On Mon, Dec 27, 2010 at 10:12 PM, Marcus D. Leech <mle...@ripnet.com> wrote: > I tried an experiment this evening with my 6-channel VLF receiver, which > uses a sound-card (sampled at 96KHz or 192KHz) to sample > a VLF loop antenna and amplifier, and then do power detection (and other > things) over six discrete channels, arbitrarily spaced. > > The version that I've been using up until now uses a FIR bandpass filter for > each channel, followed by an utterly-uninteresting > power-detector chain. > > I didn't know anything about the Goertzel transform until a couple of days > ago, and decided to substitute an equivalent Goertzel > transform for each channel, to see if I could save any CPU by doing so. The > result was that I can save about 15% by going to > the Goertzel transform, instead of an FIR filter with roughly-equivalent > bandwidth. > > I'm going to let it run for a couple of days to compare sensitivity. > > For equally-spaced channels (which isn't the case here), an FFT might also > be useful and slightly cheaper than a discrete FIR filter > for each channel.
For non-equally space subband filters you can use lifting to generate transforms with performance compariable to the FFT if you're willing to accept some limitations on the shape of the responses. I've mostly been working on this in the area of video coding, — where the filterbanks are small enough that I can find the coefficients via straight numerical optimization, so I don't know a whole lot about constructing them in the general case. But it's certainly an area that someone interested in building faster filterbanks should look into. _______________________________________________ Discuss-gnuradio mailing list Discuss-gnuradio@gnu.org http://lists.gnu.org/mailman/listinfo/discuss-gnuradio