I have RSI problems and have tried 30 different computer keyboards which all caused me pain. Playing piano does not cause me pain. I have played piano for around 20 years without any pain issues. I would like to know if there is a way to capture MIDI from a MIDI keyboard and output keyboard strokes. I know nothing at all about MIDI but I would like some guidance on how to convert this signal into a keystroke.

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  • 27
    I honestly don't think using a piano keyboard for textual input is a good solution. For one, how would you arrange the keys (particularly modifiers)? The drop in typing speed alone would be enough to prevent RSI, probably. You might be able to have some fun with it, but its not gonna solve the problem. – Eric May 8 '11 at 14:40
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    Playing the piano is a lot different from typing on a keyboard. The repetitiveness of typing is not really comparable to playing a song. But I don't want to keep you from trying something new. You might also want to look into a special kind of keyboard, the DataHand. – Tim Pietzcker May 8 '11 at 14:41
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    @Eric: But a standard electronic piano-style keyboard already has modifier keys! One, two, or three of them, depending on the model -- they're at your feet. There's also the near endless options available via chording (chording is why rank-and-file stenographers can keep up with people talking for hours in a row, when even top-flight typists wouldn't be able to for any length of time via normal typewriter-style keyboards). – T.J. Crowder May 8 '11 at 14:50
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    @shevski: I'm not trying to do anything, @I__ is the person asking the question. He/she isn't looking to convert sound, but rather the digital keyboard event signals sent by electronic keyboards via the Musical Instrument Digital Interface. These are very much like computer keyboard events: "Note on" corresponds nicely to keydown, "note off" to keyup, etc. You could even use velocity data to perform different actions depending on how "loudly" the chord was played. I love the idea. – T.J. Crowder May 8 '11 at 15:23
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    If you get this to work, you can code using any kind of midi device. It probably takes some practice, but using an orchestra as development team should be fun. – Toon Krijthe May 10 '11 at 10:24

34 Answers 34


A good library in .NET with full midi support (BASS), go to http://www.un4seen.com.

And for the other part, translating keyboard midi notes to keys and more, I would go for AutoItX, the ActiveX/COM and DLL interface to autoIt. Info and download, go to http://www.autoitscript.com/site/autoit/

No need to write keyboard driver.


I haven't done any MIDI programming in years, but your fundamental idea is very sound (no pun).

MIDI is a stream of "events" (or "messages"), two of the most fundamental being "note on" and "note off" which carry with them the note number (0 = C five octaves below middle C, through 127 = G five octaves above the G above middle C, in semi-tones). These events carry a "velocity" number on keyboards that are velocity sensitive ("touch sensitive"), with a force of (you guessed it) between 0 and 127.

Between velocity, chording, and the pedals, I'd think you could come up with quite a good "typing" interface for the piano keyboard. Chording in particular could be a very powerful technique — as I mentioned in the comments, it's why rank-and-file stenographers can use a stenotype machine to keep up with people talking for hours in a row, when even top-flight typists wouldn't be able to for any length of time via normal typewriter-style keyboards. As with machine stenography, you'd need a "dictionary" of the meanings of chords and sequences of chords. (Can you tell I used to work in the software side of machine stenography?)

To do this, the fundamental pieces are:

  • Receiving MIDI input. Don't try to do this yourself, use a library. Edit: Apparently, the Java Sound API supports MIDI, including receiving events from MIDI controllers. Cool. This page may also be useful.
  • Converting that data into the keystrokes you want to send, e.g. via the dictionary I mentioned above.
  • Outputting the keystrokes to the computer.

To be most broadly-compatible with software, you'd have to write this as a keyboard device driver. This is a plug-in to the operating system that serves as a source for keyboard events, talking to the underlying hardware (in your case, the piano keyboard). For Windows and Linux, you're probably going to want to use C for that.

However, since you're just generating keystrokes (not trying to intercept them, which I was trying to do years ago), you may be able to use whatever features the operating system has for sending artificial keystrokes. Windows has an interface for doing that (probably several, the one I'm thinking of is SendInput but I know there's some "journal" interface that does something similar), and I'm sure other operating systems do as well. That may well be sufficient for your purposes — it's where I'd start, because the device driver route is going to be awkward and you'd probably have to use a different language for it than Java. (I'm a big fan of Java, but the interfaces that operating systems use to talk to device drivers tend to be more easily consumed via C and similar.)

