WIRELESS BODY AREA NETWORK SIMULATION

Introduction of Wireless Body Area Network Simulation:  The wireless body area network is also called as medical body area network (MBAN), body sensor network (BSN), body area network (BAN), etc. It is the wireless network of wearable computing devices. In general, BAN is a technology for the process of logging and monitoring the health status of patients who are suffering from various diseases by attaching the sensor to the human body. The medical sensor is a huge network that accumulates the biological data of the patients.

Major Advantages in Wireless Body Area Network

           The following is about the uses of the wireless body area network process and it is useful for the research scholars to develop their research in wireless body area network simulation

• It is used to reduce the dimensions of the antennas with the miniaturization functions and it is used to analyze and model the systems over the IEEE 802.11g in the wireless networking protocol
• It is utilized in the registration process of human physiological functions
• The nodes in WBAN are used to locate the human body through the unknown clothing

Significant Modules in Wireless Body Area Network

Let us discuss the modules in the wireless body area network process with their functions as follows

Modules and their Uses

• Castalia
  • It is deployed in the improvement of radio models, mobility, wireless channels, etc
  • The accurate models are offered by the analyzed measurements with the path loss and the radio module includes the cc1000 and cc2420 parameters in various modulation schemes

Notable Plugins in Wireless Body Area Network

           Our research experts in wireless body area network simulation have listed out the significant uses in the plugins of wireless body area network

Plugins with their Functions

• Mobile Phone-Based Plugin Smart Cards
  • It is used to sense the medical data and provide accurate computing services and the storage of encrypted data
  • It is used to alter the keys in the medical sensor for the encrypted data transmission and it consists of the android phones and Java card applet along with the integration of smart card

Vital Classes in Wireless Body Area Network Simulation

           Hereby, we have been clarified the three major classes of wireless body area network simulation below but the research students may use numerous classes with the support of libraries. We can provide the in-depth analysis and implementation support for the selected class to develop your research

Classes with its Purposes

• IEEE 802156 Radio Model
  • It is related to the SNIR threshold value and it is used for the production of the media access control
• IEEE 802156 Routing
  • It is based on the WBAN standard Network routing process and it is the presentation of the medium access control

Integrated Tools in Wireless Body Area Network

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

Tools and its Uses

• Cloudsim
  • It is related to the Java tool for the cloud computing simulation process

Software Requirements in Wireless Body Area Network

           For your reference, we have listed down the important programming languages used in the wireless body area network simulation

Programming Languages in Wireless Body Area Network

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

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

OS Support in Wireless Body Area Network

• Ubuntu-18.04
• Windows-8 64 bit

The versions in wireless body area network are useful for the research scholars to update their knowledge. The versions are

Versions in Wireless Body Area Network

• OMNET++ 5.4.1
• NS-3.32
• NS-2.35

Novel Protocols in Wireless Body Area Network

           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 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

Required Parameters in Wireless Body Area Network

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

• 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 consumed through the node in the network

Topical Subjects in Wireless Body Area Network Simulation

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

• Internet in NS3 is used to identify the functions of the 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
• NS3 Wireless Body Area Network

Omnet Code Syntax in Wireless Body Area Network

           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(“<config><interface hosts=’*’ address=’192.168.x.x’ 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/

       }

Important Applications in Wireless Body Area Network

           Here, we have listed out the substantial applications in the wireless body area network simulation and we extend our support for other applications too

• Pressure Sensor
• Motion Sensor
• Insulin Injection
• Implanted Cochiear

Noticeable Algorithms in Wireless Body Area Network

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

• 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

Topmost Areas in Wireless Body Area Network         

We have listed down the most novel research areas and the implementation process in the wireless body area network simulation for the research scholars to get a quick grasp of the research subject

• Accelerometer
• Pacemaker
• Electrocardiography
• Heart Rate Monitor
• Sensor
• Clinical Thermometer
• Pulse Oximeter

Essential Metrics in Wireless Body Area Network Simulation

 Metrics are used for the evaluation process and we have listed down the significant metrics in the wireless body area network

• Packet Delivery Ratio
• Sensor Validation
• Packet Delay
• Data Quality
• Energy Efficiency
• Data Consistency

Significant Process in Wireless Body Area Network

Let us discuss the significant process used in the wireless body area network

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

Notable Steps in Wireless Body Area Network

Our research professionals in wireless body area network 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, remote access
• The BAN layer contains, the internal sensor, blood pressure sensor, EEG sensor, the pulse oximetry sensor
• The functions of the black box are to analyze, filter, collect and provide a decision for the remote access

Comparative Study in Wireless Body Area Network

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

QoS in Wireless Body Area Network

• Wireless Distance
• Central Controller Unit

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

QoE in Wireless Body Area Network

• 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

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