Auto-zero/Auto-calibration

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(Difference between revisions)

Revision as of 21:06, 15 August 2010

1 Motivation
2 Mathematical Formulation
3 Examples
4 Various forms of
5 Areas of optimization

Motivation

In instrumentation, both in a supporting role and as a prime objective, measurements are taken that are subject to systematic errors. Routes to minimizing the effects of these errors are:

Spend more money on the hardware. This is valid but hits areas of diminishing returns; the price rises disproportionately with respect to increased accuracy.
Apparently, in the industrial processing industry, various measurement points are implemented and regressed to find "subspaces" that the process has to be operating on. Due to lack of experience I (RR) will not be covering that here; although others are welcome to (and replace this statement). This is apparently called "data reconciliation".
Calibrations are done and incorporated into the instrument. This can be done by analog adjustments or written into storage mediums for subsequent use by operators or software.
Runtime Auto-calibrations done at regular intervals. These are done at a variety of time intervals: every .01 seconds to 30 minutes. I can speak to these most directly; but I consider the "Calibrations" to be a special case.

Mathematical Formulation

Let

$LaTeX: x\,$ a vector of some environmental or control variables that need to be estimated
$LaTeX: \bar{x}$ a vector of calibration points
$LaTeX: \hat{x}$ be the estimate of $LaTeX: x\,$
a vector of nominal values of uncertain parameters affecting the measurement
- Assumed constant or designed in
be the errors in
- Assumed to vary but constant in the intervals between calibrations and real measurements
be the results of a measurement processes attempting to measure
- $LaTeX: y=Y(x;p,e)\,$ where $LaTeX: e\,$ might be additive, multiplicative, or some other form.
- $LaTeX: \bar{y}=Y(\bar{x};p,e)$ the reading values at the calibration points
- Subsequently $LaTeX: p\,$ will be assumed fixed for the problem realm; and dropped from notation
be estimates of derived from
- $LaTeX: \hat{e}=E(\bar{x},\bar{y})$
be a quality measure of resulting estimation; for example
- Where $LaTeX: x\,$ is allowed to vary over a domain for fixed $LaTeX: \hat{x}$
- The example is oversimplified as will be demonstrated below.
- $LaTeX: \hat{x}$ is typically decomposed into a chain using $LaTeX: \hat{e}$

Then the problem can be formulated as:

Given $LaTeX: \bar{x},\bar{y}$
Find a formula or process to select so as to minimize
- The reason for the process term $LaTeX: \hat{X}$ is that many correction schemes are feedback controlled; $LaTeX: \hat{X}$ is never computed, internally, although it might be necessary in design or analysis.

Examples

Biochemical temperature control where multiple temperature sensors are multiplexed into a data stream and one or more channels are set aside for Auto-calibration. Expected final systems accuracies of .05 degC are needed because mammalian temperature regulation has resulting in processes and diseases that are "tuned" to particular temperatures.

Infrared Gas analysers with either multiple stationary filters or a rotating filter wheel. In either case the components, sensors, and physical structures are subject to significant variation.

Various forms of $LaTeX: Q()\,$

Weighted least squares of $LaTeX: Q()\,$ over the range of $LaTeX: x\,$
Minimize mode of $LaTeX: \hat{e}$ with respect to the range of $LaTeX: e\,$ and the measurements $LaTeX: \bar{y}=Y(\bar{x};p,e)$
Minimize the mean of $LaTeX: \hat{e}$ with respect to the range of $LaTeX: e\,$ and the measurements $LaTeX: \bar{y}=Y(\bar{x};p,e)$
Minimize the worst case of $LaTeX: Q()\,$ over the range of $LaTeX: x\,$
Some weighting of the error interval with respect to $LaTeX: Q()\,$

Areas of optimization

Design

Runtime

Calibration usage

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@@ Line 29: / Line 29: @@
 Then the problem can be formulated as:
 *Given   <math>\bar{x},\bar{y}</math>
-*Find a formula or process to select <math>(\bar{x},\bar{y})\xrightarrow{\hat{X}} \hat{x}</math> so as to minimize <math>Q(x,\hat{x})</math>
+*Find a formula or process to select <math>(\bar{x},\bar{y})\xrightarrow{\hat{X}}\hat{x}</math> so as to minimize <math>Q(x,\hat{x})</math>
-** The reason for the process term is that many correction schemes are feedback controlled and internally never compute <math>\hat{X}</math> ; although it might be necessary in design or analysis.
+** The reason for the process term <math>\hat{X}</math> is that many correction schemes are feedback controlled; <math>\hat{X}</math> is never computed, internally, although it might be necessary in design or analysis.
 == Examples ==

Auto-zero/Auto-calibration

From Wikimization

Revision as of 21:06, 15 August 2010

Contents

Motivation

Mathematical Formulation

Examples

Various forms of $LaTeX: Q()\,$

Areas of optimization

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