Update: More about the "dictionary" of chords to keystrokes:

Basically, the dictionary is a trie (thanks, @Adam) that we search with longest-prefix matching. Details:

In machine stenography, the stenographer writes by pressing multiple keys on the stenotype machine at the same time, then releasing them all. They call this a "stroke" of the keyboard; it's like playing a chord on the piano. Strokes frequently (but not always) correspond to a syllable of spoken language. Like syllables, sometimes one stroke (chord) has meaning all on its own, other times it only has meaning combined with following strokes. (Think "good" vs. "good" followed by "bye"). Although they'll be heavily influenced by the school at which they studied, each stenographer will have their own "dictionary" of what strokes they use to mean what, a dictionary they will continuously hone over the course of their working lives. The dictionary will have entries where the stenographic part ("steno", for short) is one stroke long, or multiple strokes long. Frequently, there will be several entries with the same starting stroke which are differentiated by their length and by the subsequent strokes. For instance (and I won't use real steno here, just placeholders), there may be these entries:

A     = alpha
A/B   = alphabet
A/B/C = alphabetic
A/C   = air conditioning
B     = bee
B/C   = because
C     = sea
D     = dog
D/D   = Dee Dee

(Those letters aren't meant to be musical notes, just abstract markers.)

Note that A starts multiple entries, and also note that how you translate a C stroke depends on whether you've previously seen an A, a B, or you're starting fresh.

Also note that (although not shown in the very small sample above), there may be multiple ways to "play" the same word or phrase, rather than just one. Stenographers do that to make it easier to flow from a preceding word to the next depending on hand position. There's an obvious analogy to music there, and you could use that to make your typing flow more akin to playing music, in order to both prevent this from negatively affecting your piano playing and to maximize the likelihood of this actually helping with the RSI.

When translating steno into standard text, again we use a "longest-prefix match" search: The translation algorithm starts with the first stroke ever written, and looks for entries starting with that stroke. If there is only one entry, and it's one stroke long, then we can reliably say "that's the entry to use", output the corresponding text, and then start fresh with the next stroke. But more likely, that stroke starts multiple entries of varying lengths. So we look at the next stroke and see if there are entries that start with those two strokes in order; and so on until we get a match.

So with the dictionary above, suppose we saw this sequence:


Here's how we'd translate it:

  1. A is the start of three entries of varying lengths; look at next stroke: C
  2. A/C matches only one entry; output "air conditioning" and start fresh with next stroke: B
  3. B starts two entries; look at next stroke: B
  4. B/B doesn't start anything; take the longest previous match (B) and output that ("bee")
  5. Having output B = "bee", we still have a B stroke in our buffer. It starts two entries, so look at the next stroke: C
  6. B/C matches one entry; output "because" and start fresh with the next stroke: A
  7. A starts three entries; look at the next stroke: B
  8. A/B starts two entries; look at the next stroke: C
  9. A/B/C only matches one entry; output "alphabetic" and start fresh with the next stroke: A
  10. A starts three entries; look at next stroke: B
  11. A/B starts two entries; look at next stroke: D
  12. A/B/D doesn't match anything, so take the longest previous match (A/B) and use it to output "alphabet". That leaves us with D still in the buffer.
  13. D starts two entries, so we would normally look at the next stroke — but we've processed all the strokes, so consider it in isolation. In isolation, it translates as "dog" so output that.

Aspects of the above to note:

