Band Width And High Speed Of Satellite Internet
Satellite internet refers to internet accessed through satellites.
Users all over the world can access this package through the Low Earth Orbit.
Although the geostationary offer higher data speed, their signals cannot get to some polar regions.
Different types of these systems have an extensive collection of diverse characteristics and technical restrictions.
This creates an impact on their effectiveness in terms of signal latency.
Latency refers to the delay of data processing to when a feedback is given.
Compared to the ground based communication, geostationary ones have a higher latency.
This is because a signal in a geostationary orbit has to travel 35,786 kilometres to it and back to the earth.
In any case, the radio signals would still take about 250 milliseconds to travel to it and back to the ground even if all other delays are eliminated.
Latency leads to inapplicable use of the service for applications requiring urgent user input for example online games.
In addition, when dealing with interactive applications such as video conferencing, it can be sometimes annoying and can lead to the failure of most general market applications.
Due to apparent delays in answering questions, geostationary links, are avoided for voice calls.
This is because these delays make the listener to have doubt and hence creating mistrust between the parties.
In geostationary orbits, latency cannot be done away with.
However, a series of techniques for achieving better throughput can be applied in communications.
These techniques form the Transmission Control Protocol acceleration features and they shorten the round trip time per packet.
They achieve this by splitting the feedback circle between the sender and the receiver.
In Medium Earth Orbits and Lower Earth Orbit, such great delays do not exist.
Rainfall also affect signal transmission.
On the lower frequency bands, the effects are minor but quite rigorous on the higher frequency band.
The band that has a globular polarization one is used in humid areas with intense rain.
Increasing the size of communication dish can assist to reduce the duration during which the connection is lost.
This means that the signal on the lower link is intensified and also a more intensity on the upper link.
The presence of a clear line of sight between the it and the dish is of great importance.
The signal is always subject to absorption and is sometimes scattered by moisture.
Furthermore, the presence of vegetation in the signal path also creates a great impact on the signal.
In areas where there is limited open sky for signal reception, the effectiveness of the dish becomes limited by the fact that the radio signal width between any two antennas is not straight and uniform.
This is because from the transmitting antenna, the signal widens towards the centre point of the two antennas and finally narrows when getting to the receiving antenna.
Individual home users and large remote business sites comprise the customers of this package.
The former prefer shared capacity in an attempt to reduce cost.
They simultaneously allow high peak bit rates in the absence of jam.
Restrictive time based bandwidth allowances are set to enhance fairness in terms of payment.
This implies that when a user exceeds the Megabytes allowances, his/her accessibility is slowed down and can be charged.
Users all over the world can access this package through the Low Earth Orbit.
Although the geostationary offer higher data speed, their signals cannot get to some polar regions.
Different types of these systems have an extensive collection of diverse characteristics and technical restrictions.
This creates an impact on their effectiveness in terms of signal latency.
Latency refers to the delay of data processing to when a feedback is given.
Compared to the ground based communication, geostationary ones have a higher latency.
This is because a signal in a geostationary orbit has to travel 35,786 kilometres to it and back to the earth.
In any case, the radio signals would still take about 250 milliseconds to travel to it and back to the ground even if all other delays are eliminated.
Latency leads to inapplicable use of the service for applications requiring urgent user input for example online games.
In addition, when dealing with interactive applications such as video conferencing, it can be sometimes annoying and can lead to the failure of most general market applications.
Due to apparent delays in answering questions, geostationary links, are avoided for voice calls.
This is because these delays make the listener to have doubt and hence creating mistrust between the parties.
In geostationary orbits, latency cannot be done away with.
However, a series of techniques for achieving better throughput can be applied in communications.
These techniques form the Transmission Control Protocol acceleration features and they shorten the round trip time per packet.
They achieve this by splitting the feedback circle between the sender and the receiver.
In Medium Earth Orbits and Lower Earth Orbit, such great delays do not exist.
Rainfall also affect signal transmission.
On the lower frequency bands, the effects are minor but quite rigorous on the higher frequency band.
The band that has a globular polarization one is used in humid areas with intense rain.
Increasing the size of communication dish can assist to reduce the duration during which the connection is lost.
This means that the signal on the lower link is intensified and also a more intensity on the upper link.
The presence of a clear line of sight between the it and the dish is of great importance.
The signal is always subject to absorption and is sometimes scattered by moisture.
Furthermore, the presence of vegetation in the signal path also creates a great impact on the signal.
In areas where there is limited open sky for signal reception, the effectiveness of the dish becomes limited by the fact that the radio signal width between any two antennas is not straight and uniform.
This is because from the transmitting antenna, the signal widens towards the centre point of the two antennas and finally narrows when getting to the receiving antenna.
Individual home users and large remote business sites comprise the customers of this package.
The former prefer shared capacity in an attempt to reduce cost.
They simultaneously allow high peak bit rates in the absence of jam.
Restrictive time based bandwidth allowances are set to enhance fairness in terms of payment.
This implies that when a user exceeds the Megabytes allowances, his/her accessibility is slowed down and can be charged.
