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Version 2 (ROQUE, Damien, 10/01/2014 04:25 PM) → Version 3/52 (ROQUE, Damien, 10/01/2014 07:12 PM)
h1. RAdio Logicielle pour la Formation (RALF)
warning. Work in progress...
The project _RAdio Logicielle pour la Formation_ (RALF) has been carried out by the University of Toulouse/ISAE(Institut Supérieur de l'Aéronautique et de l'Espace) Toulouse in order to promote Software Defined Radio (SDR) techniques into several engineering trainings. First of all, one can define a SDR transceiver as a generic hardware device (typically wideband and with high sampling rate) where all application-related signal processing is performed in the digital domain thanks to a host (host computer or an embedded controller. It results in a highly flexible architecture, generally made of high-level software building blocks allowing to move from an application/or standard to an other within a tenth of second (e.g. from a GSM receiver to an FM transmitter). device).
In an educational point of view, SDR offers several advantages:
* cross-curricular approach involving digital communications, beamforming, computer science, networks, radio frequency electronics, embedded electronics;
* fully functional applications based on well-known standards and presented with an appropriate abstraction level;
* possible connection with research areas of the educational staff;
* source code oriented project management, more and more used in the industry (e.g. agile, eXtreme programming).
h2. Organization
h3. Members
h3. Equipments
h3. Procedures
h2. Documentation
notice. Update and translation in progress...
h2. External links
warning. Work in progress...
The project _RAdio Logicielle pour la Formation_ (RALF) has been carried out by the University of Toulouse/ISAE(Institut Supérieur de l'Aéronautique et de l'Espace) Toulouse in order to promote Software Defined Radio (SDR) techniques into several engineering trainings. First of all, one can define a SDR transceiver as a generic hardware device (typically wideband and with high sampling rate) where all application-related signal processing is performed in the digital domain thanks to a host (host computer or an embedded controller. It results in a highly flexible architecture, generally made of high-level software building blocks allowing to move from an application/or standard to an other within a tenth of second (e.g. from a GSM receiver to an FM transmitter). device).
In an educational point of view, SDR offers several advantages:
* cross-curricular approach involving digital communications, beamforming, computer science, networks, radio frequency electronics, embedded electronics;
* fully functional applications based on well-known standards and presented with an appropriate abstraction level;
* possible connection with research areas of the educational staff;
* source code oriented project management, more and more used in the industry (e.g. agile, eXtreme programming).
h2. Organization
h3. Members
h3. Equipments
h3. Procedures
h2. Documentation
notice. Update and translation in progress...
h2. External links