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Topic: guitar frequencies (Read 2548 times) previous topic - next topic

Ducaqabe

Hie,

I am novice to arduino and even little knowledge of programming in general, I am doing guitar project where I have to implement/ write code for frequency calculation, means my task is to write a code which is visualize the real frequency of the 6 strings of the acoustic guitar on  a LCD. Is there any that can help  me for the coding? or any suggestion I will appreciate that help

thanks


Ducaqabe

thanks Magician


wen I compile the on that link, I got compile error, I think my arduino does'nt use cpp library

it does'nt recognize this line:  FreqCounter::f_comp=10;
and I downloaded  this file #include <FreqCounter.h>

MarkT


thanks Magician


wen I compile the on that link, I got compile error, I think my arduino does'nt use cpp library

it does'nt recognize this line:  FreqCounter::f_comp=10;
and I downloaded  this file #include <FreqCounter.h>



Did you download the whole library from that page and install it in .../sketchbook/libraries/ ?
[ I won't respond to messages, use the forum please ]

Ducaqabe

thanks MarT

I just download the one in this link http://interface.khm.de/index.php/lab/experiments/arduino-frequency-counter-library/

down the in the page: Download  >FreqCounter Library

valcarrara

I'm afraid frequency counter library won't work. It detects the frequency of a single frequency signal, and the guitar has several harmonic frequencies superimposed to the major tone, for a single guitar string. If you play all the 6 strings, probabily you get a real mess. The best approach to solve the problem would be to apply FFT (more on http://arduino.cc/forum/index.php/topic,38153.0.html), but it won't be easy. The reason is that the resulting signal is composed by the 6 string tones added to at least 3 harmonic for each tone. I believe it won't be simple to separate and to identify all these frequencies. Besides, to correctly detect the tone, the FFT shall have a resolution of at least 5 Hz (to distinguish between E2 and F2), and this means that the FFT window should be very large, depending on the sampling frequency. This makes real time frequency detection far from feasible.
I've been working on a similar problem, but I want detect a single guitar string frequency. It is still a hard problem, and I realized that FFT wouldn't run in real-time, due to the required large window (above 1024 points for 40 kHz sampling). Up to now I have an algorithm running on Matlab that gives the right frequency in real time to almost 70% of the tones (I think that I can improve it). It doesn't use FFT - it is based on zero-crossing times. If I manage to put it in the Arduino, then I will post it here.

Ducaqabe

Thanks Valcarrara  for reply.
sorry, It was my fault by  asking wrong/weird question, because what I want to get solution is : calculation/programming frequency of the guitar strings individually, using arduino code:
question says:
when you tone f.eks. biggest string E nr.6, we have to see the frequency of E(82 Hz) on the LCD, but just only E, and if we tune again the smallest string (e) nr.1 , we have to see 329 Hz on LCD and so on, individually at a time.  we have to use zero crossing algorithm, PWM or ADC convertion using timers, but my programming knowledge is minimal , guys can you please help me how code that. Thanks

Ducaqabe

Hi   
I am still waiting some help/hints  about  programming_ my guitar project- specifically  calculating frequency of a guitar strings and displaying it on LCD. the solution I have been required is like the picture of this link. http://www.pjrc.com/teensy/td_libs_FreqCount.html#compare
is there any one of you guys can help me  on that, I am using seeeduino board , I tried to use frequency library on the above link, but I get error 

thanks

Ducaqabe

Hi   guys,
I need some help/hints  about  programming_ my guitar project- specifically  calculating frequency of a guitar strings and displaying it on LCD. the solution I have been required is like the picture of this link. http://www.pjrc.com/teensy/td_libs_FreqCount.html#compare
question is like:
1- write a progrogram that measuring/calculating frequency of a acoustic guitars string individually
2- when you tune one string it should be seen the frequency on lcd, one string at one time, use a zero-crossing filter/formula
is there any one of you guys can help me  on that, I am using seeeduino board , I tried to use frequency library on the above link, but I get error 

thanks

PaulS

Quote
question is like:
1- write a progrogram that measuring/calculating frequency of a acoustic guitars string individually

This reads more like "Homework assignment is...".

What hardware are you using to measure anything? Specifically, how are you measuring the string vibrations individually? The code needs to be written to deal with that hardware.

Quote
2- when you tune one string it should be seen the frequency on lcd, one string at one time, use a zero-crossing filter/formula

How does "it" know when you are tuning one string vs. another?

Quote
is there any one of you guys can help me  on that, I am using seeeduino board , I tried to use frequency library on the above link, but I get error 

Oh, well, that's easy. Delete line 87. That will fix the error.

AWOL

I thought these two posts looked very similar, so I merged them.
"Pete, it's a fool looks for logic in the chambers of the human heart." Ulysses Everett McGill.
Do not send technical questions via personal messaging - they will be ignored.

Docedison

#11
Jan 17, 2013, 04:14 pm Last Edit: Jan 17, 2013, 04:32 pm by Docedison Reason: 1
Back in my childhood (14 - 15 years old) l tuned a couple of piano's, upright's with a Strobicon. We had some little felt tools that were used to mute the strings that weren't being tuned (3 strings/note) and tuning was simple. I even worked with another guy that was a pipe organ tuner and even though there were several pipes necessary for some voicing we still tuned one note at a time.. Lot of pipes in a 4 manual 17 rank pipe organ.
In my dotage I designed an FSK decoder, several as a matter of fact and it had to process the audio from an AM radio. This places several severe restrictions on what I could do due to noise, co-channel and skip reception. This was compounded by the processor speed of 400 KHz for very low power operation (the whole board with the radio drew 3.2 mA) what I finally did was to accept any 3 crossings in any bit frame that were the right perioid as a valid bit one or zero. I also repeated the message 3 times as I had no ack returned from the receiver.
Perhaps some food for thought?

Bob
{Edit RKJ)
--> WA7EMS <--
"The solution of every problem is another problem." -Johann Wolfgang von Goethe
I do answer technical questions PM'd to me with whatever is in my clipboard

GoForSmoke

Could you put a pickup on the guitar and pick 1 string at a time?

https://www.youtube.com/watch?v=aOJuCYgmPPE

But you'd have to do more to get it safely into Arduino to output to LCD for visualization.


Nick Gammon on multitasking Arduinos:
1) http://gammon.com.au/blink
2) http://gammon.com.au/serial
3) http://gammon.com.au/interrupts

Docedison

The issue with a pickup is that unless the rest of the strings are muted they will resonate too the absolute difference between any consecutive two notes is the 12th root  of 2 or 1.059463... (20 more places).

Bob
--> WA7EMS <--
"The solution of every problem is another problem." -Johann Wolfgang von Goethe
I do answer technical questions PM'd to me with whatever is in my clipboard

Ducaqabe

Thanks PaulS and AWOL for the help,

indeed it is part of  our project.
the hardware I am using,is microcontroller seeeduino ADK Mega2560 and LMD386 amplifier - when the string is tuned the signal from the guitars string should be amplified and it passed to arduino  pin0 , the signal should be again filtered and finally  it should be shown the frequency on LCD. the input and the output of the amplifier  are connected two coils-with electro-magatics , one input couil and the other is output coil(one coil is as microphone the other coil is making vabrating the string) , the tuning  is happen outomatically when the guitars string come very close to the magnatics, one  string at a time. the idea is like this link:http://www.youtube.com/watch?v=cz2E9Ijz9_I
I attached here the picture of the system.  I still need help about coding,  
thanks

obs: is that line 87 of the frequency library - ?  
but it is behaving like my compiler does'nt recognize c++ code
I am using arduino IDE-

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