Part 2: Sending numeric data using App Inventor Bluetooth communications

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27 Responses

  1. bala says:

    can you say how to send the float value to the paired bluetooth device?
    while i try to send the value it shows as “could not decode as integer”

    • Edward M says:

      I am pretty sure that Bluetooth in App Inventor sends only integer values, not floating point values. But there are two possible solutions you could try.

      One is to just send the value as text. This, however, requires a conversion on each end – from a floating point number to text, and then from text to floating point. App Inventor makes this easy, if App Inventor is used on both ends – just assign a floating point value to a text variable and the conversion should happen automatically.

      The other way is to convert a floating value to a 4-byte long value. For example, let’s say we wanted to send a value such as 3.14.

      Send this as a large integer 314. Start with 3.14, multiply by 100 to give 314. Send the value 314, and then divide by 100 on the other end. This is known as “fixed point” representation.

      This method, obviously, does not work very extremely large floating point numbers, nor does it work for all potential decimal places unless extra code is added. Example: 3.14 versus 31.4 need to be handled differently.

  2. Carlos says:

    Hey! I wonder if anyone can help me with my problem. I am trying to finish this project as my thesis but after a month trying different ways to solve it, I really don’t know what else to do now.

    I am building my app with App inventor 2 and with my arduino. I have a gas sensor which via bluetooth sends the numbers to the app and whenever the value of the gas increases the phone has to give a notification and to speak some text.

    My problem is that I am trying different ways of receiving the value and I can not find the correct way to receive the numbers and then with a math block is needed to compare if that value is higher or lower than another value.

    So I will explain what I have and let’s see if it helps you to understand what I am doing wrong:
    Inside the timer it checks first if the bluetooth is connected, if so, set variable Sensor to Call Bluetooth BytesAvailableToReceive. And if button On is not enabled, set value text to get global Sensor.
    And right after that it comes the comparison, if get global Sensor is higher or equal than 700 then set Color Alarm red, call notification and call VoiceAlert.

    And here I just receive a number 1 on my label value. I have also tried different ways of receiving the value but none of them has worked yet, so if you could please help me to solve this I would really appreciate it.

    Thank you in advance for your help.


    • Edward M says:

      Have you tried sending data only from the Arduino to the Android device, independent of your application code? By splitting out and testing the BT communications link by itself, this might help to isolate whatever is causing this problem.


  3. Alan says:

    Hello there !
    Is it possible for a sensor to control an android apps using bluetooth ?

    • Edward M says:

      I think you mean, an external sensor? Yes, if the sensor can speak classic Bluetooth, then App Inventor code could talk with that sensor device.

      One way to do that is to use an external microcontroller and a serial Bluetooth adapter connected to the controller. Use the microcontroller to monitor the sensor readings and then send those to the Android device over the Bluetooth link.

      Be aware that App Inventor does not appear to support Bluetooth Low Energy (LE) devices. Bluetooth LE is becoming a popular choice for sensor networks. If you can stick with the older Bluetooth “classic”, you can use App Inventor.


  4. Maria says:

    Hi! Can I put the send button for texts and numbers together?

  5. Yohan says:

    Hi Edward,

    Thank you so much for your blog. It is very helpful. I’m just wondering, is there a way to send simple data through bluetooth by converting to either numeric or text data, and then the recipient device would convert it back to some useful way. I’m really interested in sending stuff other than just “texting”. Suppose that the app lets someone choose a fixed number of choices and the type of choices. Could the recipient get that info and translate it to a fixed number of choices automatically?

    • Edward M says:

      Yes, the actual transmission of the numeric values is in numeric or binary format when using the features to send 1, 2 or 4 byte numbers (see

      This separate tutorial on using App Inventor Bluetooth to communicate with an Arduino microcontroller does something similar to what you are seeking:

      That code sends a “command” and a “parameter” byte between the Android device and the Arduino board. That same code structure could be set up for App Inventor (and I may put that on my to do list as it would be very useful for Android to Android BT communications).


  6. ed says:

    Just a question. I send data from an Andoid to an arduino and that doesnt give any problems. However, I als want to send a single byte from the Arduino to my Android.I do that by sending a command from my Android to the Arduino, that then reacts by sending that single byte.
    i then use the readonebyte command to read that byte. However, it also reads previous Serial.print text that have been send by the Arduino. I use a command to flush the serial buffer but that doesnt seem to help.
    So my question is, how do i transfer 1 specific byte from Arduino to Android? The send is with Serial.write, but how do i isolate that specific byte upon receipt?

    • Edward M says:

      It sounds like a byte or bytes are being left in the input buffer. That could happen if, for example, the code checks
      if get bytesAvailable> 0 then

      BUT, suppose for whatever reason, there is an extra character in the incoming receive buffer. If that happens, then we have only the first of whatever bytes are there. I don’t know why there would be extra character(s) there, but once its is read, it should be cleared out.

      To clear the input buffer, you could do something like
      while get bytesAvailable > 0
      getbyte = Received1ByteNumber

      If there were 4 bytes in the input buffer, this should read them all out of the incoming input so that none are remaining. This is just an idea to try as I do not know why, specifically, you might have more than 1 byte in the input buffer – or even if that is the case.