  • You have a buffer of strokes you've read but haven't translated yet.
  • You always want to match the most strokes against a single entry that you can. A/B should be translated as "alphabet", not "alpha" and "bee".
  • (Not shown above) You may well have sequences of strokes that you can't translate, because they don't match anything in the dictionary. (Steno people use the noun "untranslate" -- e.g., with our dictionary, the strokes E would be an "untranslate".)
  • (Not shown above) Some theories of steno allow the same set of strokes to mean more than one thing, based on a broader context. Steno people call these "conflicts". You probably want to disallow them in your project, and in fact when steno used to be translated manually by the stenographer, conflicts were fine because they'd know just by where in the sentence they were what the right choice was, but with the rise of machine translation, conflict-free theories of steno arose specifically to avoid having to go through the resulting translated text and "fix" conflicts.
  • Translating in real time (which you'd be doing) means that if you receive a partial match, you'll want to hold onto it while waiting for the next chord — but probably only up to a timeout, at which point you'd translate what you have in the buffer as best you can. (Or maybe you don't want a timeout; it's your call.)
  • Probably best to have a stroke that says "disregard the previous stroke"
  • Probably best to have a stroke that says "completely clear the buffer without outputting anything"
  • 6
    @I__: Some programs try to talk directly to the keyboard device and so don't play nicely with "sendkeys"-like interfaces. Hopefully this is even less common now than some years ago when I last dealt with this, and so as I say, I'd start with "sendkeys" like mechanisms and only worry about the other if and when you needed to. (Probably best to do a quick program testing sending keys [on its own, not by receiving them from MIDI] -- including special key sequences -- and then testing that with the software you want to control before you get too far down the path.) – T.J. Crowder May 8 '11 at 16:09
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    For those who never heard of this, dictionary you describe is basically a Trie (pronounced 'try') – Adam May 17 '11 at 1:26
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    @I__: Interesting to write now to say that. What more do you want? I think I've addressed many of the important aspects of what you need to do. I haven't done it, nor pointed to anyone who has, because I have other things to do and don't happen to know of a pre-built solution. But in terms of building a solution, I think I've pointed you in the right direction. – T.J. Crowder Dec 30 '11 at 23:15
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    Note that you could jam all the chords in a linear array and do traversal every time you receive a midi event, and still not experience any noticable slowdown. Using a trie smells slightly of premature optimization. – FeepingCreature Jan 3 '12 at 2:38
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    @FeepingCreature: When I was doing this with stenographers and court reporters, their dictionaries could readily run to the hundreds of thousands of entries (I remember one who broke the million mark). There was nothing remotely premature about using an optimizing strategy, we were dealing with 12 MHz 386s. In I___'s case, if he goes with the Arduino idea (which is a really cool idea), he too will be dealing with fairly underpowered hardware for the modern era, though of course stuff ridiculously faster than what we had. I think his dictionary would tend to be dramatically smaller, but... – T.J. Crowder Jan 3 '12 at 9:50

Consider doing something in hardware that emulates a usb (or ps/2?) keyboard. You will no longer be dependent on a specific OS, or specific OS API. A hardware solution will stand the test of time. Don't be stuck using an old API in Windows 7 when everyone else is running Windows 11! Arduino is pretty easy to learn.

There is a ton of info and help out there for Arduino. It is a hardware hacking platform built for newbies. It will only get bigger now that Google is pushing Arduino.

EDIT: Virtual USB Keyboard software and hardware

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    this looks like the best answer so far – l--''''''---------'''''''''''' May 12 '11 at 20:43
  • I love the idea of using an Arduino for this. Memory could be a problem, though. It looks like the largest pre-designed boards have 256k of Flash (of which 8k is used by the bootloader). Back in the day, we crammed realtime translation / display / editing of machine shorthand into 1M under DOS (e.g., the usual 640k plus either EMS or extended memory), but we were writing tight C code and assembly and the dictionary (which could easily be >250k on its own) was on disk. Here there's be no display or simultaneous editing, so that's good, but the dictionary will have to be small... – T.J. Crowder May 15 '11 at 12:34
  • That's a big dictionary! :) – Brian O'Dell May 17 '11 at 19:14
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    @you may want to consider a teensy instead of an arduino (pjrc.com/teensy ) significantly more memory and can directly emulate a keyboard. It's compatible with many arduino libraries already and the incompatible ones just require pin reassignment. -- alternately, atmega also makes a demo board that has 16 MB of built in flash and costs about $30 (at90usbkey) – Marc Jun 23 '11 at 14:16
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    Designing a useful piano interface for a computer is not an easy task. IMHO, the OP should first prototype it in his/her current environment, then, IF it satisfies his/her needs, worry about portability. Unless, of course, the portable alternative is not noticeably harder. – Emilio M Bumachar Sep 19 '11 at 20:06

It sounds to me like you're looking less for advice on how to build this yourself and more asking what resources are already out there to accomplish what you want. Depending on your OS, there are many ways to accomplish this without having to write your own program from scratch:

MIDI Stroke

Free. For Mac OS X 10.3 and up. This one specifically comes with "the ability to use any MIDI keyboard as a full blown computer keyboard replacement."

Bome's MIDI Translator

Free/Postcardware (it's a bit odd). For Windows 2000 and up, and Mac OS X. It initially appears to be more geared towards AutoHotkey-type usage, but on further looking I think it could do what you want nicely.

Max and aka.keyboard

Free. For Mac OS X. Not exactly a "ready out of the box" solution, but if you are comfortable with basic device configuration, it shouldn't be too bad.

  • +1, the other answers are very interesting but this seems to me the only answer that will actually work within a reasonable timeframe. – cha0site Feb 22 '12 at 20:01

You can access the hardware with source code samples in .NET in MIDI DotNet.

A complete working sample as sourcecode to create MIDI notes data stream is in VB 5/6-Tipp 0521: MIDI-Töne erzeugen (Visual Basic 6.0, somewhere is .NET version too)

A way to simulate keyboard strokes is in VB 5/6-Tipp 0155: Tastaturereignisse simulieren (Visual Basic 6.0, somewhere is .NET version too)

And recognize keystrokes is describedin Tipp-Upload: VB.NET 0266: Globaler KeyHook.

