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    <dc:creator>gdw</dc:creator><description><![CDATA[The goal of this section is to teach you how to use the basic elements of the Faust programming language in approximately two hours! While DSP algorithms can be easily written from scratch in Faust, we'll just show you here how to use existing elements implemented in the Faust libraries, connect them to each other, and implement basic user interfaces (UI) to control them.]]></description>
<dc:subject>faust dsp documentation quick start</dc:subject>
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    <dc:creator>gdw</dc:creator><description><![CDATA[ Faust DSP compiler as SuperCollider UGen ]]></description>
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    <dc:creator>gdw</dc:creator><description><![CDATA[ Engineer James Clarke liberated John, Paul, George, and Ringo from their mono and stereo straitjackets using algorithms at Abbey Road. ]]></description>
<dc:subject>beatles remastering dsp abbey road</dc:subject>
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    <title>Learn FluCoMa</title>
    <dc:date>2023-04-03T18:00:41+00:00</dc:date>
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    <dc:creator>gdw</dc:creator><description><![CDATA[The Fluid Corpus Manipulation project (FluCoMa) instigates new musical ways of exploiting ever-growing banks of sound and gestures within the digital composition process, by bringing breakthroughs of signal decomposition DSP and machine learning to the toolset of techno-fluent computer composers, creative coders and digital artists.]]></description>
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    <title>Introduction to Signal Processing</title>
    <dc:date>2022-05-26T19:57:51+00:00</dc:date>
    <link>https://www.ece.rutgers.edu/~orfanidi/intro2sp/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[This book provides an applications-oriented introduction to digital signal processing written primarily for electrical engineering undergraduates. Practicing engineers and graduate students may also find it useful as a first text on the subject. ]]></description>
<dc:subject>dsp intro book course rutgers</dc:subject>
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    <title>Faust Programming Language</title>
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    <dc:creator>gdw</dc:creator><description><![CDATA[Faust (Functional Audio Stream) is a functional programming language for sound synthesis and audio processing with a strong focus on the design of synthesizers, musical instruments, audio effects, etc. Faust targets high-performance signal processing applications and audio plug-ins for a variety of platforms and standards.

The core component of Faust is its compiler. It allows to "translate" any Faust digital signal processing (DSP) specification to a wide range of non-domain specific languages such as C++, C, LLVM bit code, WebAssembly, Rust, etc. In this regard, Faust can be seen as an alternative to C++ but is much simpler and intuitive to learn.]]></description>
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    <title>How Wavelets Allow Researchers to Transform — and Understand — Data | Quanta Magazine</title>
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    <dc:creator>gdw</dc:creator><description><![CDATA[Built upon the ubiquitous Fourier transform, the mathematical tools known as wavelets allow unprecedented analysis and understanding of continuous signals.]]></description>
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    <link>http://incudine.sourceforge.net/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Music/DSP programming environment for Common Lisp
]]></description>
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    <title>Digital Signal Processing 1: Basic Concepts and Algorithms | Coursera</title>
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    <title>GitHub - Lyve1981/dsp56300</title>
    <dc:date>2021-07-02T05:16:05+00:00</dc:date>
    <link>https://github.com/Lyve1981/dsp56300</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[This has the potential to revive a lot of old synths.

This DSP has been used in plenty of virtual analogue synthesizers and other musical gear that was released after around the mid 90s, such as Access Virus A, B, C, TI / Clavia Nord Lead 3 / Waldorf Q, Microwave II / Novation Supernova, Nova and many others.]]></description>
<dc:subject>Motorola DSP 56300 family emulator</dc:subject>
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    <title>DSP Background - Deep Learning for Audio Classification p.1 - YouTube</title>
    <dc:date>2021-01-20T19:41:54+00:00</dc:date>
    <link>https://www.youtube.com/watch?v=Z7YM-HAz-IY</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[SUBSCRIBED

