/*! * \file front_end_cal.h * \brief Interface of the Front-end calibration program. * \author Javier Arribas, 2013. jarribas(at)cttc.es * * * ----------------------------------------------------------------------------- * * GNSS-SDR is a Global Navigation Satellite System software-defined receiver. * This file is part of GNSS-SDR. * * Copyright (C) 2010-2020 (see AUTHORS file for a list of contributors) * SPDX-License-Identifier: GPL-3.0-or-later * * ----------------------------------------------------------------------------- */ #ifndef GNSS_SDR_FRONT_END_CAL_H #define GNSS_SDR_FRONT_END_CAL_H #include #include #include class ConfigurationInterface; class FrontEndCal { public: FrontEndCal() = default; ~FrontEndCal() = default; /*! * \brief Sets the configuration data required by get_ephemeris function * */ void set_configuration(std::shared_ptr configuration); /*! * \brief This function connects to a Secure User Location Protocol (SUPL) server to obtain * the current GPS ephemeris and GPS assistance data. It requires the configuration parameters set by * set_configuration function. * */ bool get_ephemeris(); /*! * \brief This function estimates the GPS L1 satellite Doppler frequency [Hz] using the following data: * 1- Orbital model from the ephemeris * 2- Approximate GPS Time of Week (TOW) * 3- Approximate receiver Latitude and Longitude (WGS-84) * */ double estimate_doppler_from_eph(unsigned int PRN, double tow, double lat, double lon, double height) noexcept(false); /*! * \brief This function models the Elonics E4000 + RTL2832 front-end * Inputs: * f_bb_true_Hz - Ideal output frequency in baseband [Hz] * f_in_bb_meas_Hz - measured output frequency in baseband [Hz] * Outputs: * estimated_fs_Hz - Sampling frequency estimation based on the * measurements and the front-end model * estimated_f_if_bb_Hz - Equivalent bb if frequency estimation based on the * measurements and the front-end model * Front-end TUNER Elonics E4000 + RTL2832 sampler For GPS L1 1575.42 MHz * */ void GPS_L1_front_end_model_E4000(double f_bb_true_Hz, double f_bb_meas_Hz, double fs_nominal_hz, double *estimated_fs_Hz, double *estimated_f_if_Hz, double *f_osc_err_ppm); private: std::shared_ptr configuration_; /* * LLA2ECEF Convert geodetic coordinates to Earth-centered Earth-fixed * (ECEF) coordinates. P = LLA2ECEF( LLA ) converts an M-by-3 array of geodetic coordinates * (latitude, longitude and altitude), LLA, to an M-by-3 array of ECEF * coordinates, P. LLA is in [degrees degrees meters]. P is in meters. * The default ellipsoid planet is WGS84. Original copyright (c) by Kai Borre. */ arma::vec lla2ecef(const arma::vec &lla); /* * GEODETIC2ECEF Convert geodetic to geocentric (ECEF) coordinates * [X, Y, Z] = GEODETIC2ECEF(PHI, LAMBDA, H, ELLIPSOID) converts geodetic * point locations specified by the coordinate arrays PHI (geodetic * latitude in radians), LAMBDA (longitude in radians), and H (ellipsoidal * height) to geocentric Cartesian coordinates X, Y, and Z. The geodetic * coordinates refer to the reference ellipsoid specified by ELLIPSOID (a * row vector with the form [semimajor axis, eccentricity]). H must use * the same units as the semimajor axis; X, Y, and Z will be expressed in * these units also. * * The geocentric Cartesian coordinate system is fixed with respect to the * Earth, with its origin at the center of the ellipsoid and its X-, Y-, * and Z-axes intersecting the surface at the following points: * PHI LAMBDA * X-axis: 0 0 (Equator at the Prime Meridian) * Y-axis: 0 pi/2 (Equator at 90-degrees East * Z-axis: pi/2 0 (North Pole) * * A common synonym is Earth-Centered, Earth-Fixed coordinates, or ECEF. * * See also ECEF2GEODETIC, ECEF2LV, GEODETIC2GEOCENTRICLAT, LV2ECEF. * * Copyright 2004-2009 The MathWorks, Inc. * $Revision: 1.1.6.4 $ $Date: 2009/04/15 23:34:46 $ * Reference * --------- * Paul R. Wolf and Bon A. Dewitt, "Elements of Photogrammetry with * Applications in GIS," 3rd Ed., McGraw-Hill, 2000 (Appendix F-3). */ arma::vec geodetic2ecef(double phi, double lambda, double h, const arma::vec &ellipsoid); /* * Reads the ephemeris data from an external XML file */ bool read_assistance_from_XML(); /* * Connects to Secure User Location Protocol (SUPL) server to obtain * the current GPS ephemeris and GPS assistance data. */ int Get_SUPL_Assist(); const std::string eph_default_xml_filename = "./gps_ephemeris.xml"; }; #endif