Sample size

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The sample size is the number of samples drawn from a defined [[Lecturenotes:Population|sample frame]] based on a certain [[Lectuenotes:Sampling design and plot design|sample design]]. Sample size calculation is an important reqirement in forest inventory as it directly affects the costs of the sampling exersise as well as the [[Lecturenotes:confidence interval|confidence interval]] for the derived estimations (Kleinn 2007<ref name="kleinn2007">Kleinn, C. 2007. Lecture Notes for the Teaching Module Forest Inventory. Department of Forest Inventory and Remote Sensing. Fakulty of Forest Science and Forest Ecology, Georg-August-Universität Göttingen. 164 S.</ref>). It is important to note, that the sample size is an absolute value (it refers to the number of samples) while the [[Lecturenotes:sampling intensity|sampling intensity]] is a relative value.
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The sample size is the number of samples drawn from a defined [[Lecturenotes:Population|sample frame]] based on a certain [[Lectuenotes:Sampling design and plot design|sample design]]. Sample size calculation is an important requirement in forest inventory as it directly affects the costs of the sampling exercise as well as the [[Lecturenotes:confidence interval|confidence interval]] for the derived estimations (Kleinn 2007<ref name="kleinn2007">Kleinn, C. 2007. Lecture Notes for the Teaching Module Forest Inventory. Department of Forest Inventory and Remote Sensing. Faculty of Forest Science and Forest Ecology, Georg-August-Universität Göttingen. 164 S.</ref>). It is important to note, that the sample size is an absolute value (it refers to the number of samples) while the [[Lecturenotes:sampling intensity|sampling intensity]] is a relative value.
  
The question about the required sample size can not be answered directly. But the question about what sample size is necessary to derive an estimation with a predetermined [[Lecturenotes:precicion|precision]] and a defined width of the confidence interval generally can be answered, though this answer is an estimation too (de Vries 1986<ref>de Vries, P.G., 1986. Sampling Theorie for Forest Inventory. A Teach-Yourself Course. Springer. 399 p.</ref>).
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The question about the required sample size can not be answered directly. But the question about what sample size is necessary to derive an estimation with a predetermined [[Lecturenotes:precicion|precision]] and a defined width of the confidence interval generally can be answered, though this answer is an estimation too (de Vries 1986<ref>de Vries, P.G., 1986. Sampling Theory for Forest Inventory. A Teach-Yourself Course. Springer. 399 p.</ref>).
  
 
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|text=It is intuivly clear that the required sample size must be related to some specifications (you may ask: required for what?). This predefined specification is the desired width of the confidence interval for the estimation. The width of this interval is determined by a defined error probability <math>\alpha</math> and a predefined ''allowable error'' (e.g. <math>\pm</math>10%). Further the [[Lecturenotes:variability|variability]] inside the population is affecting the required sample size that is necessary to meet the above specifications.
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|text=It is intuitively clear that the required sample size must be related to some specifications (you may ask: required for what?). This predefined specification is the desired width of the confidence interval for the estimation. The width of this interval is determined by a defined error probability <math>\alpha</math> and a predefined ''allowable error'' (e.g. <math>\pm</math>10%). Further the [[Lecturenotes:variability|variability]] inside the population is affecting the required sample size that is necessary to meet the above specifications.
 
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Revision as of 13:29, 19 October 2010

The sample size is the number of samples drawn from a defined sample frame based on a certain sample design. Sample size calculation is an important requirement in forest inventory as it directly affects the costs of the sampling exercise as well as the confidence interval for the derived estimations (Kleinn 2007[1]). It is important to note, that the sample size is an absolute value (it refers to the number of samples) while the sampling intensity is a relative value.

The question about the required sample size can not be answered directly. But the question about what sample size is necessary to derive an estimation with a predetermined precision and a defined width of the confidence interval generally can be answered, though this answer is an estimation too (de Vries 1986[2]).


info.png Note:
It is intuitively clear that the required sample size must be related to some specifications (you may ask: required for what?). This predefined specification is the desired width of the confidence interval for the estimation. The width of this interval is determined by a defined error probability \(\alpha\) and a predefined allowable error (e.g. \(\pm\)10%). Further the variability inside the population is affecting the required sample size that is necessary to meet the above specifications.


For simple random sampling the sample size can be calculated with:

\[A=t_{\alpha,v} S_{\bar {y}}\,\]

\[A=t_{\alpha,v} \frac {s}{\sqrt {n}}\rightarrow n= \frac {t^2 s^2}{A^2}\,\]

For sampling without replacement we have to consider a finit population correction and the calculation would look different. As already mentioned in the above note, the variability must be known to determine the required sample size. If prior information about the order of magnitude is available from earlier studies it can be used here. If not a pilot study needs to be carried out to derive an estimation of variance.

In practice it is difficult to clearly define and justify the level of accuracy that should be achieved for the specific purpose of the study and which error probability can be accepted. In most cases the budget is a limiting factor and the question "how to achieve best precision with a given budget" is to be answered.


info.png Note:
According to the calculation presented above the sample size is optimized towards a single variable of interest. For other variables the precision might be less or higher. As the variance might differ between multiple variables one typically consider in an inventory, it is necessary to prioritize the variable of interest.


References

  1. Kleinn, C. 2007. Lecture Notes for the Teaching Module Forest Inventory. Department of Forest Inventory and Remote Sensing. Faculty of Forest Science and Forest Ecology, Georg-August-Universität Göttingen. 164 S.
  2. de Vries, P.G., 1986. Sampling Theory for Forest Inventory. A Teach-Yourself Course. Springer. 399 p.


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