The authors discuss implementation aspects of a software-defined radio system that allows the user to define waveforms using an algebraic language interface, currently as an extension to C++.
Current software-defined radio systems provide waveform definitions through a combination of a graphical interface, markup language, interpreted script, and compiled code. Regardless of the methods used, the actual executed code generates each waveform via a series of graph-style connections: instantiating blocks and then explicitly connecting ports between blocks. The current authors propose a system that allows the definition of waveforms using a novel text-based algebraic language interface similar to that found in MathWorks MATLAB or GNU Octave.
Downloads
Similar Publications
- Patterns of Concordance Between Hair Assays and Urinalysis for Cocaine: Longitudinal Analysis of Probationers in Pinellas County, Florida (From The Validity of Self-Reported Drug Use: Improving the Accuracy of Survey Estimates, P 161-199, 1997, Lana Harri
- Statewide Prison Language Mandates: Where Intention and Implementation Diverge
- A Study of Trauma and Resiliency among Forensic Examiners Investigating Child Pornography