Variable structure: Difference between revisions

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{{variable}}
#REDIRECT[[Variable]]
==Scope==
[[Category:Open assessment]]
{{variable|moderator=Mikko Pohjola
| reference = {{publication
| authors        = Mikko Pohjola, Jouni T. Tuomisto
| page          = Variable structure
| explanation    =  
| publishingyear = 2009
| urn            =  
| elsewhere      =  
}}
}}


;The research question about the structure of a variable: What is a structure of a variable such that it
{{todo|Tämä sivu pitäisi päivittää. Pitäisi selittää termit parent ja child. Pitäisi muuttaa kaavakuvaa niin, ettei näkökulmana ole tiedon virtaus olion sisällä vaan käyttäjänäkökulma: kysymys tulee tarpeeseen, vastaus esittää ymmärrettävän vastauksen kysymykseen, perustelut antaa uskottavuuden kriittisen lukijan silmissä. Unit kuuluu jo vastaukseen, koska nyt perustelut tulevat vasta myöhemmin. Data on väliotsikkona yleensä turha ja voidaan jättää pois. --[[User:Jouni|Jouni]] 08:51, 21 August 2011 (EEST)|Jouni Tuomisto, Mikko Pohjola|project=Opasnet}}
 
==Question==
 
;What is a structure of a variable such that it:
:* is able to systematically handle all kinds of information about the particular piece of reality that the variable is describing,
:* is able to systematically handle all kinds of information about the particular piece of reality that the variable is describing,
:* is able to systematically describe causal relationships between variables,
:* is able to systematically describe causal relationships between variables,
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:* can be operationalised in a computational model system,
:* can be operationalised in a computational model system,
:* results in variables that are independent of the assessment(s) it belongs to;
:* results in variables that are independent of the assessment(s) it belongs to;
:* results in variables that pass the [[Plausibility test|clairvoyant test]].
:* results in variables that pass the [[Plausibility test|clairvoyant test]]?
 
==Definition==


===Data===
==Answer==
 
* [[Clairvoyant test]]
 
===Dependencies===
 
* [[PSSP]]
* [[Universal object]]
 
==Result==


{|{{prettytable}}
{|{{prettytable}}
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|  
|  
|-----
|-----
| '''Scope'''
| '''Question'''
|  
|  
| This includes a verbal definition of the spatial, temporal, and other limits (system boundaries) of the variable. The scope is defined according to the use purpose of the assessment(s) that the variable belongs to.
| This includes a question from the viewpoint of the user, such that serves the users purposes.
|-----
|-----
| rowspan="4" | '''Definition'''
| '''Answer'''
|
| An answer presents an understandable answer to the question. It is preferably a probability distribution (which can in a special case be a single number), but an answer can also be non-numerical such as "very valuable". The units of interconnected variables need to be coherent with each other given the functions describing causal relations. The units of variables can be used to check the coherence of the causal network description. This is a so called [[Plausibility test|unit test]].
|-----
| rowspan="4" | '''Rationale'''
| Rationale
| Rationale gives credibility to the answer in the eyes of a critical reader. It presents the reader the information required to derive the answer and explains how it is formed.
|----
| Dependencies
| Dependencies
| Dependencies {{reslink|Dependencies instead of causality}} tells what we know about how upstream variables (i.e. causal parents) affect the variable. Dependencies list the causal parents and expresses their functional relationships (the variable as a function of its parents) or probabilistic relationships (conditional probability of the variable given its parents). The expression of causality is '''independent''' of the data about the magnitude of the result of the variable.
| Dependencies {{reslink|Dependencies instead of causality}} tells what we know about how upstream variables (i.e. causal parents) affect the variable. Dependencies list the causal parents and expresses their functional relationships (the variable as a function of its parents) or probabilistic relationships (conditional probability of the variable given its parents).
|----
| Data
| Data tells what we know about the magnitude of the result of the variable. Data describes any non-causal information about the particular part of reality that is being described, such as direct measurements, measured data about an analogous situation (this requires some kind of error model), or expert judgment.
|----
| Unit
| Unit describes, in what measurement units the result is presented. The units of interconnected variables need to be coherent with each other given the functions describing causal relations. The units of variables can be used to check the coherence of the causal network description. This is a so called [[Plausibility test|unit test]].  
|----
|----
| Formula
| Formula
| Formula {{reslink|Discussion on formula attribute}} is an operationalisation of how to calculate or derive the result based on ''Dependencies'', ''Data'', and ''Unit'', making a synthesis of the three. Formula uses algebra, computer code, or other explicit methods if possible.
| Formula {{reslink|Discussion on formula attribute}} is an operationalisation of how to calculate or derive the result. Formula uses algebra, computer code, or other explicit methods if possible.
|-----
| '''Result'''
|
| A result is an estimate about the particular part of reality that is being described. It is preferably a probability distribution (which can in a special case be a single number), but a result can also be non-numerical such as "very valuable".  
|}
|}


