complete

American Heritage Dictionary:

com·plete

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(kəm-plēt') pronunciation

adj., -plet·er, -plet·est.

Having all necessary or normal parts, components, or steps; entire: a complete meal.
Botany. Having all principal parts, namely, the sepals, petals, stamens, and pistil or pistils. Used of a flower.
Having come to an end; concluded.
Absolute; total: "In Cairo I have seen buildings which were falling down as they were being put up, buildings whose incompletion was complete" (William H. Gass).
1. Skilled; accomplished: a complete musician.
2. Thorough; consummate: a complete coward.
Football. Caught in bounds by a receiver: a complete pass.

tr.v., -plet·ed, -plet·ing, -pletes.

To bring to a finish or an end: She has completed her studies.
To make whole, with all necessary elements or parts: A second child would complete their family.
Football. To throw (a forward pass) so as to be caught by a receiver.

[Middle English complet, from Latin complētus, past participle of complēre, to fill out : com-, intensive pref.; see com- + plēre, to fill.]

completely com·plete'ly adv.
completeness com·plete'ness n.
completive com·ple'tive adj.

SYNONYMS complete, close, end, finish, conclude, terminate. These verbs mean to bring or come to a natural or proper stopping point. Complete and finish suggest the final stage in an undertaking: "Nothing worth doing is completed in our lifetime" (Reinhold Niebuhr). "Give us the tools, and we will finish the job" (Winston S. Churchill). Close applies to the ending of something ongoing or continuing: The band closed the concert with an encore. End emphasizes finality: We ended the meal with fruit and cheese. Conclude is more formal than complete and close: The author concluded the article by restating the major points. Terminate suggests reaching an established limit: The playing of the national anthem terminated the station's broadcast for the night. It also indicates the dissolution of a formal arrangement: The firm terminated my contract yesterday.

USAGE NOTE Complete is sometimes considered absolute like perfect or chief, which is not subject to comparison. Nonetheless, it can be qualified as more or less, for example. A majority of the Usage Panel accepts the example His book is the most complete treatment of the subject. See Usage Notes at absolute.

complete

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adjective

Lacking nothing essential or normal: entire, full, intact, integral, perfect, whole. See part/whole.
Including every constituent or individual: all, entire, gross, total, whole. See part/whole.
Not shortened by omissions: unabbreviated, unabridged, uncensored, uncut, unexpurgated. See part/whole.
Not more or less: entire, full, good, perfect, round, whole. See part/whole, precise/imprecise.
Having reached completion: done, through. See part/whole.
Covering all aspects with painstaking accuracy: all-out, exhaustive, full-dress, intensive, thorough, thoroughgoing, thoroughpaced. See big/small/amount, careful/careless.
Completely such, without qualification or exception: absolute, all-out, arrant, consummate, crashing, damned, dead, downright, flat, out-and-out, outright, perfect, plain, pure, sheer, thorough, thoroughgoing, total, unbounded, unequivocal, unlimited, unmitigated, unqualified, unrelieved, unreserved, utter. Informal flat-out, positive. Chiefly British blooming. See big/small/amount, limited/unlimited.

verb

To bring or come to a natural or proper end: close, conclude, consummate, end, finish, terminate, wind up, wrap up. See start/end.
To supply what is lacking: complement, fill in (or out), round (off or out), supplement. See agree/disagree, part/whole.

Antonyms by Answers.com:

complete

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adj

Definition: finished
Antonyms: imperfect, incomplete, unfinished

adj

Definition: total, not lacking
Antonyms: defective, deficient, imperfect, incomplete, lacking, missing, needy, short, wanting

v

Definition: carry out action
Antonyms: forget, give up, halt, ignore, neglect, stop

Word Tutor:

complete

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IN BRIEF: Possessing all necessary parts.

The brain is not, and cannot be, the sole or complete organ of thought and feeling. — Antoinette Brown Blackwell, (1825-1921), American abolitionist, feminist, clergy.

LearnThatWord.com is a free vocabulary and spelling program where you only pay for results!

Saunders Veterinary Dictionary:

complete

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Including all of the subdivisions of the whole.

c. blood count (CBC) — see blood count.

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Completeness (statistics)

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This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (August 2009)

In statistics, completeness is a property of a statistic in relation to a model for a set of observed data. In essence, it is a condition which ensures that the parameters of the probability distribution representing the model can all be estimated on the basis of the statistic: it ensures that the distributions corresponding to different values of the parameters are distinct.

It is closely related to the idea of identifiability, but in statistical theory it is often found as a condition imposed on a sufficient statistic from which certain optimality results are derived.

Contents

1 Definition
- 1.1 Example 1: Bernoulli model
- 1.2 Example 2: Sum of normals
2 Relation to sufficient statistics
3 Importance of completeness
4 Notes
5 References

Definition

Consider a random variable X whose probability distribution belongs to a parametric family of probability distributions P_θ parametrized by θ.

