“Univariate (statistics)”的意思、由来-开放百科全书

Some univariate data consists of numbers (such as the height of 65 inches or the weight of 100 pounds), while others are nonnumerical (such as eye colors of brown or blue). Generally, the terms categorical univariate data and numerical univariate data are used to distinguish between these types.

Categorical univariate data

Categorical univariate data consist non-numerical observations that may be placed in categories. It includes labels or names used to identify an attribute of each element. Categorical univariate data usually use either nominal or ordinal scale of measurement.^[3]

Numerical univariate data

Numerical univariate data consist observations that are numbers. They are obtained using either interval or ratio scale of measurement. This type of univariate data can be classified even further into two subcategories: discrete and continuous.^[4] A numerical univariate data is discrete if the set of all possible values is finite or countably infinite. Discrete univariate data are usually associated with counting (such as the number of books read by a person). A numerical univariate data is continuous if the set of all possible values is an interval of numbers. Continuous univariate data are usually associated with measuring (such as the weights of people).

Data analysis and applications

Univariate analysis is the simplest form of analyzing data. Uni means one, so in other words the data has only one variable.^[5] Univariate data requires to analyze each variable separately. Data is gathered for the purpose of answering a question, or more specifically, a research question. Univariate data does not answer research questions about relationships between variables, but rather it is used to describe one characteristic or attribute that varies from observation to observation.^[6] Usually there are two purposes that a researcher can look for. The first one is to answer a research question with descriptive study and the second one is to get knowledge about how attribute varies with individual effect of a variable in Regression analysis. There are some ways to describe patterns found in univariate data which include graphical methods, measures of central tendency and measures of variability.^[7]

Graphical methods

Frequency distribution tables

Frequency is how many times a number occurs. The frequency of an observation in statistics tells us the number of times the observation occurs in the data. For example, in the following list of numbers {1, 2, 3, 4, 6, 9, 9, 8, 5, 1, 1, 9, 9, 0, 6, 9}, the frequency of the number 9 is 5 (because it occurs 5 times).

Bar charts

Bar chart is a graph consisting of rectangular bars. There bars actually represents number or percentage of observations of existing categories in a variable. The length or height of bars gives a visual representation of the proportional differences among categories.

Histograms

Pie charts

Pie chart is a circle divided into portions that represent the relative frequencies or percentages of a population or a sample belonging to different categories.

Measures of central tendency

Central tendency is one of the most common numerical descriptive measures. It's used to estimate the central location of the univariate data by the calculation of mean, median and mode.^[9] Each of these calculation has its own advantages and limitations.The mean has the advantage that its calculation includes each value of the data set, but it is particularly susceptible to the influence of outliers. The median is a better measure when the data set contains outliers. The mode is simple to locate. The important thing is that it's not restricted to using only one of these measure of central tendency. If the data being analyzed is categorical, then the only measure of central tendency that can be used is the mode. However, if the data is numerical in nature (ordinal or interval/ratio) then the mode, median, or mean can all be used to describe the data. Using more than one of these measures provides a more accurate descriptive summary of central tendency for the univariate.^[10]

Measures of variability

A measure of variability or dispersion (deviation from the mean) of a univariate data set can reveal the shape of a univariate data distribution more sufficiently. It will provide some information about the variation among data values. The measures of variability together with the measures of central tendency give a better picture of the data than the measures of central tendency alone.^[11] The three most frequently used measures of variability are range, variance and standard deviation.^[12] The appropriateness of each measure would depend on the type of data, the shape of the distribution of data and which measure of central tendency are being used. If the data is categorical, then there is no measure of variability to report. For data that is numerical, all three measures are possible. If the distribution of data is symmetrical, then the measures of variability are usually the variance and standard deviation. However, if the data are skewed, then the measure of variability that would be appropriate for that data set is the range.^[13]

Univariate distributions

Univariate distribution is a dispersal type of a single random variable described either with a probability mass function (pmf) for discrete probability distribution, or probability density function (pdf) for continuous probability distribution.^[14] It is not to be confused with multivariate distribution.

Common discrete distributions

Common continuous distributions

See also

References

1. ^{{cite book|last1=Kachigan|first1=Sam Kash|title=Statistical analysis : an interdisciplinary introduction to univariate & multivariate methods|date=1986|publisher=Radius Press|location=New York|isbn=0-942154-99-1}}
2. ^{{cite book|last1=Lacke|first1=Prem S. Mann ; with the help of Christopher Jay|title=Introductory statistics.|date=2010|publisher=John Wiley & Sons|location=Hoboken, NJ|isbn=978-0-470-44466-5|edition=7th}}
3. ^{{cite book|last1=Anderson|first1=David R.|last2=Sweeney|first2=Dennis J.|last3=Williams|first3=Thomas A.|title=Statistics For Business & Economics|publisher=Cengage Learning|isbn=978-0-324-80926-8|pages=1018|edition=Tenth}}
4. ^{{cite book|last1=Lacke|first1=Prem S. Mann; with the help of Christopher Jay|title=Introductory statistics.|date=2010|publisher=John Wiley & Sons|location=Hoboken, NJ|isbn=978-0-470-44466-5|edition=7th}}
5. ^{{cite web|url=http://www.statisticshowto.com/univariate/|title=Univariate analysis|website=stathow}}
6. ^{{cite web|url=http://study.com/academy/lesson/univariate-data-definition-analysis-examples.html|title=Univariate Data|website=study.com}}
7. ^{{cite web|last1=Trochim|first1=William|title=Descriptive Statistics|url=http://www.socialresearchmethods.net/kb/statdesc.php|website=Web Center for Social Research Methods|accessdate=15 February 2017}}
8. ^{{cite book|last1=Diez|first1=David M.|last2=Barr|first2=Christopher D.|last3=Çetinkaya-Rundel|first3=Mine|title=OpenIntro Statistics|date=2015|publisher=OpenIntro, Inc.|isbn=978-1-9434-5003-9|page=30|edition=3rd}}
9. ^{{cite book|last1=Stepanski|first1=Norm O'Rourke, Larry Hatcher, Edward J.|title=A step-by-step approach to using SAS for univariate & multivariate statistics|date=2005|publisher=Wiley-Interscience|location=New York|isbn=1-59047-417-1|edition=2nd}}
10. ^{{cite book|last1=Longnecker|first1=R. Lyman Ott, Michael|title=An introduction to statistical methods and data analysis|date=2009|publisher=Brooks/Cole|location=Pacific Grove, Calif.|isbn=978-0-495-10914-3|edition=6th ed., International}}
11. ^{{cite book|title=Statistical Data Analysis A Practical Guide.|last2=Militky|first2=Jirí|date=2011|publisher=Woodhead Pub Ltd|isbn=978-0-85709-109-3|location=New Delhi|last1=Meloun|first1=Milan}}
12. ^{{cite book|title=Statistics|date=2007|publisher=Norton|isbn=0-393-92972-8|edition=4.|location=New York [u.a.]|last1=Purves|first1=David Freedman ; Robert Pisani ; Roger}}
13. ^{{cite book|last1=Anderson|first1=David R.|last2=Sweeney|first2=Dennis J.|last3=Williams|first3=Thomas A.|title=Statistics For Business & Economics|publisher=Cengage Learning|isbn=978-0-324-80926-8|pages=1018|edition=Tenth}}
14. ^{{cite book|last1=Samaniego|first1=Francisco J.|title=Stochastic modeling and mathematical statistics : a text for statisticians and quantitative scientists|date=2014|publisher=CRC Press|location=Boca Raton|isbn=978-1-4665-6046-8|page=167}}

Univariate data types