Going over some background theory for processing audio data.]]></description>
<dc:subject>DSP Background Deep Learning for Audio Classification p.1 stdmp2</dc:subject>
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<item rdf:about="https://www.musicdsp.org/en/latest/">
    <title>Musicdsp.org — Musicdsp.org documentation</title>
    <dc:date>2020-12-07T17:53:47+00:00</dc:date>
    <link>https://www.musicdsp.org/en/latest/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Musicdsp.org is a collection of algorithms, thoughts and snippets, gathered for the music dsp community. Most of this data was gathered by and for the people of the splendid Music-DSP mailing list at http://sites.music.columbia.edu/cmc/music-dsp/]]></description>
<dc:subject>algorithms audio dsp respract mailing list</dc:subject>
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    <dc:date>2020-11-15T21:34:44+00:00</dc:date>
    <link>https://github.com/AllenDowney/ThinkDSP</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Think DSP: Digital Signal Processing in Python, by Allen B. Downey.]]></description>
<dc:subject>audio dsp latex itp stdmp</dc:subject>
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<item rdf:about="https://greenteapress.com/wp/think-dsp/">
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    <link>https://greenteapress.com/wp/think-dsp/</link>
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    <title>VCV Rack</title>
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<item rdf:about="https://www.zynaptiq.com/about-us/">
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    <dc:creator>gdw</dc:creator><description><![CDATA[Zynaptiq - Science, Not Fiction
Located in Hannover, Germany, Zynaptiq creates technology and applications for processing, analyzing, categorizing and generating audio-visual data.

We utilize state-of-the-art artificial intelligence and signal processing techniques, and draw on a combined 40-year background in professional software development and audio production.

Zynaptiq was founded by Denis H. Goekdag (CEO) and Stephan M. Bernsee (CTO) in 2011.]]></description>
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<dc:source>https://pinboard.in/</dc:source>
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    <dc:creator>gdw</dc:creator><description><![CDATA[The Fluid Corpus Manipulation project (FluCoMA) instigates
new musical ways of exploiting ever-growing banks of sound
and gestures within the digital composition process, by
bringing breakthroughs of signal decomposition DSP and
machine learning to the tool set of techno-fluent computer
composers, creative coders and digital artists.
]]></description>
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<item rdf:about="https://inagrm.com/en">
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<item rdf:about="https://www.3blue1brown.com/">
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    <link>https://www.3blue1brown.com/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Animated math

