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Workspace Method sensor_responseWMRF

Description

Adds WMRF weights to sensor response.

This method adds a spectrometer response that has been calculated
with the weighted mean of representative frequencies (WMRF) method. It
consists of a set of selected frequencies, and associated weights.

Authors: Stefan Buehler, based on Patrick Erikssons sensor_responseBackend

Synopsis

sensor_responseWMRF(

sensor_response, sensor_response_f, sensor_response_pol, sensor_response_dlos, sensor_response_f_grid, sensor_response_pol_grid, sensor_response_dlos_grid, wmrf_weights, f_backend )

Variables

OUT+IN	sensor_response	(Sparse)	The matrix modelling the total sensor response.
OUT+IN	sensor_response_f	(Vector)	The frequencies associated with the output of sensor_response.
OUT+IN	sensor_response_pol	(ArrayOfIndex)	The polarisation states associated with the output of sensor_response.
OUT+IN	sensor_response_dlos	(Matrix)	The relative zenith and azimuth angles associated with the output of sensor_response.
OUT+IN	sensor_response_f_grid	(Vector)	The frequency grid associated with sensor_response.
IN	sensor_response_pol_grid	(ArrayOfIndex)	The "polarisation grid" associated with sensor_response.
IN	sensor_response_dlos_grid	(Matrix)	The zenith and azimuth angles associated with sensor_response.
IN	wmrf_weights	(Sparse)	The weights for a WMRF fast calculation.
IN	f_backend	(Vector)	The frequency position of each backend (spectrometer) channel.