Enter image description here

Then, just use a good working matrix for a piano player Timo Boehme www.goldengel.ch

On piano and when you're a good player, you can have 10 fingers on the keyboard and if the matrix is usable you can be much more quickly that any computer keyboard user I think. :-)

In that case, if I understand your question right, it should not be a big thing.

  • @I__ Thank you for the points. Actually I am busy. But if you are interested I can try to create such an application for you in WPF. – Nasenbaer Nov 29 '11 at 19:27
  • I am still interested. Also I am able to support mobile devices and Webservice for community work or work wireless on devices. Please see my public profile for contact and write with high priority in case of spam emails. – Nasenbaer Apr 3 '12 at 8:48

I studied piano performance in college and then got into interaction design, programming, and using Vim, so I have actually spent a lot of time prototyping things like this.

You can get this working pretty quick in Linux by using the graphical programming language for multimedia artists, "Pure Data," along with the x11key external by Alex Andre.

On Mac, you can use MidiStroke. I believe a method on Windows involved the MidiOx and AutoHotKey tools. At another time I had a version going using the Java plugin for Max/MSP. I believe Patrice Colet made a windows external for Pure Data that worked as well, but I can't seem to locate it anymore. Also, there's an external for MaxMSP that can do this on Windows. Finally, the non-free but awesome Osculator can do what you want - see the features page.

When I got it working, I never stuck with it, because I couldn't stop tooling with the layout. It was cool just having my monitor on my electric keyboard, though! Good luck.


About MIDI

You stated that you "know nothing at all about MIDI". MIDI technology is fairly straight-forward once you grasp it, but it can be confusing at the outset. One of the resources that has been tremendously helpful for me in understanding the foundations for MIDI (which are certainly necessary if you want to program MIDI interactions), is a book called MIDI for the Technophobe. It's an easy book to read and is very helpful.

Pure Data & Max

In my experience developing interactive multimedia, there are two very similar programs I have encountered that facilitate connecting and mapping signals/inputs from any device.

These are Max for a Mac environment and Pure Data for a PC environment. Both have a plethora of online documentation and YouTube tutorials. The video Max/MSP Tutorial 1 - using your computer keyboard as midikeyboard (ableton style) demonstrates a program built in Max that maps a computer keyboard to a MIDI keyboard's inputs (which is basically the exact opposite of what you are trying to do). You could get your intended results by using the same pattern, but reversing the signals/mappings.


AutoHotKey is a free open source utility for Windows that allows you to remap keys and buttons on your devices to macros. It natively supports QWERTY keyboards, joysticks and mouse macros.

However, I was able to find an implementation supporting the specific mapping you are looking for. These two threads explain the process:

  1. MIDI IN support in AutoHotkey , the discussion of the use case. The author was looking for a program that could detect MIDI IN input and translate that to keypresses.

  2. MIDI input library , the solution to the author's problem and the posted code/patch to AutoHotKey which actually implements your intended result.

Basically, it looks like AutoHotKey, along with this user's custom patch, will provide exactly what you need to create a mapping from a MIDI keyboard to a QWERTY keyboard's input signal. All you would have to do is install, configure and define your mappings.

Anything else?

Some of the other answers have given you much more extensive information on MIDI and MIDI programming, in general, but as your post states that doesn't seem to be quite what you are looking for. I would like to help you more if possible, but it would be easier if you could be more specific about the type of information you are looking for. For instance, are you more interested in how to convert a MIDI keyboard's input signals to a QWERTY keyboard's signals, or is your primary interest finding an out of the box solution to your specific problem? What are you looking for that has not yet been addressed?

  • this has been the best answer!!! thanks so much this is super helpful. what i need more information about is specifically translating a key press on my MIDI keyboard into a specific letter. – l--''''''---------'''''''''''' Jun 20 '11 at 20:57
  • @I__, glad I can help. Have you successfully been able to connect your MIDI controller to the computer? What hardware is involved (audio interface/soundcard, MIDI device)? – smartcaveman Jun 20 '11 at 22:26
  • @AbhranilDas i checked ur site out - AMAZING WORK good job – l--''''''---------'''''''''''' Feb 5 '12 at 4:11

You could hack your own USB keyboard pretty quickly using a Teenys micro controller.

In fact, they have example code for how to make a USB keyboard.