Welcome to 3blue1brown!  The main event is, of course, the YouTube channel.]]></description>
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    <dc:creator>gdw</dc:creator><description><![CDATA[But what is the Fourier Transform? A visual introduction.]]></description>
<dc:subject>stdmp dmp fft dsp 3Blue1Brown</dc:subject>
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<item rdf:about="http://eprints.hud.ac.uk/id/eprint/14897/">
    <title>The HISSTools Impulse Response Toolbox: Convolution for the Masses - University of Huddersfield Repository</title>
    <dc:date>2020-03-06T18:46:23+00:00</dc:date>
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]]></description>
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<item rdf:about="https://ccrma.stanford.edu/~bilbao/">
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]]></description>
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    <dc:date>2020-01-01T03:43:22+00:00</dc:date>
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<item rdf:about="https://ccrma.stanford.edu/~jos/filters/">
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<item rdf:about="https://ccrma.stanford.edu/courses/320/">
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<item rdf:about="http://conferences.smcnetwork.org/">
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    <link>http://conferences.smcnetwork.org/</link>
    <dc:creator>gdw</dc:creator><dc:subject>audio conference dsp music</dc:subject>
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<item rdf:about="https://faust.grame.fr/doc/manual/index.html#introduction">
    <title>Faust Programming Language</title>
    <dc:date>2019-07-19T01:03:19+00:00</dc:date>
    <link>https://faust.grame.fr/doc/manual/index.html#introduction</link>
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<item rdf:about="https://ieeexplore.ieee.org/document/8695699">
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    <dc:date>2019-06-03T21:22:18+00:00</dc:date>
    <link>https://ieeexplore.ieee.org/document/8695699</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Remote Monitoring of Human Vital Signs Using mm-Wave FMCW Radar]]></description>
<dc:subject>ieee remote monitoriing of human vital signs microwave sensor dsp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:716e42e38c8e/</dc:identifier>
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</item>
<item rdf:about="https://swiki.hfbk-hamburg.de/MusicTechnology/6">
    <title>SuperCollider swiki</title>
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    <link>https://swiki.hfbk-hamburg.de/MusicTechnology/6</link>
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</item>
<item rdf:about="https://ccrma.stanford.edu/~jos/pasp/pasp.html">
    <title>PHYSICAL AUDIO SIGNAL PROCESSING FOR VIRTUAL MUSICAL INSTRUMENTS AND AUDIO EFFECTS</title>
    <dc:date>2018-09-07T01:45:14+00:00</dc:date>
    <link>https://ccrma.stanford.edu/~jos/pasp/pasp.html</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[PHYSICAL AUDIO SIGNAL PROCESSING 
FOR VIRTUAL MUSICAL INSTRUMENTS AND AUDIO EFFECTS]]></description>
<dc:subject>jos audio book dsp ccrma</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
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<item rdf:about="https://smile.amazon.com/Scientist-Engineers-Digital-Signal-Processing/dp/0966017641/ref=dp_ob_title_bk">
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    <dc:creator>gdw</dc:creator><dc:subject>The Scientist and Engineer's Guide to Digital Signal Processing: DSP stdmp Steven W. Smith</dc:subject>
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<item rdf:about="https://www.native-instruments.com/fileadmin/ni_media/downloads/pdf/VAFilterDesign_2.0.0a.pdf">
    <title>[untitled]</title>
    <dc:date>2018-06-11T16:10:29+00:00</dc:date>
    <link>https://www.native-instruments.com/fileadmin/ni_media/downloads/pdf/VAFilterDesign_2.0.0a.pdf</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[About this book: the book covers the theoretical and practical aspects of the
virtual analog filter design in the music DSP context. Only a basic amount of
DSP knowledge is assumed as a prerequisite. For digital musical instrument
and effect developers.]]></description>
<dc:subject>dsp virtual analog filter design free book stdmp2</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:041f647b2626/</dc:identifier>
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<item rdf:about="https://www.idiap.ch/software/bob/">
    <title>Bob - A framework for signal processing and machine learning</title>
    <dc:date>2018-06-08T03:32:58+00:00</dc:date>
    <link>https://www.idiap.ch/software/bob/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Bob is a signal-processing and machine learning toolbox originally developed by the Biometrics Security and Privacy Group, and the Research and Development Engineers at Idiap, in Switzerland. Bob is primarily developed through Gitlab.]]></description>
<dc:subject>dsp machine-learning</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:b3a4e5e791d4/</dc:identifier>
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</item>
<item rdf:about="https://acarabott.github.io/audio-dsp-playground/">
    <title>Audio DSP Playground</title>
    <dc:date>2018-05-01T01:54:02+00:00</dc:date>
    <link>https://acarabott.github.io/audio-dsp-playground/</link>
    <dc:creator>gdw</dc:creator><dc:subject>Audio DSP Playground</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:cafdd1bd5812/</dc:identifier>
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</item>
<item rdf:about="https://librosa.github.io/librosa/">
    <title>LibROSA — librosa 0.6.0 documentation</title>
    <dc:date>2018-04-15T21:01:32+00:00</dc:date>
    <link>https://librosa.github.io/librosa/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[LibROSA is a python package for music and audio analysis. It provides the building blocks necessary to create music information retrieval systems.]]></description>
<dc:subject>python scipy audio dsp music analysis multimedia itp stdmp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:f2cdc7555069/</dc:identifier>
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<item rdf:about="http://www.e-booksdirectory.com/details.php?ebook=10796">
    <title>Think DSP: Digital Signal Processing in Python - Download link</title>
    <dc:date>2017-12-26T02:17:36+00:00</dc:date>
    <link>http://www.e-booksdirectory.com/details.php?ebook=10796</link>
    <dc:creator>gdw</dc:creator><dc:subject>python dsp itp book</dc:subject>
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<item rdf:about="http://pythonforengineers.com/audio-and-digital-signal-processingdsp-in-python/">
    <title>Audio and Digital Signal Processing(DSP) in Python – Python For Engineers</title>
    <dc:date>2017-12-25T01:08:30+00:00</dc:date>
    <link>http://pythonforengineers.com/audio-and-digital-signal-processingdsp-in-python/</link>
    <dc:creator>gdw</dc:creator><dc:subject>audio dsp python book engineers itp</dc:subject>
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<item rdf:about="https://ccrma.stanford.edu/~jos/mdft/">
    <title>MATHEMATICS OF THE DISCRETE FOURIER TRANSFORM (DFT) WITH AUDIO APPLICATIONS SECOND EDITION</title>
    <dc:date>2017-11-12T07:39:08+00:00</dc:date>
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<item rdf:about="https://www.coursera.org/learn/audio-signal-processing">
    <title>Audio Signal Processing for Music Applications | Coursera</title>
    <dc:date>2017-11-12T07:38:45+00:00</dc:date>
    <link>https://www.coursera.org/learn/audio-signal-processing</link>
    <dc:creator>gdw</dc:creator><dc:subject>audio courses dsp music</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
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<item rdf:about="http://www.christiankleine.com/ck/maxforlive.html">
    <title>maxforlive</title>
    <dc:date>2017-10-26T17:19:07+00:00</dc:date>
    <link>http://www.christiankleine.com/ck/maxforlive.html</link>
    <dc:creator>gdw</dc:creator><dc:subject>ableton audio dsp maxforlive m4l</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:790d559fb041/</dc:identifier>
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<item rdf:about="http://www.analog.com/en/education/education-library/articles/fixed-point-vs-floating-point-dsp.html">
    <title>Fixed-Point vs. Floating-Point Digital Signal Processing | Education | Analog Devices</title>
    <dc:date>2017-10-18T22:45:15+00:00</dc:date>
    <link>http://www.analog.com/en/education/education-library/articles/fixed-point-vs-floating-point-dsp.html</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Fixed-Point vs. Floating-Point Digital Signal Processing]]></description>
<dc:subject>blackfin analog devices fixed-point vs floating-point dsp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:9045ae7183a8/</dc:identifier>
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<item rdf:about="https://www.emotiv.com/forums/topic/Increasing_sampling_rate_/">
    <title>Increasing sampling rate? - Emotiv</title>
    <dc:date>2017-09-26T17:25:58+00:00</dc:date>
    <link>https://www.emotiv.com/forums/topic/Increasing_sampling_rate_/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Hi William, EPOC runs at a fixed rate of 128Hz per channel. Please note that for most purposes (including other epilepsy research we are involved with) the signal from EPOC is more than adequate. Internally the headset oversamples each channel at 2048Hz and we apply several noise cancellation and anti-aliasing methods to remove all traces of electrical mains interference and other non-EEG noise sources – the presence of this noise is the usual reason for running at higher frequencies, so that noise reduction methods can be applied later. We use the DSP in the headset to perform this noise reduction which allows a reduced packet frequency for the wireless transmitter, extending battery life to over 12 hours.
If you specifically need very high frequencies we can’t easily help with the standard product. The effective bandwidth of EPOC is 0.2-45Hz, allowing for the heavy attenuation from digital notch filters at 50 and 60Hz to remove the fundamental frequency of electrical mains noise.]]></description>
<dc:subject>emotive sample rate sr noise cancelling dsp headset</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
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<item rdf:about="https://en.wikipedia.org/wiki/Poisson_summation_formula?">
    <title>Poisson summation formula - Wikipedia</title>
    <dc:date>2017-08-27T20:55:02+00:00</dc:date>
    <link>https://en.wikipedia.org/wiki/Poisson_summation_formula?</link>
    <dc:creator>gdw</dc:creator><dc:subject>Poisson summation formula dsp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
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<item rdf:about="https://en.wikipedia.org/w/index.php?title=Nyquist%E2%80%93Shannon_sampling_theorem&amp;oldid=234842277#Mathematical_basis_for_the_theorem?">
    <title>Nyquist–Shannon sampling theorem - Wikipedia</title>
    <dc:date>2017-08-27T20:54:24+00:00</dc:date>
    <link>https://en.wikipedia.org/w/index.php?title=Nyquist%E2%80%93Shannon_sampling_theorem&amp;oldid=234842277#Mathematical_basis_for_the_theorem?</link>
    <dc:creator>gdw</dc:creator><dc:subject>Nyquist–Shannon sampling theorem dsp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
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<item rdf:about="https://github.com/PaulBatchelor/Soundpipe">
    <title>PaulBatchelor/Soundpipe: A lightweight music DSP library.</title>
    <dc:date>2017-08-05T16:15:20+00:00</dc:date>
    <link>https://github.com/PaulBatchelor/Soundpipe</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[PaulBatchelor/Soundpipe

