However, has heavier tails and the amount of probability mass in the tails is controlled by the parameter For the Student's t distribution becomes the standard Cauchy distribution, which has very "fat" tails; whereas for it becomes the standard normal distribution which has very "thin" tails.
The Student's t distribution plays a role in a number of widely used statistical analyses, including Student's t test for assessing the statistical significance of the difference between two sample means, the construction of confidence intervals for the difference between two population means, and in linear regression analysis.
In the form of the location-scale t distribution it generalizes the normal distribution and also arises in the Bayesian analysis of data from a normal family as a compound distribution when marginalizing over the variance parameter.
History and etymology
Statistician William Sealy Gosset, known as "Student"
In the English-language literature, the distribution takes its name from William Sealy Gosset's 1908 paper in Biometrika under the pseudonym "Student".[10] One version of the origin of the pseudonym is that Gosset's employer preferred staff to use pen names when publishing scientific papers instead of their real name, so he used the name "Student" to hide his identity. Another version is that Guinness did not want their competitors to know that they were using the t test to determine the quality of raw material.[11][12]
Gosset worked at the Guinness Brewery in Dublin, Ireland, and was interested in the problems of small samples – for example, the chemical properties of barley where sample sizes might be as few as 3. Gosset's paper refers to the distribution as the "frequency distribution of standard deviations of samples drawn from a normal population". It became well known through the work of Ronald Fisher, who called the distribution "Student's distribution" and represented the test value with the letter t.[13][14]
where is the Beta function. In particular for integer valued degrees of freedom we have:
For and even,
For and odd,
The probability density function is symmetric, and its overall shape resembles the bell shape of a normally distributed variable with mean 0 and variance 1, except that it is a bit lower and wider. As the number of degrees of freedom grows, the t distribution approaches the normal distribution with mean 0 and variance 1. For this reason is also known as the normality parameter.[15]
The following images show the density of the t distribution for increasing values of The normal distribution is shown as a blue line for comparison. Note that the t distribution (red line) becomes closer to the normal distribution as increases.
Density of the t distribution (red) for 1, 2, 3, 5, 10, and 30 degrees of freedom compared to the standard normal distribution (blue). Previous plots shown in green.
Student's t distribution generalizes to the three parameter location-scale t distribution by introducing a location parameter and a scale parameter With
Suppose X1, ..., Xn are independent realizations of the normally-distributed, random variable X, which has an expected value μ and varianceσ2. Let
be the sample mean, and
be an unbiased estimate of the variance from the sample. It can be shown that the random variable
has a chi-squared distribution with degrees of freedom (by Cochran's theorem).[20] It is readily shown that the quantity
is normally distributed with mean 0 and variance 1, since the sample mean is normally distributed with mean μ and variance σ2/n. Moreover, it is possible to show that these two random variables (the normally distributed one Z and the chi-squared-distributed one V) are independent. Consequently[clarification needed] the pivotal quantity
which differs from Z in that the exact standard deviation σ is replaced by the random variable Sn, has a Student's t-distribution as defined above. Notice that the unknown population variance σ2 does not appear in T, since it was in both the numerator and the denominator, so it canceled. Gosset intuitively obtained the probability density function stated above, with equal to n − 1, and Fisher proved it in 1925.[13]
The distribution of the test statistic T depends on , but not μ or σ; the lack of dependence on μ and σ is what makes the t-distribution important in both theory and practice.
Sampling distribution of t-statistic
The t distribution arises as the sampling distribution
of the t statistic. Below the one-sample t statistic is discussed, for the corresponding two-sample t statistic see Student's t-test.
Unbiased variance estimate
Let be independent and identically distributed samples from a normal distribution with mean and variance The sample mean and unbiased sample variance are given by:
The resulting (one sample) t statistic is given by
and is distributed according to a Student's t distribution with degrees of freedom.
