ButtonBoxes
General
The buttonbox is used for time accurate(1ms) button press registration. We use it to register buttonpresses, soundkey, voicekey signals and to send tone onset, analog output, triggers with the BITSI protocol. It is suitable for Behavioral, EEG, MEG, and fMRI experiments. The buttonbox is connected to a computer with a usb connection.
BITSI Protocol
BITSI stands for Bits to Serial Interface.The hardware design is based on an interface board called Arduino, which is named a BITSI shield or add-on. The shield is designed in a way that it can be duplicated easily. Find the technical design drawings attached.
The output connector has two binary eight bit ports: input and output. The two ports can be used for responses (input) and stimulus triggers (output). Two 8 bits analog outputs and three 8 bits analog inputs. The output connector has a sound and voicekey which triggers when a amplitude reaches a threshold?. The baseline for this treshold is determined for 1 sec when the BITSIbox is powered (no sound should be applied). By using the serial port, the BITSI can be used platform independently: it works on Windows, Linux and Mac OSX. Most programming environments and stimulus packages support serial communication.
USB-Com port settings
TSG ButtonBox hardware 2013
TSG ButtonBox software 2013
Presentation Settings
File:Buttonbox1.png |
Psychopy Settings
#!/usr/bin/env python from psychopy import core, visual, event from rusocsci import buttonbox import logging, time ##Setup Section #logging.getLogger().setLevel(logging.DEBUG) # use this for debug info win = visual.Window([400,300], monitor="testMonitor") bb = buttonbox.Buttonbox() ##Experiment Section b = bb.waitButtons(maxWait = 10.0, buttonList=['A']) print("b: {}".format(b)) ##Cleanup Section core.quit() The following script lights the LEDs under the buttons pressed. #!/usr/bin/env python #from __future__ import print_function import logging, time, sys from rusocsci import buttonbox ##Setup Section led = [False]*8 ##Experiment Section bb = buttonbox.Buttonbox() while True: buttons = bb.getButtons() if len(buttons): for c in buttons: if ord(c) >= ord('a') and ord(c) < ord('a')+8: led[ord(c) - ord('a')] = False elif ord(c) >= ord('A') and ord(c) < ord('A')+8: led[ord(c) - ord('A')] = True bb.setLeds(led) #print("buttons ({:3d}): {}{}".format(len(buttons), buttons, " "*50), end="\r") #sys.stdout.flush()
Matlab Settings
=================================================================================================== function handle = serial_buttonbox_common(cmd,varargin) % to initialize connection: % handle = serial_buttonbox('open',se) % settings (se): % define settings as a structure, i.e.: % se.Device = 'COM1'; % se.BaudRate = 115200; % se.DataBits = 8; % se.StopBits = 1; % se.Parity = 0; % se.PTBPath = 'c:\MyToolboxes\PsychToolbox' % % to close the connection: % serial_buttonbox('close',handle); persistent old_hdl % set defaults se.Device = 'COM1'; se.BaudRate = 115200; se.DataBits = 8; se.StopBits = 1; se.Parity = 0; se.PTBPath = 'c:\Pgrogram Files\PsychToolbox'; if nargin < 1 cmd = 'open'; end if nargin > 1 % user overwrites default settings flds = fields(varargin{1}); for n = 1 : numel(flds) se.(flds{n}) = varargin{1}.(flds{n}); end end switch cmd case 'open' addpath(genpath(se.PTBPath)); % get handle to serial device handle = open_buttonbox(se.Device); return case 'close' handle = varargin{1}; IOPort('close',handle); return case 'run' % read incoming data if isempty(old_hdl) help serial_buttonbox_common error('Buttonbox not yet initialized'); end handle = old_hdl; otherwise fprintf('Unknown option %s\n',cmd); return end % only gets here when cmd = 'run' while 1 % start polling for characters (indicating start of scan) navailable = IOPort('BytesAvailable', handle); if navailable data = []; while navailable % read incoming data [newdata, ~, err] = IOPort('Read', handle, 0, navailable); if ~isempty(err), disp(err); end data = [data newdata]; %pause(0.001); % if possible just add a small pause to not claim entire core navailable = IOPort('BytesAvailable', handle); end if numel(data)>1 fprintf('\nReceived characters: %d\n',numel(data)); end for n = 1 : numel(data) % disp(char(data(n))); fprintf('incoming: %d\t%s\n',data(n),char(data(n))); end end end %while 1 function hdl = open_buttonbox(device) % open handle to serial device (mini buttonbox) try hdl = IOPort('OpenSerialPort',device,['BaudRate=' num2str(se.BaudRate)]); catch if ~isempty(old_hdl) IOPort('close',old_hdl); end hdl = IOPort('OpenSerialPort',device,['BaudRate=' num2str(se.BaudRate)]); end old_hdl = hdl; fprintf('Wait for device buttonbox....\n'); tic while ~IOPort('BytesAvailable', hdl) && toc<10 % wait for welcome message device end pause(0.5); % clear buffer %IOPort('flush', hdl); IOPort('purge', hdl); end end
Inquisit Settings
Work in progress
E-Prime
Work in progress