You could approach this two ways:

  1. Get an old piano and wire up switches directly to the teensy

  2. Add the additional logic to connect to the MIDI port and necessary decoding.

  • This is the most promising answer because once you complete the devices, it will work on any computer and any OS. Take it in to work or just be happy that you can upgrade your computer without worrying about the keyboard. I would use two Teensy devices, and connect them together with their I/O pins. Since Teensy already supports USB MIDI pjrc.com/teensy/td_midi.html your code just needs to take care of moving signals between the keyboard teensy and the midi teensy. – Michael Dillon Jun 18 '11 at 18:14

Actually, I worked on this a while ago, trying to capture Rock Band drum inputs into my computer (making a little Java homemade drum emulator) Anyway, I asked a question on here about that, Time delay problem (there is polling code in there, along with what I was attempting to do.). And if I can find my program I can give you the code, it uses a third-party API (JInput).

Good luck either way.


Try Bome's MIDI translator.

It works cross platform, can convert any MIDI input to a keystoke easily, quick to setup and configure, plus it's free for personal use.

There is a tutorial, Quick Tip: MIDI Translation – MIDI to Keystrokes, of how to easily set it up:

Basically, there are infinite possibilities of what you can do, including chording and modifier keys. I use it for my live audio rig to control my DAW using my piano and have never had an issue.


In Java, you can use JMF (Java Media framework) to convert MIDI signals. Basic of keyboard design is easy to use, that is, the user interface; and place frequently used charcter/symbol handy.

The sample code and API in Java Sound Resources: Examples: Digital Signal Processing (DSP) help to understand how to process the signal.

Some more references:


Casey has the best answer. I've added a comment to it and upvoted it. This kind of software belongs in either a device driver or an embedded system. Device drivers are much more complex and they are not portable to other OSes. For reference see the issues with Winmodems on Linux.

By putting your code in an embedded system, you make it portable to any MIDI device with a USB port, and any computer that accepts USB keyboards.


There is a program called GlovePIE. You can program it in a simple scripting language, and I believe it supports MIDI. I'm not sure if this fits under the "Java" category, but still, it is a great program. I've used it to control robots using PS3 controllers. It's very powerful.


Many keyboards have a serial port (RS-232) connector to send MIDI signals to the computer. I use a program called Girder to convert serial port communication into keyboard strokes.

Girder has a "mapping" feature that lets you map each key, one by one, to the corresponding keystroke.

This might be the simple solution you're looking for!


Just learn stenography!

It's clear from all the discussion on your part. You don't want to re-invent any wheels, from a technical standpoint. But once you have a connection made (what this question is asking) and up and working, you still have most of the work ahead of you: You have to train your brain. You also have to invent the cleverest, most efficient way to do that - a design issue totally out of the rhealm of computer techies. You or any of us would fall short.

Fortunately, the problem has been solved and honed though centuries of maturing...

Learn stenography!

Yes, this will set you back some jack. But what are hundreds of hours of your own time worth, with at the end, a less favorable result? Besides, the stenography Wikipedia article says, 'it looks more like a piano keyboard'.

Unless, of course, you want to have a sideshow effect going. I would have to admit, I never thought of this possibility, it it would be really entertaining to see somebody bust out a text from a piano keyboard!

You could start with a USB keyboard with touchpad (or a pointing stick would be more ergonomic?), use Plover to translate it (I'm sure it can be configured to let the non-letter keys retain their functionality as they are critical for programming), or, follow the thread Re: Plover keyboard to roll your own USB stenography keyboard, or, buy a stenotype.

Good luck!

  • Where are { and } on the stenography keyboard? How are you going to type names that are not words, like pthread? – bobobobo Apr 14 '13 at 4:55
  • The wikipedia link is wrong and should be en.wikipedia.org/wiki/Stenography – joelhoro Mar 6 '14 at 13:16

Take a look at MAME arcade gaming. They have built hardware devices to allow input from any number of different items. The iPac, for example, converts signals from input devices into USB that the computer can then use to emulate keys. You could use any combination of input devices arranged any way that seems comfortable with no crazy programming logic required--because the software to interpret input is already done and well tested.

I've seen flight simulator cockpit inputs, custom kiosks, and voting systems built in this method.....and the price is right!


Not really program related, but I can offer some advice on how to manage RSI.

There are timers that pace your work troughout the day introducing frequent micro-breaks. If you've researched RSI, I'm sure you've heard about micro-breaks. They're crucial to managing and preventing reoccurrences. A free program is Workrave

Give QWERTY the boot and try Dvorak. Here is a programmer Dvorak keyboard layout. Dvorak has the most often used characters on the home row whereas QWERTY does not. So using Dvorak will reduce the strain caused by not having to 'reach' for letters.