Thus for inference purposes the t statistic is a useful "pivotal quantity" in the case when the mean and variance are unknown population parameters, in the sense that the t statistic has then a probability distribution that depends on neither nor
ML variance estimate
Instead of the unbiased estimate we may also use the maximum likelihood estimate
yielding the statistic
This is distributed according to the location-scale t distribution:
Compound distribution of normal with inverse gamma distribution
The location-scale t distribution results from compounding a Gaussian distribution (normal distribution) with mean and unknown variance, with an inverse gamma distribution placed over the variance with parameters and In other words, the random variableX is assumed to have a Gaussian distribution with an unknown variance distributed as inverse gamma, and then the variance is marginalized out (integrated out).
Equivalently, this distribution results from compounding a Gaussian distribution with a scaled-inverse-chi-squared distribution with parameters and The scaled-inverse-chi-squared distribution is exactly the same distribution as the inverse gamma distribution, but with a different parameterization, i.e.
The reason for the usefulness of this characterization is that in Bayesian statistics the inverse gamma distribution is the conjugate prior distribution of the variance of a Gaussian distribution. As a result, the location-scale t distribution arises naturally in many Bayesian inference problems.[21]
There are various approaches to constructing random samples from the Student's t distribution. The matter depends on whether the samples are required on a stand-alone basis, or are to be constructed by application of a quantile function to uniform samples; e.g., in the multi-dimensional applications basis of copula-dependency.[citation needed] In the case of stand-alone sampling, an extension of the Box–Muller method and its polar form is easily deployed.[23] It has the merit that it applies equally well to all real positive degrees of freedom, ν, while many other candidate methods fail if ν is close to zero.[23]
Integral of Student's probability density function and p-value
The function A(t | ν) is the integral of Student's probability density function, f(t) between -t and t, for t ≥ 0 . It thus gives the probability that a value of t less than that calculated from observed data would occur by chance. Therefore, the function A(t | ν) can be used when testing whether the difference between the means of two sets of data is statistically significant, by calculating the corresponding value of t and the probability of its occurrence if the two sets of data were drawn from the same population. This is used in a variety of situations, particularly in t tests. For the statistic t, with ν degrees of freedom, A(t | ν) is the probability that t would be less than the observed value if the two means were the same (provided that the smaller mean is subtracted from the larger, so that t ≥ 0 ). It can be easily calculated from the cumulative distribution functionFν(t) of the t distribution:
For statistical hypothesis testing this function is used to construct the p-value.
Related distributions
The noncentral t distribution generalizes the t distribution to include a noncentrality parameter. Unlike the nonstandardized t distributions, the noncentral distributions are not symmetric (the median is not the same as the mode).
Here a, b, and k are parameters. This distribution arises from the construction of a system of discrete distributions similar to that of the Pearson distributions for continuous distributions.[25]
One can generate Student A(t | ν) samples by taking the ratio of variables from the normal distribution and the square-root of the χ²distribution. If we use instead of the normal distribution, e.g., the Irwin–Hall distribution, we obtain over-all a symmetric 4 parameter distribution, which includes the normal, the uniform, the triangular, the Student t and the Cauchy distribution. This is also more flexible than some other symmetric generalizations of the normal distribution.
Student's t distribution arises in a variety of statistical estimation problems where the goal is to estimate an unknown parameter, such as a mean value, in a setting where the data are observed with additive errors. If (as in nearly all practical statistical work) the population standard deviation of these errors is unknown and has to be estimated from the data, the t distribution is often used to account for the extra uncertainty that results from this estimation. In most such problems, if the standard deviation of the errors were known, a normal distribution would be used instead of the t distribution.
Confidence intervals and hypothesis tests are two statistical procedures in which the quantiles of the sampling distribution of a particular statistic (e.g. the standard score) are required. In any situation where this statistic is a linear function of the data, divided by the usual estimate of the standard deviation, the resulting quantity can be rescaled and centered to follow Student's t distribution. Statistical analyses involving means, weighted means, and regression coefficients all lead to statistics having this form.
Quite often, textbook problems will treat the population standard deviation as if it were known and thereby avoid the need to use the Student's t distribution. These problems are generally of two kinds: (1) those in which the sample size is so large that one may treat a data-based estimate of the variance as if it were certain, and (2) those that illustrate mathematical reasoning, in which the problem of estimating the standard deviation is temporarily ignored because that is not the point that the author or instructor is then explaining.
