Pao-Lu Hsu
P. L. Hsu | |
---|---|
Born |
Beijing | September 16, 1910
Died |
December 18, 1970 60) Beijing | (aged
Nationality | China |
Fields | Mathematics |
Institutions |
School of Mathematical Sciences Peking University |
Doctoral advisors |
Egon Pearson Jerzy Neyman[1] |
Pao-Lu Hsu (许宝騄) (September 1, 1910 – December 18, 1970) was a Chinese mathematician noted for his work in probability theory and statistics.
Hsu's work in statistics
In 1938, Hsu's first two statistical papers, which appeared in Vol. II of the Neyman–Pearson edited Statistical Research Memoirs, were concerned with Behrens–Fisher problem[2] and the optimal estimate of σ2 in the Gauss–Markov model.[3] The most important paper in this series is[4] where Hsu obtains the first optimum property for the likelihood ratio test of the univariate linear hypothesis, in fact essentially the first nonlocal optimum property for any hypothesis specifying the value of more than one parameter. From 1938 to 1945, Hsu published several papers in the forefront of the development of the theory of multivariate analysis. He obtained several exact or asymptotic distributions of important statistics in the theory of multivariate analysis.[5][6]
Hsu's work in probability
Hsu was an expert in manipulating characteristic functions. He used characteristic functions as a tool to obtain distribution of certain random variables, to determine the limiting distribution of series of random variables. For one example, the Hsu–Robbins–Erdős theorem.[7][8]
For another example, around 1940, a challenging problem was to find a solution of the most general form of the Central Limit Theorem, which drew the attention of many famed mathematicians, such as Levy, Feller, A. N. Kolmogorov, and Gnedenko. Hsu was a competitor and the competition showed that he was also on the peak. Paper[9] was Professor Hsu's manuscript which Hsu mailed to Professor K. L. Chung in 1947. In this paper Hsu independently obtained the necessary and sufficient condition under which the row sums of a triangular array of infinitesimal random variables, independent in each row, converges in distribution to a given infinitely divisible distribution. Despite the fact that Gnedenko obtained the same result in 1944, Hsu's method is direct and has its own trait.[10][11]
Life and career
Pao-Lu Hsu was born in Beijing on September 1, 1910. But his forefathers were natives of Hangzhou, Zhejiang Province. He was from a prominent intellectual family. In his childhood, he received solid training in both traditional Chinese and modern western cultures. He graduated from Tsinghua University in 1933, majoring in mathematics. After his graduation, he worked at Peking University as a teacher. In the meantime, he published a joint paper with Tsai-han Kiang (Jiang Zehan) on the numbers of nondegenerate critical points, which showed his solid mathematical foundation and research capability. In 1936, he went to University College London and spend four years studying mathematical statistics. During this period, with his strong mathematical skill combining with advanced statistical ideas, he wrote a series remarkable papers. He earned his Ph.D. in 1938 and Sc.D. in 1940. From London, he returned to China, accepting a professorship in the Department of Mathematics, Peking University. Nevertheless, the ensuing years were a period of great difficulty and hardship for him. During the years 1943-44, he corresponded with Jerzy Neyman (who was by this time at Berkeley) about statistics-related matters, but also mentioning in these letters the great hardship he was suffering, particularly starvation.
In 1945, he went to the United States, visiting the University of California at Berkeley, Columbia University, and the University of North Carolina at Chapel Hill. In 1947, he returned to Beijing and thereafter he was engaged in teaching mathematics at Peking University for more than 20 years. Unfortunately, poor health had dogged Hsu from 1950 onward. Although many concerned about his health repeatedly suggested he go abroad to recuperate, he politely refused, insisting on teaching and continuing his research work.
In 1956, Dr. Hsu was made Director of the first research institute for probability and statistics to be established in China. But his health continued to worsen, forcing him to work at home, which included giving lectures at his home to graduate students and young teachers using a blackboard hanging on a wall of his room.
A month before his death in 1970 his manuscript on the relationship between experimental design and algebraic coding theory was completed, with such being his final legacy. Hsu died in his home on the campus of Peking University on December 18, 1970, from chronic tuberculosis. Found beside his bed the day after his death were piles of manuscripts that "serve as a testimony to the super-human fortitude with which he exerted himself for a period of more than 20 years..." In total, he had published more than 40 papers.
There was a memorial meeting and Pao-Lu Hsu Award[12] in his honor.[13][14] Hsu is a Fellow of the Institute of Mathematical Statistics (IMS) and Academician of the Academy of Science of China. Memorial meetings were held in 1980, 1990, 2000 & 2010 at Peking University.
Professor Hsu's main research areas were mathematical statistics and probability theory. He was an expert in operating matrix, manipulating characteristic functions and integral transformation. Hsu was a world-class statistician and is considered to be the founder of probability and statistics in China.
He influenced many students such as Theodore Wilbur Anderson, Erich Leo Lehmann, and Chung Kai-lai.
Publications
- Collected Papers by P. L. Hsu; edited by K.L. Chung, Springer-VerLag. (1983) .New York ; ISBN 9780387907253.
- 许宝騄. (1982). 抽样论. 北京, 北京大学出版杜.
References
- ↑ Chen, D., & Olkin, I. (2012). Pao-Lu Hsu (Xu, Bao-lu): The Grandparent of Probability and Statistics in China. Statistical Science, 27(3), 434–445.
- ↑ Hsu, P. L. (1938). "Contribution to the theory of 'Student's' t-test as applied to the problem of two samples." Statistical Research Memoirs.
- ↑ Hsu, P. (1938). "On the best unbiased quadratic estimate of the variance." Statistical Research Memoirs, 2, 91–104.
- ↑ Hsu, P. (1941). Analysis of variance from the power function standpoint. Biometrika, 32(1), 62–69.
- ↑ Academic Achievements of Professor P.L. Hsu
- ↑ Lehmann, E. L. (1979). Hsu's work on inference. The Annals of Statistics, 471–473.
- ↑ Hsu, P. L., & Robbins, H. (1947). Complete convergence and the law of large numbers. Proceedings of the National Academy of Sciences of the United States of America, 33(2), 25.
- ↑ Erdos, P. (1949). On a theorem of Hsu and Robbins. The Annals of Mathematical Statistics, 286–291.
- ↑ A general weak Limit theorem for independent distributions.(Appendix III in limit Theorems of Sums of Independent Random Variables by B. V. Gnedenko and A. N. Kolmogorov, translated by K. L. Chung, revised edition, Addison–Wesley 1968).
- ↑ Academic Achievements of Professor P.L. Hsu
- ↑ Chung, K. L. (1979). Hsu's work in probability. The Annals of Statistics, 479–483.
- ↑ Pao-Lu Hsu Award
- ↑ Hsu biography http://www-groups.dcs.st-and.ac.uk/~history/Biographies/Hsu.html
- ↑ Anderson, T. W., Chung, K. L., & Lehmann, E. L. (1979). Pao-Lu Hsu 1909–1970. The Annals of Statistics, 467–470.