Grab that 'natural' keyboard out of the closet if you're not already using it. Type very lightly. The bare minimum to register a keystroke will do.

Try limiting coffee to one or two cups per day. Excessive caffeine will make you not feel tired and make it easy to forget you have RSI.

Excessive alcohol disrupts the sleep needed to allow your body to heal itself. A good night's rest is crucial for taming RSI.

Stretch using active isolated stetching. A good routine is described in Wrist, Hand & Finger Stretching Routine - Active Isolated Stretching.

Learn how to be ambidextrous with the mouse. Make sure the mouse is designed to be used by both hands and has buttons that are easy to click.

Use a pen tablet as your main input device. Wacom makes some decent inexpensive tablets.

Good luck!

  • I was just thinking that. I would split the keyboard in thirds, with the middle section the most used keys, plus you can tie in the sustain pedals to add extra layers. :) – Rich Feb 23 '12 at 7:45
  • Pssv malw H,soav ld,do jdpled altsld. ("Look man, Dvorak never helped anyone" typed on a QWERTY keyboard). I learned Dvorak and it actually made matters worse. My reasoning was it actually keeps your hands tensed up over the same 4 keys more of the time. That actually makes it worse for me. The main thing that helped was don't bang the keyboard, don't try and type at 3000 WPM at the cost of excessive backspacing, and think before you type. – bobobobo Apr 14 '13 at 6:07

To solve this you will need a few things:

  1. A way to capture MIDI data from your keyboard. Depending upon the interface: MIDI interface (classic) or USB MIDI interface (modern) the most likely interface is to a computer as it provides the most options. USB host microcontrollers are not as simple as just using a computer.

  2. A scheme to convert MIDI data into keystrokes. Like one user pointed out, chords are the way to go as the number of keys will not be dependent upon the number of piano keys.

  3. A way to inject a key into the operating system. This will require a low-level driver to be accurate. I have played around with applications that inject keyboard and mouse data into applications in Windows 7, and it can be flaky and depend upon whether an application is currently in focus. This is hardest part of the interface. What may work is to create a HID USB keyboard microcontroller that also has a serial interface.

The serial interface would create a virtual serial port. The software that reads the MIDI data and produces the keystrokes could send a serial message to the virtual serial port. The microcontroller would send a keystroke so it would look like a standard keyboard input. This would allow interfacing both MIDI ports and USB MIDI keyboards.

Hmmm, with this type of interface you could also simulate a mouse and use some piano keys setup for the mouse axis and buttons. The pressure could be used to determine mouse pointer velocity. So you could eliminate the mouse as well. Another benefit of this approach is any type of input device you connect could talk to the virtual serial port to produce keyboard and mouse events. So if you wanted to add other hardware such as drum pedals or a joystick it would be a matter of adjusting the program that talks to the serial interface.

Another take on the above is like some posted above to use an Arduino, but also include USB Host Shield from Sparkfun to handle USB based music keyboards. This allows the Arduino to be programmed as a keyboard or keyboard mouse combo in the boot loader chip and allows the device to act a USB host for the USB based music keyboard. Then you are covered for both types. Although, I still think the virtual serial port method is more flexible and would be easier to program in the long run. The Arduino device will be harder to change than a desktop program or service.

There is another possibility: Chorded one handed keyboards already exist. I have seen videos on them, but you would have to determine if those hurt your hands or not.

  • Which part solved your issue or is on its way to solving the issue? Did you want an all hardware version or a combo of hardware and software? This device really intrigues me. I am almost tempted to build it just so I can say I did. – Demolishun Jan 9 '12 at 7:11

Your pain symptoms could very well be psychosomatic.

I once thought I had RSI in my wrist for many months after a long night of playing computer games. Physical therapy did not help. After I read an article written by a doctor explaining that RSI, carpal tunnel, back pain and IBS can often be psychosomatic, especially in people who are under stress, the pain practically disappeared (it helped to visualize my wrist relaxing and blood flowing to it, since the article said that autonomic blood vessel constriction is the immediate cause of the pain). I was in fact suffering from a lot of stress at the time.