Hypothesis testing
A number of statistics can be shown to have t distributions for samples of moderate size under null hypotheses that are of interest, so that the t distribution forms the basis for significance tests. For example, the distribution of Spearman's rank correlation coefficientρ, in the null case (zero correlation) is well approximated by the t distribution for sample sizes above about 20.[citation needed]
Confidence intervals
Suppose the number A is so chosen that
when T has a t distribution with n − 1 degrees of freedom. By symmetry, this is the same as saying that A satisfies
so A is the "95th percentile" of this probability distribution, or Then
and this is equivalent to
Therefore, the interval whose endpoints are
is a 90% confidence interval for μ. Therefore, if we find the mean of a set of observations that we can reasonably expect to have a normal distribution, we can use the t distribution to examine whether the confidence limits on that mean include some theoretically predicted value – such as the value predicted on a null hypothesis.
It is this result that is used in the Student's t tests: since the difference between the means of samples from two normal distributions is itself distributed normally, the t distribution can be used to examine whether that difference can reasonably be supposed to be zero.
If the data are normally distributed, the one-sided (1 − α) upper confidence limit (UCL) of the mean, can be calculated using the following equation:
The resulting UCL will be the greatest average value that will occur for a given confidence interval and population size. In other words, being the mean of the set of observations, the probability that the mean of the distribution is inferior to UCL1 − α is equal to the confidence level 1 − α .
Prediction intervals
The t distribution can be used to construct a prediction interval for an unobserved sample from a normal distribution with unknown mean and variance.
In Bayesian statistics
The Student's t distribution, especially in its three-parameter (location-scale) version, arises frequently in Bayesian statistics as a result of its connection with the normal distribution. Whenever the variance of a normally distributed random variable is unknown and a conjugate prior placed over it that follows an inverse gamma distribution, the resulting marginal distribution of the variable will follow a Student's t distribution. Equivalent constructions with the same results involve a conjugate scaled-inverse-chi-squared distribution over the variance, or a conjugate gamma distribution over the precision. If an improper prior proportional to 1/σ² is placed over the variance, the t distribution also arises. This is the case regardless of whether the mean of the normally distributed variable is known, is unknown distributed according to a conjugate normally distributed prior, or is unknown distributed according to an improper constant prior.
Related situations that also produce a t distribution are:
The marginalposterior distribution of the unknown mean of a normally distributed variable, with unknown prior mean and variance following the above model.
The t distribution is often used as an alternative to the normal distribution as a model for data, which often has heavier tails than the normal distribution allows for; see e.g. Lange et al.[26] The classical approach was to identify outliers (e.g., using Grubbs's test) and exclude or downweight them in some way. However, it is not always easy to identify outliers (especially in high dimensions), and the t distribution is a natural choice of model for such data and provides a parametric approach to robust statistics.
A Bayesian account can be found in Gelman et al.[27] The degrees of freedom parameter controls the kurtosis of the distribution and is correlated with the scale parameter. The likelihood can have multiple local maxima and, as such, it is often necessary to fix the degrees of freedom at a fairly low value and estimate the other parameters taking this as given. Some authors[citation needed] report that values between 3 and 9 are often good choices. Venables and Ripley[citation needed] suggest that a value of 5 is often a good choice.
Student's t process
For practical regression and prediction needs, Student's t processes were introduced, that are generalisations of the Student t distributions for functions. A Student's t process is constructed from the Student t distributions like a Gaussian process is constructed from the Gaussian distributions. For a Gaussian process, all sets of values have a multidimensional Gaussian distribution. Analogously, is a Student t process on an interval if the correspondent values of the process () have a joint multivariate Student t distribution.[28] These processes are used for regression, prediction, Bayesian optimization and related problems. For multivariate regression and multi-output prediction, the multivariate Student t processes are introduced and used.[29]
Table of selected values
The following table lists values for t distributions with ν degrees of freedom for a range of one-sided or two-sided critical regions. The first column is ν, the percentages along the top are confidence levels and the numbers in the body of the table are the factors described in the section on confidence intervals.
The last row with infinite ν gives critical points for a normal distribution since a t distribution with infinitely many degrees of freedom is a normal distribution. (See Related distributions above).