Soundpipe is a lightweight music DSP library written in C. It aims to provide a set of high-quality DSP modules for composers, sound designers, and creative coders.]]></description>
<dc:subject>clean c algorithms dsp audio sc pd csound stdmp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
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<item rdf:about="http://www.trevorwishart.co.uk/audfull.html">
    <title>Trevor Wishart</title>
    <dc:date>2017-07-14T15:40:25+00:00</dc:date>
    <link>http://www.trevorwishart.co.uk/audfull.html</link>
    <dc:creator>gdw</dc:creator><dc:subject>audio dsp reference sound loom composition</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:27aa6cecc6dd/</dc:identifier>
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</rdf:Bag></taxo:topics>
</item>
<item rdf:about="https://www.quora.com/What-is-the-most-amazing-algorithm-you-know">
    <title>(1) What is the most amazing algorithm you know? - Quora</title>
    <dc:date>2017-06-07T07:32:37+00:00</dc:date>
    <link>https://www.quora.com/What-is-the-most-amazing-algorithm-you-know</link>
    <dc:creator>gdw</dc:creator><dc:subject>dsp algorithm fft quora</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:7712ce7f8dcb/</dc:identifier>
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	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:algorithm"/>
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</item>
<item rdf:about="https://www.quora.com/topic/Signal-Processing">
    <title>(1) Signal Processing - Quora</title>
    <dc:date>2017-03-05T19:12:50+00:00</dc:date>
    <link>https://www.quora.com/topic/Signal-Processing</link>
    <dc:creator>gdw</dc:creator><dc:subject>quora signal processing feed dsp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:ab09dcd226b0/</dc:identifier>
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	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:feed"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
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</item>
<item rdf:about="https://github.com/belangeo">
    <title>belangeo (Olivier Bélanger)</title>
    <dc:date>2017-02-21T17:26:22+00:00</dc:date>
    <link>https://github.com/belangeo</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Olivier Bélanger

