Groundwater flow equation: Difference between revisions

From formulasearchengine
Jump to navigation Jump to search
No edit summary
 
(One intermediate revision by one other user not shown)
Line 1: Line 1:
{{for|players of both rugby codes|List of dual-code rugby internationals}}
Hello friend. Let me introduce mуsеlf. ӏ am Sheba Alanis. Ңe is truly fond օf to go to fitness and noԝ he  [http://barneyfrankfurter.pen.io/ nätcasino sajterna] іs trying to [http://search.un.org/search?ie=utf8&site=un_org&output=xml_no_dtd&client=UN_Website_en&num=10&lr=lang_en&proxystylesheet=UN_Website_en&oe=utf8&q=earn+money&Submit=Go earn money] with it. Data processing is wɦat she does but soon she'll be օn ɦer оwn. [http://mondediplo.com/spip.php?page=recherche&recherche=Oklahoma Oklahoma] іs еxactly wҺere  [https://www.rebelmouse.com/matthewtidwell/casino-an-in-depth-anaylsis-on-673253829.html Casino Online] he's սsually bеen living. Seе ԝhat's new on mƴ web site heгe: https://mojoproau.zendesk.com/entries/52579634-The-Secret-To-Topplista-Villig-N%C3%A4tcasinon<br><br>my weblog: [https://mojoproau.zendesk.com/entries/52579634-The-Secret-To-Topplista-Villig-N%C3%A4tcasinon casino guide]
 
In [[coding theory]], the '''dual code''' of a [[linear code]]
 
:<math>C\subset\mathbb{F}_q^n</math>
 
is the linear code defined by
 
:<math>C^\perp = \{x \in \mathbb{F}_q^n \mid \langle x,c\rangle = 0\;\forall c \in C \} </math>
 
where
 
:<math>\langle x, c \rangle = \sum_{i=1}^n x_i c_i </math>
 
is a scalar product.  In [[linear algebra]] terms, the dual code is the [[Annihilator_(ring_theory)|annihilator]] of ''C'' with respect to the [[bilinear form]] <,>. The [[Dimension_(vector_space)|dimension]] of ''C'' and its dual always add up to the length ''n'':
 
:<math>\dim C + \dim C^\perp = n.</math> 
 
A [[generator matrix]] for the dual code is a [[parity-check matrix]] for the original code and vice versa. The dual of the dual code is always the original code.
 
==Self-dual codes==
A '''self-dual code''' is one which is its own dual. This implies that ''n'' is even and dim ''C'' = ''n''/2. If a self-dual code is such that each codeword's weight is a multiple of some constant <math>c > 1</math>, then it is of one of the following four types:<ref>{{cite book | last=Conway | first=J.H. | authorlink=John Horton Conway | coauthors=Sloane,N.J.A. | authorlink2=Neil Sloane | title=Sphere packings, lattices and groups | series=Grundlehren der mathematischen Wissenschaften | volume=290 | publisher=[[Springer-Verlag]] | date=1988 | isbn=0-387-96617-X | page=77}}</ref>
*'''Type I''' codes are binary self-dual codes which are not [[doubly even code|doubly even]]. Type I codes are always [[even code|even]] (every codeword has even [[Hamming weight]]).
*'''Type II''' codes are binary self-dual codes which are doubly even.
*'''Type III''' codes are ternary self-dual codes. Every codeword in a Type III code has Hamming weight divisible by 3.
*'''Type IV''' codes are self-dual codes over '''F'''<sub>4</sub>. These are again even.
 
Codes of types I, II, III, or IV exist only if the length ''n'' is a multiple of 2, 8, 4, or 2 respectively.
 
==References==
{{reflist}}
{{refbegin}}
* {{cite book | last=Hill | first=Raymond | title=A first course in coding theory | publisher=[[Oxford University Press]] | series=Oxford Applied Mathematics and Computing Science Series | date=1986 | isbn=0-19-853803-0 | page=67 }}
* {{cite book | last = Pless | first = Vera | authorlink=Vera Pless | title = Introduction to the theory of error-correcting codes | publisher = [[John Wiley & Sons]]|series = Wiley-Interscience Series in Discrete Mathematics | date = 1982| isbn = 0-471-08684-3 | page=8 }}
* {{cite book | author=J.H. van Lint | title=Introduction to Coding Theory | edition=2nd ed | publisher=Springer-Verlag | series=[[Graduate Texts in Mathematics|GTM]] | volume=86 | date=1992 | isbn=3-540-54894-7 | page=34}}
{{refend}}
 
== External links ==
* [http://www.maths.manchester.ac.uk/~pas/code/notes/part9.pdf MATH32031: Coding Theory - Dual Code] - pdf with some examples and explanations
 
[[Category:Coding theory]]

Latest revision as of 01:06, 21 November 2014

Hello friend. Let me introduce mуsеlf. ӏ am Sheba Alanis. Ңe is truly fond օf to go to fitness and noԝ he nätcasino sajterna іs trying to earn money with it. Data processing is wɦat she does but soon she'll be օn ɦer оwn. Oklahoma іs еxactly wҺere Casino Online he's սsually bеen living. Seе ԝhat's new on mƴ web site heгe: https://mojoproau.zendesk.com/entries/52579634-The-Secret-To-Topplista-Villig-N%C3%A4tcasinon

my weblog: casino guide