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where R is the result and x<sub>1</sub> and x<sub>2</sub> are defining the locations along an [[index]] (e.g. [[Year3]]). Index is a technical tool for dealing with the '''dimensionality''' of the variable. A [[dimension]] means a property along which locations are located (e.g. [[:Category:Time|Time]]). In this case, x<sub>1</sub> and x<sub>2</sub> are indices along some dimensions, and particular values of x<sub>1</sub> and x<sub>2</sub> are locations. A variable can have zero, one, or more dimensions. Even if a dimension is continuous, it is usually operationalised in practice as a list of discrete locations. {{reslink|MC is not an uncertainty dimension of a variable}}
where R is the result and x<sub>1</sub> and x<sub>2</sub> are defining the locations along an [[index]] (e.g. [[Year3]]). Index is a technical tool for dealing with the '''dimensionality''' of the variable. A [[dimension]] means a property along which locations are located (e.g. [[:Category:Time|Time]]). In this case, x<sub>1</sub> and x<sub>2</sub> are indices along some dimensions, and particular values of x<sub>1</sub> and x<sub>2</sub> are locations. A variable can have zero, one, or more dimensions. Even if a dimension is continuous, it is usually operationalised in practice as a list of discrete locations. {{reslink|MC is not an uncertainty dimension of a variable}}
==Rationale==
===Dependencies===
* [[PSSP]]
* [[Universal object]]


==See also==
==See also==
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* [[Universal object]]
* [[Universal object]]
* [[Open assessment]]
* [[Open assessment]]
* [[Clairvoyant test]]


==References==
==References==
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<references/>
<references/>
[[Category:THL publications 2010]]
[[Category:THL publications 2009]]

Latest revision as of 09:48, 7 June 2012

Redirect to:



TODO: {{#todo:Tämä sivu pitäisi päivittää. Pitäisi selittää termit parent ja child. Pitäisi muuttaa kaavakuvaa niin, ettei näkökulmana ole tiedon virtaus olion sisällä vaan käyttäjänäkökulma: kysymys tulee tarpeeseen, vastaus esittää ymmärrettävän vastauksen kysymykseen, perustelut antaa uskottavuuden kriittisen lukijan silmissä. Unit kuuluu jo vastaukseen, koska nyt perustelut tulevat vasta myöhemmin. Data on väliotsikkona yleensä turha ja voidaan jättää pois. --Jouni 08:51, 21 August 2011 (EEST)|Jouni Tuomisto, Mikko Pohjola|Opasnet}}


Question

What is a structure of a variable such that it
  • is able to systematically handle all kinds of information about the particular piece of reality that the variable is describing,
  • is able to systematically describe causal relationships between variables,
  • enables both quantitative and qualitative descriptions,
  • is suitable for any kinds of variables, especially physical phenomena, decisions, and value judgements,
  • inherits its main structure from universal objects,
  • complies with the PSSP ontology,
  • can be operationalised in a computational model system,
  • results in variables that are independent of the assessment(s) it belongs to;
  • results in variables that pass the clairvoyant test?

Answer

Table 3. The attributes of a variable.
Attribute Sub-attribute Comments specfic to the variable attributes
Name
Question This includes a question from the viewpoint of the user, such that serves the users purposes.
Answer An answer presents an understandable answer to the question. It is preferably a probability distribution (which can in a special case be a single number), but an answer can also be non-numerical such as "very valuable". The units of interconnected variables need to be coherent with each other given the functions describing causal relations. The units of variables can be used to check the coherence of the causal network description. This is a so called unit test.
Rationale Rationale Rationale gives credibility to the answer in the eyes of a critical reader. It presents the reader the information required to derive the answer and explains how it is formed.
Dependencies Dependencies R↻ tells what we know about how upstream variables (i.e. causal parents) affect the variable. Dependencies list the causal parents and expresses their functional relationships (the variable as a function of its parents) or probabilistic relationships (conditional probability of the variable given its parents).
Formula Formula R↻ is an operationalisation of how to calculate or derive the result. Formula uses algebra, computer code, or other explicit methods if possible.

In addition, it is practical to have additional subtitles on a variable page. These are not attributes, though.

  • See also
  • References

Specific issues related to variable attributes

In a general form, the formula can be described as 

result = formula(causal parameters, data parameters, unit),
where formula is a function (expressed as algebra or computer code for a specified software) for calculating the result using the causal parameters (information from causally upstream variables) and the data parameters (information from observed data) as input. The formula can be placed within <anacode></anacode> or <rcode><rcode>, if it is expressed as Analytica or R code, respectively.

It should be noted that the result is the distribution itself, although it can be expressed as some kind of description of the distribution, such as mean and standard deviation. The result should be described in such a detailed way that the full distribution can be reproduced from the information presented under this attribute. A technically straightforward way to do this is to provide a large random sample from the distribution.

The result may be a different number for different locations, such as geographical positions, population subgroups, or other determinants (e.g. years 2000, 2001). Then, the result is described as 

  R given x1,x2,...

where R is the result and x1 and x2 are defining the locations along an index (e.g. Year3). Index is a technical tool for dealing with the dimensionality of the variable. A dimension means a property along which locations are located (e.g. Time). In this case, x1 and x2 are indices along some dimensions, and particular values of x1 and x2 are locations. A variable can have zero, one, or more dimensions. Even if a dimension is continuous, it is usually operationalised in practice as a list of discrete locations. R↻

Rationale

Dependencies

See also

References

Will appear here automatically, if cited above using the <ref></ref> tags.
Additional references can also be listed here.


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