One-sided
75%
80%
85%
90%
95%
97.5%
99%
99.5%
99.75%
99.9%
99.95%
Two-sided
50%
60%
70%
80%
90%
95%
98%
99%
99.5%
99.8%
99.9%
1
1.000
1.376
1.963
3.078
6.314
12.706
31.821
63.657
127.321
318.309
636.619
2
0.816
1.061
1.386
1.886
2.920
4.303
6.965
9.925
14.089
22.327
31.599
3
0.765
0.978
1.250
1.638
2.353
3.182
4.541
5.841
7.453
10.215
12.924
4
0.741
0.941
1.190
1.533
2.132
2.776
3.747
4.604
5.598
7.173
8.610
5
0.727
0.920
1.156
1.476
2.015
2.571
3.365
4.032
4.773
5.893
6.869
6
0.718
0.906
1.134
1.440
1.943
2.447
3.143
3.707
4.317
5.208
5.959
7
0.711
0.896
1.119
1.415
1.895
2.365
2.998
3.499
4.029
4.785
5.408
8
0.706
0.889
1.108
1.397
1.860
2.306
2.896
3.355
3.833
4.501
5.041
9
0.703
0.883
1.100
1.383
1.833
2.262
2.821
3.250
3.690
4.297
4.781
10
0.700
0.879
1.093
1.372
1.812
2.228
2.764
3.169
3.581
4.144
4.587
11
0.697
0.876
1.088
1.363
1.796
2.201
2.718
3.106
3.497
4.025
4.437
12
0.695
0.873
1.083
1.356
1.782
2.179
2.681
3.055
3.428
3.930
4.318
13
0.694
0.870
1.079
1.350
1.771
2.160
2.650
3.012
3.372
3.852
4.221
14
0.692
0.868
1.076
1.345
1.761
2.145
2.624
2.977
3.326
3.787
4.140
15
0.691
0.866
1.074
1.341
1.753
2.131
2.602
2.947
3.286
3.733
4.073
16
0.690
0.865
1.071
1.337
1.746
2.120
2.583
2.921
3.252
3.686
4.015
17
0.689
0.863
1.069
1.333
1.740
2.110
2.567
2.898
3.222
3.646
3.965
18
0.688
0.862
1.067
1.330
1.734
2.101
2.552
2.878
3.197
3.610
3.922
19
0.688
0.861
1.066
1.328
1.729
2.093
2.539
2.861
3.174
3.579
3.883
20
0.687
0.860
1.064
1.325
1.725
2.086
2.528
2.845
3.153
3.552
3.850
21
0.686
0.859
1.063
1.323
1.721
2.080
2.518
2.831
3.135
3.527
3.819
22
0.686
0.858
1.061
1.321
1.717
2.074
2.508
2.819
3.119
3.505
3.792
23
0.685
0.858
1.060
1.319
1.714
2.069
2.500
2.807
3.104
3.485
3.767
24
0.685
0.857
1.059
1.318
1.711
2.064
2.492
2.797
3.091
3.467
3.745
25
0.684
0.856
1.058
1.316
1.708
2.060
2.485
2.787
3.078
3.450
3.725
26
0.684
0.856
1.058
1.315
1.706
2.056
2.479
2.779
3.067
3.435
3.707
27
0.684
0.855
1.057
1.314
1.703
2.052
2.473
2.771
3.057
3.421
3.690
28
0.683
0.855
1.056
1.313
1.701
2.048
2.467
2.763
3.047
3.408
3.674
29
0.683
0.854
1.055
1.311
1.699
2.045
2.462
2.756
3.038
3.396
3.659
30
0.683
0.854
1.055
1.310
1.697
2.042
2.457
2.750
3.030
3.385
3.646
40
0.681
0.851
1.050
1.303
1.684
2.021
2.423
2.704
2.971
3.307
3.551
50
0.679
0.849
1.047
1.299
1.676
2.009
2.403
2.678
2.937
3.261
3.496
60
0.679
0.848
1.045
1.296
1.671
2.000
2.390
2.660
2.915
3.232
3.460
80
0.678
0.846
1.043
1.292
1.664
1.990
2.374
2.639
2.887
3.195
3.416
100
0.677
0.845
1.042
1.290
1.660
1.984
2.364
2.626
2.871
3.174
3.390
120
0.677
0.845
1.041
1.289
1.658
1.980
2.358
2.617
2.860
3.160
3.373
∞
0.674
0.842
1.036
1.282
1.645
1.960
2.326
2.576
2.807
3.090
3.291
One-sided
75%
80%
85%
90%
95%
97.5%
99%
99.5%
99.75%
99.9%
99.95%
Two-sided
50%
60%
70%
80%
90%
95%
98%
99%
99.5%
99.8%
99.9%
Calculating the confidence interval
Let's say we have a sample with size 11, sample mean 10, and sample variance 2. For 90% confidence with 10 degrees of freedom, the one-sided t value from the table is 1.372 . Then with confidence interval calculated from
we determine that with 90% confidence we have a true mean lying below
In other words, 90% of the times that an upper threshold is calculated by this method from particular samples, this upper threshold exceeds the true mean.
