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Subject: [jvsw] Definition Edited At Word cnanydelta -- By krtisfranks
Date: Tue, 24 Apr 2018 21:57:53 -0700
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 Content preview:  In jbovlaste, the user krtisfranks has edited a definition
    of "cnanydelta" in the language "English". Differences: 2,2c2,2 < $x_1$ (li)
    is the (signed) difference between the average of all elements/data of $x_2$
    (completely specified ordered multiset/list) and number $x_3$ (default: infimum
    of $x_2$ under orderin [...] 
 
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In jbovlaste, the user krtisfranks has edited a
definition of "cnanydelta" in the language "English".

Differences:

2,2c2,2
< 		$x_1$ (li) is the (signed) difference between the average of all elements/data of $x_2$ (completely specified ordered multiset/list) and number $x_3$ (default: infimum of $x_2$ under ordering $x_6$ if such is finite), using averaging function $x_4$ (default: arithmetic average), weights $x_5$ (completely specified ordered multiset/list with the same cardinality/length as $x_2$; default: according to notes), and inherited ordering $x_6$ (default: standard ordering on the set of real).
---
> 		$x_1$ (li) is the (signed) difference between the average of all elements/data of $x_2$ (completely specified ordered multiset/list) and single number $x_3$ (li; default: infimum of $x_2$ under ordering $x_6$ if such is finite), using averaging function $x_4$ (default: arithmetic average), weights $x_5$ (completely specified ordered multiset/list with the same cardinality/length as $x_2$; default: according to notes), and inherited ordering $x_6$ (default: standard ordering on the set of reals).
5,5c5,5
< 		Default for $x_5$ is the same as the default for the weights of the given averaging function $x_4$, which for the arithmetic mean of a finite set is the ordered set of $|x_2|$ terms with each term equal identically to $1/|x_2|$, where "| |" represents the cardinality of its input (circumfixed). $x_6$ is defined on a superset of $x_2$ united with the singleton of $x_3$. The default for $x_6$ is {mrenspoi}. For example: If $x_2 = (1, 7)$ and all of the defaults hold, then $x_1 = avg(1,7) - min(1,7) = 4 - 1 = 3$; when all defaults hold and $x_2$ is a bounded set, $x_1$ is the difference between the arithmetic average of (or average of the uniform distribution on) $x_2$ and the infimum of $x_2$.
---
> 		Default for $x_5$ is the same as the default for the weights of the given averaging function $x_4$, which for the arithmetic mean of a finite set is the ordered set of $|x_2|$ terms with each term equal identically to $1/|x_2|$, where "| |" represents the cardinality of its input (circumfixed). $x_6$ is defined on a superset of $x_2$ united with the singleton of $x_3$. The default for $x_6$ is {mrenspoi}. For example: If $x_2 = (1, 7)$ and all of the defaults hold, then $x_1 = avg(1,7) - min(1,7) = 4 - 1 = 3$; when all defaults hold and $x_2$ is a bounded set, $x_1$ is the difference between the arithmetic average of (or average of the uniform distribution on) $x_2$ and the infimum of $x_2$. See also: "{sigma}".


Old Data:

	Definition:
		$x_1$ (li) is the (signed) difference between the average of all elements/data of $x_2$ (completely specified ordered multiset/list) and number $x_3$ (default: infimum of $x_2$ under ordering $x_6$ if such is finite), using averaging function $x_4$ (default: arithmetic average), weights $x_5$ (completely specified ordered multiset/list with the same cardinality/length as $x_2$; default: according to notes), and inherited ordering $x_6$ (default: standard ordering on the set of real).

	Notes:
		Default for $x_5$ is the same as the default for the weights of the given averaging function $x_4$, which for the arithmetic mean of a finite set is the ordered set of $|x_2|$ terms with each term equal identically to $1/|x_2|$, where "| |" represents the cardinality of its input (circumfixed). $x_6$ is defined on a superset of $x_2$ united with the singleton of $x_3$. The default for $x_6$ is {mrenspoi}. For example: If $x_2 = (1, 7)$ and all of the defaults hold, then $x_1 = avg(1,7) - min(1,7) = 4 - 1 = 3$; when all defaults hold and $x_2$ is a bounded set, $x_1$ is the difference between the arithmetic average of (or average of the uniform distribution on) $x_2$ and the infimum of $x_2$.

	Jargon:
		

	Gloss Keywords:
		Word: difference from average, In Sense: 

	Place Keywords:



New Data:

	Definition:
		$x_1$ (li) is the (signed) difference between the average of all elements/data of $x_2$ (completely specified ordered multiset/list) and single number $x_3$ (li; default: infimum of $x_2$ under ordering $x_6$ if such is finite), using averaging function $x_4$ (default: arithmetic average), weights $x_5$ (completely specified ordered multiset/list with the same cardinality/length as $x_2$; default: according to notes), and inherited ordering $x_6$ (default: standard ordering on the set of reals).

	Notes:
		Default for $x_5$ is the same as the default for the weights of the given averaging function $x_4$, which for the arithmetic mean of a finite set is the ordered set of $|x_2|$ terms with each term equal identically to $1/|x_2|$, where "| |" represents the cardinality of its input (circumfixed). $x_6$ is defined on a superset of $x_2$ united with the singleton of $x_3$. The default for $x_6$ is {mrenspoi}. For example: If $x_2 = (1, 7)$ and all of the defaults hold, then $x_1 = avg(1,7) - min(1,7) = 4 - 1 = 3$; when all defaults hold and $x_2$ is a bounded set, $x_1$ is the difference between the arithmetic average of (or average of the uniform distribution on) $x_2$ and the infimum of $x_2$. See also: "{sigma}".

	Jargon:
		

	Gloss Keywords:
		Word: difference from average, In Sense: 

	Place Keywords:




You can go to <http://jbovlaste.lojban.org/dict/cnanydelta> to see it.