AjaxSoundStudio
ajaxsoundstudio.com]]></description>
<dc:subject>audio sound processing modules dsp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:524c0322ea6d/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:audio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:sound"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:processing"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:modules"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="https://github.com/belangeo/pyo">
    <title>belangeo/pyo: Python DSP module - ajaxsoundstudio.com</title>
    <dc:date>2017-02-21T17:22:37+00:00</dc:date>
    <link>https://github.com/belangeo/pyo</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Python DSP module - ajaxsoundstudio.com]]></description>
<dc:subject>python sound dsp modules</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:c7ed30b7ebf4/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:python"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:sound"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:modules"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://ed.ted.com/lessons/what-is-a-vector-david-huynh">
    <title>What is a vector? - David Huynh | TED-Ed</title>
    <dc:date>2016-09-17T23:12:35+00:00</dc:date>
    <link>http://ed.ted.com/lessons/what-is-a-vector-david-huynh</link>
    <dc:creator>gdw</dc:creator><dc:subject>vector definition math dsp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:ecd0e383d6b7/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:vector"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:definition"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:math"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://www.ece.rutgers.edu/~orfanidi/intro2sp/">
    <title>Introduction to Signal Processing</title>
    <dc:date>2016-07-20T23:36:25+00:00</dc:date>
    <link>http://www.ece.rutgers.edu/~orfanidi/intro2sp/</link>
    <dc:creator>gdw</dc:creator><dc:subject>book dsp processing programming audio Sophocles J. Orfanidis free</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:1bfd78c56c68/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:book"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:processing"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:programming"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:audio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:Sophocles"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:J."/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:Orfanidis"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:free"/>
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</item>
<item rdf:about="https://www.dsprelated.com/showthread/comp.dsp/165198-1.php">
    <title>comp.dsp | Looking for a good (cook)book on audio signal processing</title>
    <dc:date>2016-07-20T23:29:00+00:00</dc:date>
    <link>https://www.dsprelated.com/showthread/comp.dsp/165198-1.php</link>
    <dc:creator>gdw</dc:creator><dc:subject>audio dsp cookbook suggestions</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:2046e81ab3d8/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:audio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:cookbook"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:suggestions"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://www.willpirkle.com/about/">
    <title>About | Will Pirkle</title>
    <dc:date>2016-07-06T20:28:12+00:00</dc:date>
    <link>http://www.willpirkle.com/about/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[I am an assistant professor of music engineering technology at the University of Miami Frost School of Music. In addition to nine years of teaching, I’ve also worked and consulted for Korg Research and Development, SiriusXM Radio, Diamond Multimedia, Gibson Musical Instruments, National Semiconductor Corporation, and others.]]></description>
<dc:subject>dsp programming miami c++</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:239a607b5631/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:programming"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:miami"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:c++"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://vamp-plugins.org/sonic-annotator/">
    <title>Sonic Annotator</title>
    <dc:date>2016-07-04T20:58:20+00:00</dc:date>
    <link>http://vamp-plugins.org/sonic-annotator/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Sonic Annotator is a batch tool for feature extraction and annotation of audio files using Vamp plugins.