And with 90% confidence we have a true mean lying above
In other words, 90% of the times that a lower threshold is calculated by this method from particular samples, this lower threshold lies below the true mean.
So that at 80% confidence (calculated from 100% − 2 × (1 − 90%) = 80%), we have a true mean lying within the interval
Saying that 80% of the times that upper and lower thresholds are calculated by this method from a given sample, the true mean is both below the upper threshold and above the lower threshold is not the same as saying that there is an 80% probability that the true mean lies between a particular pair of upper and lower thresholds that have been calculated by this method; see confidence interval and prosecutor's fallacy.
Nowadays, statistical software, such as the R programming language, and functions available in many spreadsheet programs compute values of the t distribution and its inverse without tables.
^Helmert FR (1875). "Über die Berechnung des wahrscheinlichen Fehlers aus einer endlichen Anzahl wahrer Beobachtungsfehler". Zeitschrift für Angewandte Mathematik und Physik (in German). 20: 300–303.
^Helmert FR (1876). "Über die Wahrscheinlichkeit der Potenzsummen der Beobachtungsfehler und uber einige damit in Zusammenhang stehende Fragen". Zeitschrift für Angewandte Mathematik und Physik (in German). 21: 192–218.
^Pfanzagl J, Sheynin O (1996). "Studies in the history of probability and statistics. XLIV. A forerunner of the t distribution". Biometrika. 83 (4): 891–898. doi:10.1093/biomet/83.4.891. MR1766040.
^Walpole RE, Myers R, Myers S, Ye K (2006). Probability & Statistics for Engineers & Scientists (7th ed.). New Delhi, IN: Pearson. p. 237. ISBN9788177584042. OCLC818811849.
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Artikel ini tidak memiliki referensi atau sumber tepercaya sehingga isinya tidak bisa dipastikan. Tolong bantu perbaiki artikel ini dengan menambahkan referensi yang layak. Tulisan tanpa sumber dapat dipertanyakan dan dihapus sewaktu-waktu.Cari sumber: Agnidra – berita · surat kabar · buku · cendekiawan · JSTOR Agnidra (Sanskerta: अग्निध्र; Agnidhra) adalah nama seorang raja dalam mitologi Hindu, keturunan Swayambu Manu. Ia merupakan salah…
Els SegadorsLagu kebangsaan CataloniaPenulis lirikEmili Guanyavents, 1899KomponisFrancesc Alló, 1892Penggunaan1993Sampel audioEls Segadorsberkasbantuan Sampel audioEls Segadorsberkasbantuan Rekaman instrumental dari lagu kebangsaan Els Segadors adalah lagu kebangsaan Catalonia, sebuah komunitas otonom di Spanyol. Liriknya ditulis oleh Emili Guanyavents, dan musiknya dikarang oleh Francesc Alló. Lirik Catalunya triomfant, tornarà a ser rica i plena. Endarrera aquesta gent tan ufana i tan super…
