The impact of multimedia in day-to-day life and its applications will be increased greatly
with the proposed model (MSVPC)–5G Multicast SDN network eminence video transmission
obtained using PSO and cross layer progress in wireless nodes. The drone inspection and analysis
in a solar farm requires a very high number of transmissions ...
The impact of multimedia in day-to-day life and its applications will be increased greatly
with the proposed model (MSVPC)–5G Multicast SDN network eminence video transmission
obtained using PSO and cross layer progress in wireless nodes. The drone inspection and analysis
in a solar farm requires a very high number of transmissions of various videos, data, animations,
along with all sets of audio, text and visuals. Thus, it is necessary to regulate the transmissions of
various videos due to a huge amount of bandwidth requirement for videos. A software-defined
network (SDN) enables forwarder selection through particle swarm optimization (PSO) mode for
streaming video packets through multicast routing transmissions. Transmission delay and packet
errors are the main factors in selecting a forwarder. The nodes that transfer the videos with the
shortest delay and the lowest errors have been calculated and sent to the destination through the
forwarder. This method involves streaming to be increased with the highest throughput and less
delay. Here, the achieved throughput is shown as 0.0699412 bits per second for 160 s of simulation
time. Also, the achieved packet delivery ratio is 81.9005 percentage for 150 nodes on the network.
All these metrics can be changed according to the network design and can have new results. Thus,
the application of MSVPC- 5G Multicast SDN Network Eminence Video Transmission in drone
thermal imaging helps in monitoring solar farms more effectively, and may lead to the development
of certain algorithms in prescriptive analytics which recommends the best practices for solar farm
development.