示例#1
0
def filter_data(data, filter_name, filter_file, bits, filterbank_off=False,
                    swstat_channel_name=None):
    '''
    A naive function to determine if the filter was on at the time
    and then filter the data.
    '''

    # if filterbank is off then return a time series of zeroes
    if filterbank_off:
        return numpy.zeros(len(data))

    # loop over the 10 filters in the filterbank
    for i in range(10):

        # read the filter
        filter = Filter(filter_file[filter_name][i])

        # if bit is on then filter the data
        bit = int(bits[-(i+1)])
        if bit:
            logging.info('filtering with filter module %d', i)

            # if there are second-order sections then filter with them
            if len(filter.sections):
                data = filter.apply(data)

            # else it is a filter with only gain so apply the gain
            else:
                try:
                    gain = float(filter.design.design.split(')')[0].strip('gain(')) 
                except ValueError as e:
                    print 'ValueError', e, 'using gain of 1'
                data = gain * data

    return  data
示例#2
0
def filter_data(data,
                filter_name,
                filter_file,
                bits,
                filterbank_off=False,
                swstat_channel_name=None):
    '''
    A naive function to determine if the filter was on at the time
    and then filter the data.
    '''

    # if filterbank is off then return a time series of zeroes
    if filterbank_off:
        return numpy.zeros(len(data))

    # loop over the 10 filters in the filterbank
    for i in range(10):

        # read the filter
        filter = Filter(filter_file[filter_name][i])

        # if bit is on then filter the data
        bit = int(bits[-(i + 1)])
        if bit:
            logging.info('filtering with filter module %d', i)

            # if there are second-order sections then filter with them
            if len(filter.sections):
                data = filter.apply(data)

            # else it is a filter with only gain so apply the gain
            else:
                coeffs = iir2z(filter_file[filter_name][i])
                if len(coeffs) > 1:
                    logging.info(
                        'Gain-only filter module return more than one number')
                    sys.exit()
                gain = coeffs[0]
                data = gain * data

    return data
示例#3
0
def filter_data(data, filter_name, filter_file, bits, filterbank_off=False,
                    swstat_channel_name=None):
    '''
    A naive function to determine if the filter was on at the time
    and then filter the data.
    '''

    # if filterbank is off then return a time series of zeroes
    if filterbank_off:
        return numpy.zeros(len(data))

    # loop over the 10 filters in the filterbank
    for i in range(10):

        # read the filter
        filter = Filter(filter_file[filter_name][i])

        # if bit is on then filter the data
        bit = int(bits[-(i+1)])
        if bit:
            logging.info('filtering with filter module %d', i)

            # if there are second-order sections then filter with them
            if len(filter.sections):
                data = filter.apply(data)

            # else it is a filter with only gain so apply the gain
            else:
                coeffs = iir2z(filter_file[filter_name][i])
                if len(coeffs) > 1:
                    logging.info('Gain-only filter module return more than one number')
                    sys.exit()
                gain = coeffs[0]
                data = gain * data

    return  data