Ayam goreng KoreaKorean-style yangnyeom fried chickenNama KoreaHangul양념 치킨 Alih Aksarayangnyeom chickenMcCune–Reischaueryangnyom chicken Ayam goreng Korea Ayam goreng Korea terdiri dari banyak hidangan ayam goreng yang diciptakan di Korea Selatan, termasuk huraideu-chicken (ayam goreng [biasa], dari bahasa Inggris fried chicken) dan ayam goreng berbumbu pedas yangnyeom chicken (ayam berbumbu).[1] Makanan ini dikomsumsi sebagai makanan utama, makanan cepat saji di bar, atau seba…
Batolit Batolit adalah sebuah batuan beku yang terbentuk di dalam dapur magma karena akibat penurunan suhu di dalam gunung api.[1][2] Setiap gunung api memang memiliki dapur magma sendiri-sendiri dan setiap gunung api juga memiliki kondisi lempengan yang berbeda juga.[3] Aktivitas satu gunung api dengan gunung api lainnya tidak berhubungan satu sama lain.[3] Artinya, peningkatan aktivitas pada gunung api itu karena dipengaruhi dapur magma suatu gunung api tersebut…
Katrin Siska Katrin Siska (lahir 10 Desember 1983) adalah seorang selebritas, vloger dan pemusik asal Estonia. Ia merupakan mantan anggota grup vokal wanita Vanilla Ninja. Pranala luar Wikimedia Commons memiliki media mengenai Katrin Siska. Situs web resmi Vanilla Ninja (bahasa Inggris, Esti) Katrin Siska di IMDb (dalam bahasa Inggris) Pengawasan otoritas Umum VIAF 1 WorldCat (via VIAF) Lain-lain MusicBrainz artist Artikel bertopik biografi Estonia ini adalah sebuah rintisan. Anda dapat membantu…
Ellerau Lambang kebesaranLetak Ellerau di Segeberg NegaraJermanNegara bagianSchleswig-HolsteinKreisSegeberg Pemerintahan • MayorBernd ExlerLuas • Total7,09 km2 (274 sq mi)Ketinggian24 m (79 ft)Populasi (2013-12-31)[1] • Total5.911 • Kepadatan8,3/km2 (22/sq mi)Zona waktuWET/WMPET (UTC+1/+2)Kode pos25479Kode area telepon04106Pelat kendaraanSESitus webwww.ellerau.de Ellerau adalah kota yang terletak di distri…
Ernst Julius Magenda Informasi pribadiLahir(1919-02-10)10 Februari 1919Kiama, Talaud, Hindia BelandaMeninggal15 Oktober 1972(1972-10-15) (umur 53)Jakarta, IndonesiaSuami/istriNurhaya Danoekusumo MagendaAnakNurman Farid MagendaFadjar Noor MagendaFuad Noor MagendaNur Farida MagendaKarier militerPihak IndonesiaDinas/cabang TNI Angkatan DaratMasa dinas1943 - 1970Pangkat Mayor Jenderal TNISatuanInfanteriSunting kotak info • L • B Mayor Jenderal TNI (Purn) Ernst Julius Mag…
CircelloKomuneComune di CircelloLokasi Circello di Provinsi BeneventoNegara ItaliaWilayah CampaniaProvinsiBenevento (BN)Luas[1] • Total45,66 km2 (17,63 sq mi)Ketinggian[2]700 m (2,300 ft)Populasi (2016)[3] • Total2.476 • Kepadatan54/km2 (140/sq mi)Zona waktuUTC+1 (CET) • Musim panas (DST)UTC+2 (CEST)Kode pos82020Kode area telepon0824Situs webhttp://www.comune.circello.bn.it Circello ad…
Dalam nama Korean ini, nama keluarganya adalah Chae. Chae Je-gong채제공Lukisan Chae Jegong yang menjabat sebagai Yeonguijeong selama pemerintahan Raja Jeongjo. Kanselir Negara KiriMasa jabatan25 January 1796 – 14 July 1798 PendahuluYu Yeon-hoPenggantiYi Byeong-moMasa jabatan14 November 1789 – 2 Juli 1793 PendahuluYi Jae-hyeopPenggantiKim Jong-suKanselir Negara KananMasa jabatan15 Februari 1795 – 25 Januari 1796 PendahuluYi Byeong-moPenggantiYun Si-dongMasa jab…