Signals and Noise

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Analytical Sciences Digital Library

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Defining Signal and Noise

All analytical data sets contain two components: signal and noise

Signal

This is the part of the data that contains information about the chemical species of interest (i.e. analyte).
Signals are often proportional to the analyte mass or analyte concentration
1. Beer-Lambert Law in spectroscopy where the absorbance, A, is proportional to concentration, C.
  \[\mathrm{A = εbC}\]
  
  There are other significant relationships between signal and analyte concentration:
2. The Nernst equation where a measured potential (E) is logarithmically related to the activity of an analyte (a_x)
  \[\mathrm{E = E^\circ ± \dfrac{RT}{nF} \ln a_x}\]
3. Competitive immunoassays (e.g. ELISA) where labeled (analyte spike) and unlabeled analyte molecules (unknown analyte) compete for antibody binding sites
  \[\mathrm{A = kN_{binding\: sites} = \dfrac{C_{labeled}} {C_{(labeled+unlabeled)}}}\]

Noise

This is the part of the data that contains extraneous information.
Noise originates from various sources in an analytical measurement system, such as:
1. Detectors
2. Photon Sources
3. Environmental Factors
Therefore, characterizing the magnitude of the noise (N) is often a difficult task and may or may not be independent of signal strength (S).
A more detailed discussion on specific relationships between signal and noise may be obtained by clicking here and reading Section 3.