Searched refs:coefficients (Results 1 – 14 of 14) sorted by relevance
222 if ((num_linked_sensors == 0) || (data.coefficients.size() == 0) || in LinearModelInitialize()225 << "] or coefficients.size() [" << data.coefficients.size() in LinearModelInitialize()230 if (data.coefficients.size() != (num_linked_sensors * data.prev_samples_order)) { in LinearModelInitialize()231 LOG(ERROR) << "In valid args coefficients.size()[" << data.coefficients.size() in LinearModelInitialize()241 linear_model_instance_->coefficients.reserve(common_instance_->prev_samples_order); in LinearModelInitialize()247 single_order_coefficients.emplace_back(data.coefficients[i * num_linked_sensors + j]); in LinearModelInitialize()249 linear_model_instance_->coefficients.emplace_back(single_order_coefficients); in LinearModelInitialize()399 estimated_value += linear_model_instance_->coefficients[i][j] * in LinearModelEstimate()
55 std::vector<float> coefficients; member
148 std::vector<std::vector<float>> coefficients; member
272 std::vector<std::string> coefficients; in ParseVirtualSensorInfo() local337 coefficients.reserve(values.size()); in ParseVirtualSensorInfo()339 coefficients.emplace_back(values[j].asString()); in ParseVirtualSensorInfo()340 LOG(INFO) << "Sensor[" << name << "]'s coefficient[" << j << "]: " << coefficients[j]; in ParseVirtualSensorInfo()346 if ((linked_sensors.size() != coefficients.size()) && in ParseVirtualSensorInfo()358 } else if (values.size() != coefficients.size()) { in ParseVirtualSensorInfo()488 if ((!linked_sensors.size()) || (linked_sensors.size() > coefficients.size())) { in ParseVirtualSensorInfo()491 << linked_sensors.size() << "] or coefficients size[" << coefficients.size() in ParseVirtualSensorInfo()505 coefficients.size() / linked_sensors.size(); in ParseVirtualSensorInfo()514 for (size_t i = 0; i < coefficients.size(); ++i) { in ParseVirtualSensorInfo()[all …]
137 std::vector<std::string> coefficients; member157 std::vector<float> coefficients; member
289 float coefficient = power_rail_info.virtual_power_rail_info->coefficients[i]; in updatePowerRail()
323 for (size_t i = 0; i < sensor_info_pair.second.virtual_sensor_info->coefficients.size(); in dumpVirtualSensorInfo()325 *dump_buf << sensor_info_pair.second.virtual_sensor_info->coefficients[i] << " "; in dumpVirtualSensorInfo()602 << power_rail_pair.second.virtual_power_rail_info->coefficients[i] in dumpPowerRailInfo()
1264 if (!readDataByType(sensor_info.virtual_sensor_info->coefficients[i], &coefficient, in readThermalSensor()1268 << sensor_info.virtual_sensor_info->coefficients[i]; in readThermalSensor()
9 is modified by the provided coefficients from the corresponding viewport as
41 The application should specify [eq]#A# and [eq]#B# coefficients of the
84 * <p>The correction coefficients to correct for this camera device's
55 * <p>The correction coefficients to correct for this camera device's
779 * <p>The correction coefficients to correct for this camera device's1298 * <p>Noise model coefficients for each CFA mosaic channel.</p>1561 * that lists the coefficients used to correct for vignetting, for each1569 * that lists the coefficients used to correct for vignetting and color shading,
1073 * number of feedback coefficients N (for FIR filter, N = 1).1076 * float[M+N]: filter coefficients (b0, b1, ..., b_{M-1}), then