Sonic Annotator can use any installed Vamp plugin to process a wide range of audio file types, loading audio data either from the local filesystem or from http or ftp URLs on the Internet. It can then write the results in RDF or comma-separated text formats.]]></description>
<dc:subject>audio dsp feature extraction file annotation vamp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:5bcb73c40d52/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:audio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:feature"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:extraction"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:file"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:annotation"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:vamp"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://www.baudline.com/index.html">
    <title>baudline signal analyzer - FFT spectrogram</title>
    <dc:date>2016-07-04T17:41:56+00:00</dc:date>
    <link>http://www.baudline.com/index.html</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Baudline is a time-frequency browser designed for scientific visualization of the spectral domain.  Signal analysis is performed by Fourier, correlation, and raster transforms that create colorful spectrograms with vibrant detail.  Conduct test and measurement experiments with the built in function generator, or play back audio files with a multitude of effects and filters.  The baudline signal analyzer combines fast digital signal processing, versatile high speed displays, and continuous capture tools for hunting down and studying elusive signal characteristics. 

Explore, Analyze, and Discover.]]></description>
<dc:subject>audio dsp analysis software spectrogram remington</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:0e60e3d4cc5a/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:audio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:analysis"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:software"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:spectrogram"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:remington"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://ajaxsoundstudio.com/software/">
    <title>Software – AJAX SOUND STUDIO</title>
    <dc:date>2016-05-15T19:03:54+00:00</dc:date>
    <link>http://ajaxsoundstudio.com/software/</link>
    <dc:creator>gdw</dc:creator><dc:subject>Cecilia5 Pyo Soundgrain CookDSP Frep Bub DSP python</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:7e8adfefa0ce/</dc:identifier>
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	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:Pyo"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:Soundgrain"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:CookDSP"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:Frep"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:Bub"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:DSP"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:python"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://radiopyo.acaia.ca/">
    <title>Radio Pyo -- Free music written in Python</title>
    <dc:date>2016-05-15T18:49:43+00:00</dc:date>
    <link>http://radiopyo.acaia.ca/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[

