A Channel aware routing protocol for underwater acoustic wireless networks
Title:- CARP: A Channel-aware routing protocol for underwater acoustic wireless networks
————————————————————————————————————————————————————-
Implementation Plan:
—————————————–
Step 1: We create an Underwater Wireless Sensor Network environment, consisting of 50-Sensor Nodes and 3-Sink.
Step 2: After constructing the network, the sink node performs the Hello packet transmission between the nodes and calculates the Hop count between the nodes.
Step 3: Next, Detect the link quality for perform the data transmission based on PING transmission with hop count
Step 4: Next, Based on PING transmission select the route by using CARP [ Channel-aware routing protocol]
Step 5: Read temperature data at the application layer. if the temperature data is less than 23 degree and greater than 27 degrees then create a data packet to transfer containing temperature data otherwise no action is required. and transfer to the sink node using the route generated by carp.
Step 6: Very the sink size and generate the graph for the parameters lik end to end delay, throughput,latency.
The observation should give the results in better output as compared to CARP.
One more addition to it is to use aquasim ng module with ns3 in software. Please add it.
=================================================================
#wireless
#sensornetworks
#underwateracoustics
#networksimulation
#channelmodeling
#acousticcommunication
#oceanengineering
#marinecommunication
#underwatercommunication
#simulationtechnology
#aquatictechnology
—————————————————————————————————————————————
Get an Ultimate solution for NS2 & NS3 requirements by our expert team.
The purpose of this ns3 simulation video is to provide valuable guidance in
addressing your analysis regarding the provision of assistance in selecting a
suitable topic for your ns3 simulation studies.
For research enquires:
visit us : https://ns3simulation.com/
mail us : [email protected]
reach us at : 9790238391 .
Comments are closed.