The motivation of writing this posting was originated to Vinay’s recommendation: Practical Statistics for Astronomers (J.V.Wall and C.R.Jenkins), which provides many statistical insights and caveats that astronomers tend to ignore. Without looking at the error distribution and the properties of data, astronomers jump into chi-square and correlation. If someone reads the book, he/she will be careful on adopting statistics of common practice in astronomy, developed many decades ago, and founded on strong assumptions, not compatible with modern data sets. The book addresses many concerns that have been growing in my mind for astronomers and introduces various statistical methods applicable in astronomy.

The view points of astronomers without in-class statistics education but with full readership of this book, would be different from mine. The book mentioned unbiasedness, consistency, closedness, and robustness of statistics, which normally are not discussed nor proved in astronomy papers. Therefore, those readers may miss the insights, caveats, and contents-between-the-lines of the book, which I care about. To reduce such gap, as for quick and easy understanding of classical statistics, I recommend Cartoon Guide to Statistics (Larry Gonick, Woollcott Smith Business & Investing Collins) as a first step. This cartoon book enhances fundamentals in statistics only with fun and a friendly manner, and provides everything that rudimentary textbooks offer.

If someone wants to know beyond classical statistics (so called frequentist statistics) and likes to know popular Bayesian statistics, astronomy professor Phil Gregory’s Bayesian Logical Data Analysis for the Physical Sciences is recommended. If one likes to know little bit more on the modern statistics of frequentists and Bayesians, All of Statistics (Larry Wasserman) is recommended. I realize that textbooks for non-statistics students are too thick to go through in a short time (The book for senior engineering students at Penn State I used for teaching was Probability and Statistics for Engineering and the Sciences by Jay. L Devore, 4th and 5th edition and it was about 600 pages. The current edition is 736 pages). One of well received textbooks for graduate students in electrical engineering is Probability, Random Variables and Stochastic Processes (A. Papoulis & S.U. Pillai). I remember the book offers a rather less abstract definition of measure and practical examples (Personally, Hermite polynomials was useful from the book).

For a casual reading about statistics and its 20th century history, The Lady Tasting Tea: How Statistics Revolutionized Science in the Twentieth Century (D. Salsburg) is quite nice.

Statistics is not just for best fit analysis and error bars. It is a wonderful telescope extracts correct information when it is operated carefully to the right target by the manual. It gets rid of atmospheric and other blurring factors when statistics is understood righteously. It is not a black box nor a magic, as many people think.

The era of treating everything gaussian is over decades ago. Because of the central limit theorem and the delta method (a good example is log-transformation), many statistics asymptotically follows the normal (gaussian) distribution but there are various families of distributions. Because of possible bias in the chi-square method, the error bar cannot guarantee the appointed coverage, like 95%. There are also nonparametric statistics, known for robustness, whereas it may be less efficient than statistics of distribution family assumption. Yet, it does not require model assumption. Also, Bayesian statistics works wonderfully if correct information on priors, suitable likelihood models, and computing powers for hierarchical models and numerical integration are provided.

Before jumping into the chi-square for fitting and testing at the same time, to prevent introducing bias, exploratory data analysis is required for better understanding data and for seeking a suitable statistic and its assumptions. The exploratory data analysis starts from simple scatter plots and box plots. A little statistical care for data and good interests in the truth of statistical methods are all I am asking for. I do wish that these books could assist the realization of my wishes.

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[1.] Most of links to books are from amazon.com but there is no personal affiliation to the company.

[2.] In addition to the previous posting on chi-square, what is so special about chi square in astronomy, I’d like to mention possible bias in chi-square fitting and testing. It is well known that utilizing the same data set for fitting, which results in parameter estimates so called in astronomy best fit values and error bars, and testing based on these parameter estimates brings out bias so that the best fit is biased from the true parameter value and the error bar does not match the aimed coverage. See the problem from Aneta’s an example of chi2 bias in fitting x-ray spectra

[3.] More book recommendation is welcome.