Created
March 9, 2015 12:57
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QSU - Fdom conversions
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| ## The limits of the instrument (milivolts) and the sensor (QSU) | |
| mv_conv <- data.frame(mv_limits = c(10.85, 4965),qsu_limits = c(0,200)) | |
| ## Plot the raw data to get an idea of what is hapenning | |
| plot(qsu_limits~mv_limits, mv_conv, xlab="mV (datalogger)", | |
| ylab = "Sensor limits (QSU)") | |
| ## Fit a model of the relationship | |
| mv_conv_mod <- lm(qsu_limits~mv_limits, mv_conv) | |
| ## Add the trend model to the plot | |
| abline(mv_conv_mod) | |
| ## An example to estimate the mV (Should be close to 100 QSU.) | |
| predict(mv_conv_mod, data.frame(mv_limits = 2500)) | |
| ## To correct for the sensor offset. | |
| qsu.df <- data.frame(measured_conc = c(6.9, 130), | |
| stand_conc = c(15, 150)) | |
| ## Fit a model to the ratio between the measured QSU and the factry QSU | |
| qsu_offset_conv <- lm(stand_conc~measured_conc, qsu.df) | |
| ## convert the measured QSU to the factory QSU | |
| predict(qsu_offset_conv, data.frame(measured_conc= 6.9)) | |
| ## Combining them together. | |
| qsu_measured <- predict(mv_conv_mod, data.frame(mv_limits = 10:4965)) | |
| plot(predict(qsu_offset_conv, data.frame(measured_conc= qsu_measured))) |
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