Version 10 (modified by ismael, 15 years ago) |
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FlexWaves Project
This folder contains a repository of waveforms currently available for public download and use with ALOE.
The license of this folder may change from one object to another, even from one file to another thus, we encourage the reader to read in each source file the specific license before using and distributing it.
Some of the waveforms and/or objects under this folder have been developed by graduate and under-graduate students. This means that the level of optimisation and compliance with the standards is not guaranteed. However, they may be useful for testing purposes or evaluating the performance of the algorithms under different situations or platforms.
NOTE: Waveforms are now distributed with the ALOE packages. They are already preconfigured and ready to be used. You will find the latest versions in the QuickStartGuide page. This page describes the applications and some important notes about them.
The source for all components can be found at:
http://flexnets.upc.edu/svn/phal/trunk/modules
And the waveform's description files at:
http://flexnets.upc.edu/svn/phal/trunk/example-repository/swman_apps/
The following waveforms are shipped with the ALOE package:
Example waveforms
This waveform is a simple digital modem. It can be configured to perform BPSK, QPSK, QAM4, QAM64 and so on. The modulator/demodulator is a single program which can be instantiated as a modulator or demodulator. A binary source and a sink generate and reads random data.
UTRAN
This waveform partially implements the bit-level processing of a UTRAN transmitter and receiver. The transmitter part consist on the following modules:
binsource(*) -> crc(*) -> coder(*) -> ratematching(*) -> interleaving(*) -> timemux(*) -> trchmux -> interleaving -> channel
Where (*) indicates that two transport channels transmit in parallel. The receiver chain implements the same modules in the opposite direction.
- The coder is a UMTS TurboCoder? for the data channel and a Convolutional Coder for the control one (viterbi decoder not yet implemented). - The ratematching component is specifically designed for the UMTS chain and can not be configured to operate in another context.
The waveform must operate at a period of 10ms, so this is the time-slot that should be fixed (see /usr/local/etc/platforms.conf). All components of each transport channel can operate at higher periods (20, 40, 80 ms). The component 'timemux' performs a time (de)-multiplexing of data frames and delivers 1 packet every 10ms to the channel.
WiMAX
Under work
We apologise for the inconvenience, come back soon please.
Generating Modules from Matlab(c)'s Simulink(c)
Under work
We apologise for the inconvenience, come back soon please.