WIP: better Meyer FIR approximation #311
Open
Conversation
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
|
as just discussed: likely makes sense, but let's not look at this till after 1.0 |
Sign up for free
to join this conversation on GitHub.
Already have an account?
Sign in to comment
Add this suggestion to a batch that can be applied as a single commit.
This suggestion is invalid because no changes were made to the code.
Suggestions cannot be applied while the pull request is closed.
Suggestions cannot be applied while viewing a subset of changes.
Only one suggestion per line can be applied in a batch.
Add this suggestion to a batch that can be applied as a single commit.
Applying suggestions on deleted lines is not supported.
You must change the existing code in this line in order to create a valid suggestion.
Outdated suggestions cannot be applied.
This suggestion has been applied or marked resolved.
Suggestions cannot be applied from pending reviews.
Suggestions cannot be applied on multi-line comments.
Suggestions cannot be applied while the pull request is queued to merge.
Suggestion cannot be applied right now. Please check back later.
Do not merge this PR. It is just a demo of generating more accurate FIR approximations for the Meyer wavelet (see #261). We can choose one of these to replace the current approximation.
The 102 coefficient approximation here is in agreement up to 4 or 5 digits with the filter coefficients used by Matlab. The 66 coefficient approximation is as in the reference provided by @holgern. And is close in accuracy to the 102 coefficient case. Note that the sample points are shifted by 0.5 between these two cases.
Both of these have much better accuracy than the current approximation:
If the asynchronous sampling case is extended out to 102 samples, accuracy is further improved.
The 66 sample case is probably the best computation time / accuracy tradeoff.