
Environment_Sensors {
@display("p=486,505;i=device/
}
internetCloud: InternetCloud {
@display("p=946,366;i=device/
}
Periodic_Sink: Periodic_Sink {
@display("p=729,494;i=device/
}
Emergency_Sink: Emergency_Sink {
@display("p=711,280;i=device/
}

Significant Applications in Wireless Body Area Network Simulation

           In the following, we have listed out the substantial applications in the wireless body area network simulation and we extend our support for other applications in this area.

  • Pressure sensor
  • Motion sensor
  • Insulin injection
  • Implanted cochiear

Foremost Algorithms in Wireless Body Area Network Simulation

         In wireless body area network simulation, there are several algorithms but we have listed only few for your reference and for the development of the project.

  • Unsupervised learning algorithm
    • Dimensionality reduction
  • PCA
  • ICA
  • SVD
    • Clustering
  • Hierarchical
  • Fuzzy c means
  • K Means
  • Supervised learning algorithm
    • Classification
  • ANN
  • SVM
  • Random Forest
  • Decision Trees
  • Bayesian
    • Regression
  • Reinforcement learning algorithm
    • Q Learning
  • Semi supervised learning algorithm

Topical Areas in Wireless Body Area Network Simulation

        We have listed down the innovative research areas and the implementation process in the wireless body area network simulation for the research scholars to get a quick grasp over the research subjects.

  • Accelerometer
  • Pacemaker
  • Electrocardiography
  • Heart rate monitor
  • Sensor
  • Clinical thermometer
  • Pulse Oximeter

Substantial Metrics in Wireless Body Area Network Simulation

         As a matter of fact, metrics are used for the evaluation process and we have listed down the significant metrics in the wireless body area network simulation.

  • Packet delivery ratio
  • Sensor validation
  • Packet delay
  • Data quality
  • Energy efficiency
  • Data consistency

Important Process in Wireless Body Area Network Simulation

           Let us discuss about the significant processes that are used in the wireless body area network simulation.

  • The internet provides the network to the Bluetooth and GPRS
  • The network coordinator and temperature offers the motion, SpO2 and ECG sensor for the body area network

Major Steps in Wireless Body Area Network Simulation

          Our research professionals in wireless body area network simulation have listed down the step involved in the process of the wireless body area network simulation projects implementation

  • In this process there are four layers such as BAN, user interaction interface, black box and remote access
  • The BAN layer contains, the internal sensor, blood pressure sensor, EEG sensor and pulse oximetry sensor
  • The functions of the black box are to analyze, filter, collect and provide decision for the remote access

QOS in Wireless Body Area Network Simulation

          Let us discuss about the quality of service which is used to produce the best results in wireless body area network simulation.

  • Wireless distance
  • Central controller unit

QOE in Wireless Body Area Network Simulation

         Hereby, we have highlighted the quality of experience of the wireless body area network simulation.

  • Decoding quality
  • Coding quality
  • Performance of display
  • Usability of controller
  • Home network quality
  • Functionality of menu
  • Recording quality

Routing Protocols in Wireless Body Area Network Simulation

         Our research experts have highlighted the routing used in the wireless body area network simulation for instance real time routing algorithm.

  • Cross layer routing protocols
  • Security aware routing protocols
  • Thermal aware routing protocols
  • Postured based routing protocols
  • Cluster based routing protocols
  • Qos aware routing protocols

Hottest Project Topics in Wireless Body Area Network Simulation

           At the end of this article, our experienced research professionals have enlisted the research projects titles with the appropriate implementation process in the wireless body area network simulation using the screenshots. Additionally, the research scholars can contact us for their research needs.

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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