Description: Iterative Solutions is committed to the mission of developing accurate and efficient software for the simulation of modern communication systems. All software is licensed as open source software under the Lesser GPL. The code is designed to run in matlab, though the compute-intensive portions are written in C and Java. A wide variety of error control codes are supported, including turbo and LDPC codes, and an emphasis is placed on nonbinary modulation formats such as QAM and nonbinary continuous-phase FSK. The software goes beyond the usual error rate analysis by including tools for determining the Shannon capacity of arbitrary modulation formats.-Iterative Solutions is committed to the mission of developing accurate and efficient software for the simulation of modern communication systems. All software is licensed as open source software under the Lesser GPL. The code is designed to run in matlab, though the compute-intensive portions are written in C and Java. A wide variety of error control codes are supported, including turbo and LDPC codes, and an emphasis is placed on nonbinary modulation formats such as QAM and nonbinary continuous-phase FSK. The software goes beyond the usual error rate analysis by including tools for determining the Shannon capacity of arbitrary modulation formats. Platform: |
Size: 1024 |
Author:rizwan |
Hits:
Description: LTE system,
OFDM modulation and Turbo
Coding, including Viterbi, BCJR
and SOVA are extensively analysed,
ending up with a system performance
specification. These are
used to implement a fixed length
Turbo encoder, a 16-QAM modulator
and a 16 point IFFT on an
FPGA using MATLAB Simulink⃝ R
with Xilinx⃝ R System Generator plugin.
A MATLAB⃝ R script is developed
to test the Simulink implementation.
In addition, an iterative
Turbo decoder is programmed using
MATLAB⃝ R . Platform: |
Size: 11264 |
Author:mezo |
Hits:
Description: LTE system,
OFDM modulation and Turbo
Coding, including Viterbi, BCJR
and SOVA are extensively analysed,
ending up with a system performance
specification. These are
used to implement a fixed length
Turbo encoder, a 16-QAM modulator
and a 16 point IFFT on an
FPGA using MATLAB Simulink⃝ R
with Xilinx⃝ R System Generator plugin.
A MATLAB⃝ R script is developed
to test the Simulink implementation.
In addition, an iterative
Turbo decoder is programmed using
MATLAB⃝ R . Platform: |
Size: 11264 |
Author:mezo |
Hits:
Description: Throughout the project the LTE system,
OFDM modulation and Turbo
Coding, including Viterbi, BCJR
and SOVA are extensively analysed,
ending up with a system performance
specification. These are
used to implement a fixed length
Turbo encoder, a 16-QAM modulator
and a 16 point IFFT on an
FPGA using MATLAB Simulink R ⃝
with Xilinx R ⃝ System Generator plugin.
A MATLAB R ⃝ script is developed
to test the Simulink implementation.
In addition, an iterative
Turbo decoder is programmed using
MATLAB R ⃝ .-Throughout the project the LTE system,
OFDM modulation and Turbo
Coding, including Viterbi, BCJR
and SOVA are extensively analysed,
ending up with a system performance
specification. These are
used to implement a fixed length
Turbo encoder, a 16-QAM modulator
and a 16 point IFFT on an
FPGA using MATLAB Simulink R ⃝
with Xilinx R ⃝ System Generator plugin.
A MATLAB R ⃝ script is developed
to test the Simulink implementation.
In addition, an iterative
Turbo decoder is programmed using
MATLAB R ⃝ . Platform: |
Size: 2099200 |
Author:mezo |
Hits:
Search - Turbo QAM in matlab