  7. kevin says:

    Could you tell me bluetooth device how to send and receive 6-bytes (hex) data?
    I try to send but it show as “could not decode as integer”

    • Edward M says:

      Hi Kevin,

      MIT App Inventor only supports the transmission, over Bluetooth, of 1, 2 or 4-byte binary values.

      I recommend splitting your 6-byte binary value into a 2-byte value and a 4-byte value.

      I do not know what format your 6-byte value is, to begin with. If it is something that is already available as individual bytes, then you could just send the six bytes, one-byte at at time.

      If the 6-byte value is a number, then you may want to split it up. App Inventor is not great for this because App Inventor uses floating point numbers, not integer. Many programming languages have an easy way to shift the bits in a number to the left or right – we could take the 6-byte value and shift it 32 bits to the right, leaving us with just the 16 bits in the left most two bytes of the 6-byte value. (That is a bit of a head full of text – drawing it as 6 bytes and then shifting that 4 bytes to the right will illustrate the idea.)

      This leaves us with another way to try and split it up, by using division.

      Let’s say we have a 16-bit numeric value (in the range of 0 to 65,535, unsigned). To separate this in to two bytes, we can divide this number by 256 (2^8 or the largest number we can represent with 8 bits).

      Let’s say we have 40,000. Divide this by 256 to give a value of 156.25. This tells us we have 156 (in base 10, but really it would be in binary) in the left byte and 64 in the right byte (64 is 0.25 times 256). By doing this, we’ve split the 2-byte value into separate individual one byte values.

      We can do this with a six byte value too. Let’s say we have a big number that is larger than 2^32 (about 2 billion) and want to separate out the two left most bytes. We’d take the starting value, let’s call it X, and divide by 2^32:

      rounded off of X / (2^32) is going to be the left most two bytes.
      the remainder of X / (2^32) needs to be remultiplied by 2^32, giving us the numeric value of the right most 4 bytes.

      Their are potential problems with this approach. Floating point numeric values may end up rounding off bits that are important, and we’d lose some of the binary data. And also, we need to make sure that when we round() we are using something like the floor() function to just chop off the parts to the right of the decimal point (not round, which rounds up or down).

      Those are some ideas to work with. Good luck

      UPDATE: Another idea that may work far better in App Inventor. In the Math blocks section using the “convert number base 10 to hex block”. This would convert, potentially, a large numeric value into a text string of hex digits. Then you can text string block functions to extract each byte from the text and send it across the BT link as byte sized hex values.


  8. Hi Edward. Probbably you can help to solve my problem.
    I’m trying to send a set o decimals devided by “;” from Arduino to AppInventor. like 123;2345;200;500 some time AppInventor get full pack, but some time occasionaly split for few packs like “123;234” and “5;200;500” or maybe “123;” “2345;200;50” and “0” or any other way… It’s never missing any chars but some times split the pack — How to fix the problem?

    • Edward M says:

      I suspect it is a timing issue in how App Inventor transmits the data. Only part of the data has been received or read when the text string is returned to your app. I suspected this could happen when I wrote the code but had not exhaustively testing all possibilities.

      What you might do (or I might do at some point) is add a layer of code to this routine so that we add an “end of data” character. For example, let’s set our end of data character to “~”.

      We’d transmit our data as “123;2345;200;500~”.

      Then, when receiving the incoming data, we would continue to read characters until receiving the “~” character. If this comes in separate pieces, such as “123;2345;” and “200;500~”, we would continue to read incoming data and copy everything we’ve read into a single text string, until we receive the “~” character.

      We would then combine the two pieces into one piece.

      One way to do this would be to create a new procedure. I will give an example in pseudo code, something like this:

      ReadBTData(String DataRead)
      FullTextString =””
      ReadBT (String IncomingData, EndOfData)
      FullTextString = FullTextString + IncomingData
      Until EndOfData is true

      ReadBT would be the existing read data from Bluetooth code, but have it check to see if a “~” (or other end of data character you select) has been received.
      If the end of data character was received, then it sets the EndOfData value to True so that we know we’ve read everything.

      Basically, this is a procedure that just keeps reading incoming data until we know for sure that we’ve reached the end of the full data sent to us.


  9. seghier says:

    i have question ; if i write number like : 1975 and i want separate “19” and “75”
    how i can do that with appinventor?

    • Edward M says:

      There are two ways to split a number like that.

      If you take the number 1975 and divide it by 100, you get 19.75.

      If you use the Math function “floor”, the “floor” of 19.75 is 19 (it rounds the number down to the integer value) (but see this link for examples of where floating point numbers and floor might not give you what you want, although its because of decimal/binary conversion issues)

      You can get the fraction part (.75) by subtracting the original (19.75) minus the floor (19.75) giving you .75. Multiple that result by 100 and you’ve got 75.

      Now you have both the 19 and the 75.

      Another way is to treat the number 1975 as a text value and use the segment text function to extract the first two characters and then the second two characters.

      App Inventor automatically converts numbers into text format so you could use segment “1975”, 1, 2 to get the first 2 characters, and segment “1975”,3,2 to get the last 2 characters. While the result is in text, AI will also convert those back to numbers if used in an equation.


  10. Hank_Bot says:

    How to send five bytes information? Im trying to build a speech recognition app with Bluetooth communication device…

    • Edward M says:

      You can send a group of bytes all at once – use BluetoothClient.SendBytes

      The parameter value to this procedure is a List of bytes to send so you need to create a list with 5 separate byte values.

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