Difference between revisions of "Software Defined Radios"
From esoterum.org
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=== Examples === | === Examples === | ||
*[http://cegt201.bradley.edu/projects/proj2006/sradio/ SDR Project Log with functional diagrams] | *[http://cegt201.bradley.edu/projects/proj2006/sradio/ SDR Project Log with functional diagrams] | ||
+ | |||
+ | === Waveforms === | ||
+ | *[http://www.radio-electronics.com/info/cellulartelecomms/ofdm/ofdm.php OFDM Tutorial] | ||
== [[JTRS]] == | == [[JTRS]] == |
Revision as of 15:56, 20 August 2007
Contents
References
- SDR links/Tutorials
- DSB Guru
- Finite Impulse Response (FIR) Filter FAQ at dspguru.com
Examples
Waveforms
JTRS
- The Software Defined Radio Forum
- Software Defined Radios, Wikipedia
- Software Communications Architecture, Open architecture used by JTRS
Software Defined Radio Technical Conference and Product Exposition
GNU Radio
Articles
- Techno Concepts in Van Nuys, California developed a patented sigma delta architecture that can take an input form 1GHz to 6GHz and convert it directly to a digital baseband.
- TechnoConcepts of Boston, reconfigurable Wi-fi
- Modeling languages like the waveform description language WDL are aiming to provide an ideal high-level representation, avoiding limitations by the combination of aspects from different existing languages.
- ...the observed relation between signal processing code size and control code size, which is actually 2000 lines versus 8000 lines demands for a code generation solution...large parts of the code are very regular and with every change in the partitioning or scheduling, the implementation has to be changed substantially. On the other hand signal processing implementations are highly individual and can hardly be automated by some tool process.