  • Ha ha, downmodded as I suspected I was going to be. People are so narrow minded. – ta23232 Dec 31 '11 at 18:19
  • you're absolutely right. 90% of my problem is all in my head. but whast the difference – l--''''''---------'''''''''''' Jan 1 '12 at 6:25
  • @ta23232 I have these problems as well, for about a year now. It is a hell. Still not sure what they are of, but likely stress. Have tried a lot of things, now I have given into the way of trying to stress down. But having a hard time not stressing. Programming for me equals Stress. I think the first thing I need to do now, is to read less about all these "diseases", since that stresses me up the most. Thanks for your help, let me know if there is anything in particular you could recommend. Are you pain free today? – momomo Feb 6 '12 at 9:00
  • @Hamidam im sorry for your challenges. it is 100% stress. you need to learn how to let go of the stress. you need to work with a shrink. either twice a month or once every week. there are hundreds of thousands of people who sit completely horribly and have "bad" ergonomics, yet they are completely fine. – l--''''''---------'''''''''''' Feb 21 '12 at 6:01

It should be fairly easy using something like the .NET DirectSound interface to hook into an MIDI device. You will need to identify your target MIDI device and then get the code to listen in on the incoming messages (there are articles about doing this via Google).

Since you are using the MIDI in as a keyboard there are basically only two MIDI messages that you need to detect, namely note on and note off. The MIDI message is three data bytes specifying the command, the note and the velocity. The note off is just the note number (sometimes 'bad' MIDI stacks send a note on with zero velocity which you also have to expect).

Once you have the messages translating them the keyboard output should be fairly simple from .NET.

There is plenty of advice in the other answers about the technicalities; I just wanted to give you an idea of the actual MIDI messages. Good luck!


You'll get better and happier results (regardless what operating system and/or DAW program you like to use) by playing any external MIDI keyboard as a controller through your sound card. Then route that into your GB software (or whatever) and tone generate the many sounds they have supplied you that way in real-time.

If your sound card does not support MIDI I/O's (ins / outs /thrus), that's not a problem. You can consider researching and investing in an external MIDI table top converter. Many are equipped to further convert MIDI outs to USB 2.0 (by- passing an existing sound card altogether).

For example: it's pretty tough getting "human like" grace note results via a Z and X change key option using a computer keyboard and pencil tool. When, instead, your own fingers can just play that with a MIDI keyboard from its own physical octave register ranges—immediately!

I realize budgetary constraints may be involved. But, some of these seemingly cheap "Casio" type 5 octave keyboards sold at Radio Shack for under $100.00 U.S. Dollars (*or less) is all you would need (plus, some of their on-board sound patches and sequencer modules sound and handle amazingly well for other things too).

RadioShack MIDI keyboard options.

As for external MIDI converters for existing sound cards, I've run some Google searches for you as follows with Mac platforms specifically in mind:

A lot of this external MIDI conversion information may be cumbersome to you at first, so I've broken down things more as "user friendly" for your considerations & budget:

There's nothing wrong with facilitating virtual keyboards as VST's when using DAW. They have their place.

But, you sound like an accomplished keyboardist. So, why not consider the external MIDI conversion / keyboard options I just mentioned for yourself?

Good luck and I hope this gave you some ideas that can and will work for you!

  • thank yuou very much for your feedback. can you please elaborate on the following...i already have a midi keyboard and i would like to know how i can convert the signal coming from the keyboard into actual letters? – l--''''''---------'''''''''''' Jun 23 '11 at 15:12

If you don't want to do any programming yourself but just want the problem solved you can just buy a USB-MIDI-keyboard where you can re-assign any key to send a QWERTY keyboard output signal instead of a MIDI-output, for example M-Audio Axiom Pro

This method will work with any OS and any computer that supports standard USB-keyboards since the MIDI-keyboard will identify itself as a standard QWERTY keyboard.

  • this is freakin amazing!!! thank you so much for this answer. i am reeally thinking of buying this – l--''''''---------'''''''''''' Apr 30 '12 at 15:19
  • do you know if it would be possible to assign chords to specific keystrokes as well? for example if i play C MAJOR chord can i have that be translated to "the fox jumped" – l--''''''---------'''''''''''' Apr 30 '12 at 15:19
  • this one deserves the 500 points, but not if you do not respond to questions – l--''''''---------'''''''''''' May 1 '12 at 15:01
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    nope you still deserve it for your simple kindness – l--''''''---------'''''''''''' May 8 '12 at 15:05
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    Oh, that was very nice of you. Thank you very much, I felt like I really screwed up there for a moment, but when I hear you say this I feel much better. Thanks! – Martin Odhelius May 10 '12 at 7:27

You can use a simple AutoIt script to both read MIDI events, see MIDI Input.

You'll also need MIDI UDF and simulate key presses.

Reading MIDI events should be easy, but different MIDI controllers (instruments) have different features. Try to find out what your MIDI piano can do first, then see how you can best map those features to simulated QWERTY-keyboard presses.

If you want, you could have something on screen or in the tray to help you see what you are doing (that is, for Shift, Ctrl and Alt simulation).


You might take a look at chorded keyboards. They have the advantage that you don't need to write a driver for them before you can use them, and some are similar to the layout of a piano keyboard.


