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Reduction of PAPR for STFBC MIMO F-OFDM using Enhancement Asymmetric Arithmetic Coding Scheme
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The advancement of mobile communications has rapidly expanded in recent years, with the invention of transmitting and receiving system technology. The use of multiple antennas, also known as Multiple-Input Multiple-Output (MIMO) technology, is a key feature in modern wireless communication systems such as 5G. MIMO utilizes multiple antennas at both the transmitter and receiver to improve the system's performance in terms of data rate, link reliability, and spectral efficiency. In this paper, a block coding technique, was deployed to enhance the reliability of data transmission and introducing redundancy and error correction capabilities. These techniques involve encoding data into blocks and adding redundancy bits, which allow the receiver to detect and correct errors that may occur during transmission. The encoding technique, called the Asymmetric Arithmetic Coder (AAC), and it is supported in 5G system to provide high speed signal transmission in multiple users’ environment. For retrieving a smooth signal at the receiver, a filter was introduced to improve its efficiency of the wireless link. However, the existing filter in the system, caused the increasing of the peak-to-average-power-ratio (PAPR) at the transmitter system. Thus, the block coding technique was implemented to increase the efficiency and reduced the power ratio. The most common block coding technique for wireless communication is AAC technique. The AAC technique was founded to reduce the power ratio and further improve the signal diversity. Recently, for the application of 5G, the AAC was enhanced by adding the number of symbol and improved the PAPR. It is called the Enhancement Asymmetric Arithmetic Coding (EAAC) technique. The EAAC contributes to the lower value of the PAPR. With the use of EAAC as the block coding technique, the transmitter is said to support the system and thus improved the PAPR measurements by 5.5%. Lastly, the reduction of PAPR contributes to minimize the distortion and enhanced spectral efficiency for wireless communication system.
Title: Reduction of PAPR for STFBC MIMO F-OFDM using Enhancement Asymmetric Arithmetic Coding Scheme
Description:
The advancement of mobile communications has rapidly expanded in recent years, with the invention of transmitting and receiving system technology.
The use of multiple antennas, also known as Multiple-Input Multiple-Output (MIMO) technology, is a key feature in modern wireless communication systems such as 5G.
MIMO utilizes multiple antennas at both the transmitter and receiver to improve the system's performance in terms of data rate, link reliability, and spectral efficiency.
In this paper, a block coding technique, was deployed to enhance the reliability of data transmission and introducing redundancy and error correction capabilities.
These techniques involve encoding data into blocks and adding redundancy bits, which allow the receiver to detect and correct errors that may occur during transmission.
The encoding technique, called the Asymmetric Arithmetic Coder (AAC), and it is supported in 5G system to provide high speed signal transmission in multiple users’ environment.
For retrieving a smooth signal at the receiver, a filter was introduced to improve its efficiency of the wireless link.
However, the existing filter in the system, caused the increasing of the peak-to-average-power-ratio (PAPR) at the transmitter system.
Thus, the block coding technique was implemented to increase the efficiency and reduced the power ratio.
The most common block coding technique for wireless communication is AAC technique.
The AAC technique was founded to reduce the power ratio and further improve the signal diversity.
Recently, for the application of 5G, the AAC was enhanced by adding the number of symbol and improved the PAPR.
It is called the Enhancement Asymmetric Arithmetic Coding (EAAC) technique.
The EAAC contributes to the lower value of the PAPR.
With the use of EAAC as the block coding technique, the transmitter is said to support the system and thus improved the PAPR measurements by 5.
5%.
Lastly, the reduction of PAPR contributes to minimize the distortion and enhanced spectral efficiency for wireless communication system.
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