Formally, a statistic s is a measurable function of X; thus, a statistic s is evaluated on a random variable X, taking the value s(X), which is itself a random variable. A given realization of the random variable X(ω) is a data-point (datum), on which the statistic s takes the value s(X(ω)).

The statistic s is said to be complete for the distribution of X if for every measurable function g the following implication holds:^{[citation needed]}

E(g(s(X))) = 0 for all θ implies that P_θ(g(s(X)) = 0) = 1 for all θ.

The statistic s is said to be boundedly complete if the implication holds for all bounded functions g.

Example 1: Bernoulli model

The Bernoulli model admits a complete statistic.^[1] Let X be a random sample of size n such that each X_i has the same Bernoulli distribution with parameter p. Let T be the number of 1's observed in the sample. T is a statistic of X which has a Binomial distribution with parameters (n,p). If the parameter space for p is [0,1], then T is a complete statistic. To see this, note that

$\operatorname{E}(g(T)) = \sum_{t=0}^n {g(t){n \choose t}p^{t}(1-p)^{n-t}} = (1-p)^n \sum_{t=0}^n {g(t){n \choose t}\left(\frac{p}{1-p}\right)^t} .$

Observe also that neither p nor 1 − p can be 0. Hence $E(g(T)) = 0$ if and only if:

$\sum_{t=0}^n g(t){n \choose t}\left(\frac{p}{1-p}\right)^t = 0.$

On denoting p/(1 − p) by r, one gets:

$\sum_{t=0}^n g(t){n \choose t}r^t = 0 .$

First, observe that the range of r is all positive reals except for 0. Also, E(g(T)) is a polynomial in r and, therefore, can only be identical to 0 if all coefficients are 0, that is, g(t) = 0 for all t.

It is important to notice that the result that all coefficients must be 0 was obtained because of the range of r. Had the parameter space been finite and with a number of elements smaller than n, it might be possible to solve the linear equations in g(t) obtained by substituting the values of r and get solutions different from 0. For example, if n = 1 and the parametric space is {0.5}, a single observation, T is not complete. Observe that, with the definition:

$g(t) = 2(t-0.5), \,$

then, E(g(T)) = 0 although g(t) is not 0 for t = 0 nor for t = 1.

Example 2: Sum of normals

This example will show that, in a sample of size 2 from a normal distribution with known variance, the statistic X1+X2 is complete and sufficient. Suppose (X₁, X₂) are independent, identically distributed random variables, normally distributed with expectation θ and variance 1. The sum

$s((X_1, X_2)) = X_1 + X_2\,\!$

is a complete statistic for θ.^{[citation needed]}

To show this, it is sufficient to demonstrate that there is no non-zero function $g$ such that the expectation of

$g(s(X_1, X_2)) = g(X_1+X_2)\,\!$

remains zero regardless of the value of θ.

That fact may be seen as follows. The probability distribution of X₁ + X₂ is normal with expectation 2θ and variance 2. Its probability density function in $x$ is therefore proportional to

$\exp\left(-(x-2\theta)^2/4\right).$

The expectation of g above would therefore be a constant times

$\int_{-\infty}^\infty g(x)\exp\left(-(x-2\theta)^2/4\right)\,dx.$

A bit of algebra reduces this to

$k(\theta) \int_{-\infty}^\infty h(x)e^{x\theta}\,dx\,\!$

where k(θ) is nowhere zero and

$h(x)=g(x)e^{-x^2/4}.\,\!$

As a function of θ this is a two-sided Laplace transform of h(X), and cannot be identically zero unless h(x) is zero almost everywhere.^{[citation needed]} The exponential is not zero, so this can only happen if g(x) is zero almost everywhere.

Relation to sufficient statistics

For some parametric families, a complete sufficient statistic does not exist. Also, a minimal sufficient statistic need not exist. (A case in which there is no minimal sufficient statistic was shown by Bahadur in 1957.^{[citation needed]}) Under mild conditions, a minimal sufficient statistic does always exist. In particular, these conditions always hold if the random variables (associated with P_θ ) are all discrete or are all continuous.^{[citation needed]}

Importance of completeness

The notion of completeness has many applications in statistics, particularly in the following two theorems of mathematical statistics.

Lehmann–Scheffé theorem

Completeness occurs in the Lehmann–Scheffé theorem,^{[citation needed]} which states that if a statistic that is unbiased, complete and sufficient for some parameter θ, then it is the best mean-unbiased estimator for θ. In other words, this statistic has a smaller expected loss for any convex loss function; in many practice applications with the squared loss-function, it has a smaller mean squared error among any estimators with the same expected value.