jPlayer - Circle Player]]></description>
<dc:subject>Pro music radio DSP audio itp python</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:e41d72b2ac22/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:Pro"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:music"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:radio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:DSP"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:audio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:itp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:python"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://lac.linuxaudio.org/2015/download/LETZ-LAC-2015.pdf">
    <title>Faust audio DSP language in the Web</title>
    <dc:date>2016-04-16T21:11:29+00:00</dc:date>
    <link>http://lac.linuxaudio.org/2015/download/LETZ-LAC-2015.pdf</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Stephane Letz, Sarah Denoux, Yann Orlarey, Dominique Fober
GRAME
Centre national de cr´eation musicale
Linux Audio Conference, Mainz, 2015/04/10]]></description>
<dc:subject>faust audio dsp web lac</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:f99cdf69f280/</dc:identifier>
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	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:web"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:lac"/>
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</item>
<item rdf:about="https://ccrma.stanford.edu/~jos/aspf/aspf.pdf">
    <title>Audio Signal Processing in Faust - Audio Signal Processing in Faust</title>
    <dc:date>2016-04-16T21:09:54+00:00</dc:date>
    <link>https://ccrma.stanford.edu/~jos/aspf/aspf.pdf</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Julius O. Smith III
Center for Computer Research in Music and Acoustics (CCRMA)
Department of Music, Stanford University, Stanford, California 94305 USA]]></description>
<dc:subject>dsp asp faust julius smith</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:96628017b31e/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:asp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:faust"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:julius"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:smith"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://codeforces.com/blog/entry/43499">
    <title>Tutorial on FFT — The tough made simple. - Codeforces</title>
    <dc:date>2016-03-28T03:40:49+00:00</dc:date>
    <link>http://codeforces.com/blog/entry/43499</link>
    <dc:creator>gdw</dc:creator><dc:subject>FFT tutorial simple dsp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:23a71b401d9e/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:FFT"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:tutorial"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:simple"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://faust.grame.fr/about/">
    <title>About</title>
    <dc:date>2016-03-27T17:52:07+00:00</dc:date>
    <link>http://faust.grame.fr/about/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[FAUST (Functional Audio Stream) is a functional programming language specifically designed for real-time signal processing and synthesis. FAUST targets high-performance signal processing applications and audio plug-ins for a variety of platforms and standards.]]></description>
<dc:subject>audio dsp synthesis faust stdmp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:9b03bb0bd106/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:audio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:synthesis"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:faust"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:stdmp"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://faust.grame.fr/download/">
    <title>FaustLive - Download</title>
    <dc:date>2016-03-27T17:49:50+00:00</dc:date>
    <link>http://faust.grame.fr/download/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[FaustLive is the recommended tool to get started with Faust. Thanks to its embedded Faust compiler, FaustLive provides an ultra-short edit-compile-run cycle. Moreover FaustLive is multi-platform and doesn’t require any additional compiler or development tool (beside a simple code editor).]]></description>
<dc:subject>faust faustlive dsp realtime stdmp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:a15890aabbaa/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:faust"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:faustlive"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:realtime"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:stdmp"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="https://sourceforge.net/p/faudiostream/faustlive/ci/master/tree/">
    <title>Faust : signal processing language / Faustlive / [0f20a6]</title>
    <dc:date>2016-03-27T17:48:36+00:00</dc:date>
    <link>https://sourceforge.net/p/faudiostream/faustlive/ci/master/tree/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Faust : signal processing language
Faust is a programming language for realtime audio signal processing]]></description>
<dc:subject>realtime audio signal processing programming dsp stdmp</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:4152b55e2a12/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:realtime"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:audio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:signal"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:processing"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:programming"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:dsp"/>
	<rdf:li rdf:resource="https://pinboard.in/u:gdw/t:stdmp"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://www.axoloti.com/">
    <title>Axoloti</title>
    <dc:date>2015-12-16T01:58:29+00:00</dc:date>
    <link>http://www.axoloti.com/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[Axoloti is an open source platform for sketching music-DSP algorithms
running on standalone hardware.

Axoloti Core is a circuit board containing a 168MHz Cortex-M4F
microcontroller, audio ADC/DAC, DIN MIDI, USB host port, USB device port,
switching power supply, 8MB SDRam, a micro-SDCard slot, and a set of
general purpose inputs and outputs.

Axoloti allows you to build custom synths, FX units and new instruments
using a graphical patcher that generates C++ code, and also manages
compilation and upload to the microcontroller. The object library offers
oscillators, filters, envelopes, and more. The patcher runs on Windows, OSX
and Linux.]]></description>
<dc:subject>audio synthesis dsp hardware software</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:gdw/b:854bd91317cd/</dc:identifier>
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<item rdf:about="http://blog.ytotech.com/2015/11/01/findpeaks-in-python/">
    <title>Peak detection in the Python world</title>
    <dc:date>2015-11-08T17:32:39+00:00</dc:date>
    <link>http://blog.ytotech.com/2015/11/01/findpeaks-in-python/</link>
    <dc:creator>gdw</dc:creator><description><![CDATA[As I was working on a signal processing project for Equisense, I’ve come to need an equivalent of the MatLab findpeaks function in the Python world.]]></description>
<dc:subject>python matlab dsp peak_dection</dc:subject>
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