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Future networks must provide significantly greater capacity than they do now in order to handle the growing traffic demands of users and new applications while maintaining service quality. (QoS).
It will be challenging for network operators to provide Internet service while maintaining the QoS for users in remote or other difficult-to-serve places.
A satellite network could be able to solve this problem. Because of their extensive coverage and dependable connections, broadband satellite networks have grown to play a significant part in total communication. Other hard-to-reach places can receive communication services through the satellite network at a reasonable rate.
The Internet of Things (IoT), among other things, has been playing a significant role in this sector. In this essay, the use of the Internet of Things for monitoring the marine environment is reviewed.
The applications of new technology, such as sophisticated Big Data analytics, in this field are briefly reviewed. It also covers the main obstacles to and prospects for study in this field, including the possible use of IoT and Big Data in protecting the marine environment.
Inherent characteristics such a long propagation delay and use of a higher frequency need be handled in the satellite network to meet the QoS. The technology required to satisfy users of the satellite network with Internet services has been the subject of extensive research.
In order to ensure QoS connections via multi-frequency time division multiple access (MF-TDMA) satellite systems, a resource allocation approach with a packing mechanism was presented.
The authors took into account class-based weighted fair queuing with IP QoS, on-the-move (OTM) terminals, and mesh satellite networking with turbo coding.
The Global Marine broadband QoS system Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
A group of technologies known as quality of service (QoS) operate on a network to ensure that high-priority traffic and applications may reliably run over constrained network capacity.
By offering differentiating treatment and capacity allocation to particular network traffic flows, QoS systems achieve this. This gives the network administrator the ability to choose the bandwidth allotted to that application or traffic flow as well as the order in which packets are treated.
The satellite network’s coverage, broadcasting capabilities, cost independence from distance, and simplicity of setup make it ideal for a variety of applications.
Recently, the high throughput satellite system with mesh connections has been deployed to the Internet backbone thanks to advancements in satellite communication technology.
Providers serving specialised industries like oil and gas exploration, maritime, and mining, or anywhere reliable managed networks are required and sites are frequently remote, are especially well-suited for Hughes High QoS Service.
Additionally, it’s a perfect, always-on backup network solution for businesses who can’t risk network failures caused by the weaknesses of terrestrial networks, such as cable breaks or natural disasters.
Without having to invest in network equipment up front, Hughes High QoS Service enables operators to deploy a variety of services, from a single high-throughput circuit or trunk to customised private networks that support value-added applications like VoIP and video.