If you know coding in Java, you could use this way:

First, implement a javax.sound.midi.Receiver with a send(..) method that is mapping the 'Note on' events to keystrokes like you want.

You would need to get the MidiMessage's content with its getMessage method and intepret it in your fashion. The meaning of the message bytes can be found in MIDI Messages.

After receiving a 'note on' or 'note off' for a certain keyboard key, you may map that to a key you like by assigning it a constant of the KeyEvent class, something like C#4 -> KeyEvent.VK_A and so on. This key code can then be used by java.awt.Robot's keyPress and keyRelease methods to actually send the keystroke to the OS and thus to other applications.


I know exactly how you feel. Doing crazy keyboard coding commands all-day makes my hands hurt.

A piano won't do the job (your better off getting a Dorvak keyboard). The best solution would be mental telepathy or at this moment in time voice control.

I find Arthro-Aid Direct cream is good and Wild Blend works OK as well.

The other thing I've noticed is that the mouse is also majorly to blame, most are un-ergonomic and clicking so much cause RSI and CTS. To overcome this I occasionally use auto mouse clickers, for example Auto Mouse Clicker.

I know of patents with mouse's as grips that you squeeze, I'm keen to buy.

PS: Get your income protection insurance before you see a doctor about your hands!

And don't program on weekends:)

  • you provide very good information. EXCEPT 'piano wont do this job' - are you a pianist? – l--''''''---------'''''''''''' Jan 20 '12 at 15:51
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    btw this is amazing amazing advice: ps Get your income protection insurance before you see a doctor about your hands! ----unfortunately you gave it too late for me – l--''''''---------'''''''''''' Jun 14 '12 at 22:34

I agree with Brian O'Dell's answer - if this were my project, I'd do it in hardware. It has the advantage of being platform and hardware independent - your box replaces the need for a MIDI-USB interface and a PC API.

mbed is a fast-prototyping platform that is very easy to learn, and has multiple advantages over Arduino IMHO (online compiler, 512 KB flash, 96 MHz, C++ language). It has a USB keyboard interface and a USB Midi interface pre-written for you.

The community is very friendly and willing to help, and there are a lot of existing projects using both MIDI and USB hid emulation - search Youtube for "mbed MIDI" or similar.


If you use Linux have a take at Footware.

It should be exactly what you're looking for - if you adjust the MIDI pitches to a keymapping of your liking...

I never thought this could be useful for anyone but me ;o)

  • are you actually using this for something? – l--''''''---------'''''''''''' Mar 28 '12 at 21:45
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    At my previous job as an admin I had a foot-controller under my desk - to minimize leaving the home-row in vim – FlashKorten Mar 31 '12 at 9:14

To type faster maybe it's an idea to 'play' the consonants on the left hand and the vowels on the right (or vice versa). You don't need a key for every consonant, because you could combine them like:

B    C    D    G    H    J    K    L    M    N    P    Q    R    S     T     W    X    Y    Z

c    c#   d    d#   e    f    f#   g    c+d ...

You can leave two close keys out (like c# + d, this doesn't play easily). You can even leave the black keys out.

For vowels it is easy:


c d e f g a

However, also think about using multiple keystrokes: like c# = aa, d# = ee, etc.

You can do the same trick with the consonants (having combination of keys for st, sp, etc.)

You can play consonants and vowels at the same time, bind them together alternately or with priority (consonants, then vowels, etc.)

You probably will have to learn to type again, but I'm sure you can do a lot quicker than a normal typing person can.

Use another octave for digits and special characters, use a switch for shift, use an easy to play a combination of keys for space (like two c-s with both left and right hand, make sure it doesn't mean (a) character(s)).

Also think about using a pedal which can have values of 0-127. You could use it as shift or space too ... or backspace/enter.

I hope this give some new ideas and good luck with your project.


The answers to your question are already on this page, but I'd like to make some additional inputs.

First, I'm not convinced typing on a piano keyboard instead will stop the pains. In this regard, I'll suggest you look into something like Nuance Dragon - Naturally Speaking for your typing.

Secondly, if you insist on going ahead with this, you'll probably need to go with Nasebnbaar's (though I don't agree it'll be any faster) and Brian's suggestion. This is probably something you should contact an engineer to do properly, but if you must do it yourself, you'd be better off asking for directions on Electrical Engineering - Stack Echange.

Thirdly, if you simply want to understand how MIDI files work, how to read them programmatically, and how to simulate a keyboard stroke, then good luck ;)

Lastly, I'd like to get a copy as well if you eventually decide to go with the second option :)

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