Basu's theorem

Bounded completeness occurs in Basu's theorem,^[2] which states that a statistic which is both boundedly complete and sufficient is independent of any ancillary statistic.

Bahadur's theorem

Bounded completeness also occurs in Bahadur's theorem. If a statistic is sufficient and boundedly complete, then it is minimal sufficient.

Notes

This article includes a list of references, related reading or external links, but its sources remain unclear because it lacks inline citations. Please improve this article by introducing more precise citations. (February 2012)

^ Casella, G. and Berger, R. L. (2001). Statistical Inference. (pp. 285-286). Duxbury Press.
^ Casella, G. and Berger, R. L. (2001). Statistical Inference. (pp. 287). Duxbury Press.

References

Basu, D. (1988). J. K. Ghosh. ed. Statistical information and likelihood : A collection of critical essays by Dr. D. Basu. Lecture Notes in Statistics. 45. Springer. ISBN 0-387-96751-6. MR 953081.
Bickel, Peter J.; Doksum, Kjell A. (2001). Mathematical statistics, Volume 1: Basic and selected topics (Second (updated printing 2007) of the Holden-Day 1976 ed.). Pearson Prentice–Hall. ISBN 0-13-850363-X. MR 443141.
E. L., Lehmann; Romano, Joseph P. (2005). Testing statistical hypotheses. Springer Texts in Statistics (Third ed.). New York: Springer. pp. xiv+784. ISBN 0-387-98864-5. MR 2135927. http://www.springerlink.com/content/978-0-387-98864-1#section=545952&page=1.
Lehmann, E.L.; Scheffé, H. (1950). "Completeness, similar regions, and unbiased estimation. I.". Sankhyā: the Indian Journal of Statistics 10 (4): 305–340. JSTOR 25048038. MR 39201.
Lehmann, E.L.; Scheffé, H. (1955). "Completeness, similar regions, and unbiased estimation. II". Sankhyā: the Indian Journal of Statistics 15 (3): 219–236. JSTOR 25048243. MR 72410.

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Translations:

Complete

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Dansk (Danish)
adj. - komplet, færdig, fuldendt
v. tr. - fuldføre, opfylde, udfylde, berigtige, fylde (år)

idioms:

complete with med tilhørende

Nederlands (Dutch)
compleet, voltallig, voltooien, afwikkelen, invullen (formulier)

Français (French)
adj. - complet, achevé, total, parfait (gentleman, sportif)
v. tr. - arranger, être complété, terminer, achever, compléter, remplir (questionnaire)

idioms:

complete with compléter par, mettre une touche finale

Deutsch (German)
v. - vervollständigen, komplettieren, beenden, abschließen
adj. - vollständig, komplett, völlig

idioms:

complete with komplett mit

Ελληνική (Greek)
v. - συμπληρώνω, αποπερατώνω, ολοκληρώνω
adj. - πλήρης, ακέραιος, τέλειος, ολοκληρωμένος, (καθομ.) βέρος, γνήσιος, τέλειος, σκέτος

idioms:

complete with περιλαμβάνων και, χωρίς να του λείπει

Italiano (Italian)
completare, compiere, finire, terminare, ultimare, riempire, essere portato a fine, essere finito, essere terminato, completo, intero

idioms:

complete with adempiere a

Português (Portuguese)
v. - concluir, inteirar, completar
adj. - completo, concluído, perfeito

idioms:

complete with preencher com

Русский (Russian)
заканчивать, выполнять, закончиться

idioms:

complete with снабдить

Español (Spanish)
adj. - completo, acabado, terminado, perfecto, consumado, total
v. tr. - terminar, completar, concluir, acabar, llenar

idioms:

complete with lleno de, con ... y todo

Svenska (Swedish)
v. - avsluta, komplettera
adj. - komplett, uttömmande

中文（简体）(Chinese (Simplified))
完整的, 完成的, 全部的, 结束的, 使齐全, 完成, 使完整, 结束

idioms:

complete with 连同, 具有

中文（繁體）(Chinese (Traditional))
adj. - 完整的, 完成的, 全部的, 結束的
v. tr. - 使齊全, 完成, 使完整, 結束

idioms:

complete with 連同, 具有

한국어 (Korean)
adj. - 완전한, 철저한
v. tr. - 완성하다, 전부 갖추다, 성공하다

idioms:

complete with ~로 채우다

日本語 (Japanese)
adj. - 全部の, 完備した, 完全な, 完了した, 完成した
v. - 完成する, 終える, 完全なものにする

idioms:

complete with 完備した

العربيه (Arabic)
‏(فعل) كمل, أكمل, أتم, أنهى, أنجز, فرغ من (صفه) تام, كامل‏

עברית (Hebrew)
adj. - ‮שלם, מושלם, מוחלט, גמור‬
v. tr. - ‮סיים, השלים‬

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