Search
Search Funnelback University
- Refined by:
- Date: 2020
1 -
4 of
4
search results for watson |u:www.statslab.cam.ac.uk
Fully-matching results
-
Statistical Laboratory, 1969
www.statslab.cam.ac.uk/files/Statistical%20Laboratory%20Photos/1960-1969/pic69.html21 Oct 2020: J.C.Gittins R.M.Loynes D.Mollison B.J.T.Morgan R.Morgan F.Papangelou M.J.Prentice R.Sibson S.R.Watson D.Williams. -
Statistical Laboratory, 1970
www.statslab.cam.ac.uk/files/Statistical%20Laboratory%20Photos/1970-1979/pic70.html21 Oct 2020: Gordon. A.W.F.Edwards J.L.Teugels S.R.Watson D.M.Titterington M.Elion R.L.Tweedie J.A.Lambert S.Chinn S.M.Leonard W.J.Anderson. -
Harry Kesten (1931–2019) A personal and scientific tribute Geoffrey…
www.statslab.cam.ac.uk/~grg/papers/kesten-ams3-small.pdf20 Mar 2020: to the discretecase. Branching processes. The branching process (sometimes called the Galton–Watson process) is arguably the most fundamentalstochastic model for population growth. ... Stigum, A limit theorem for multidi-mensional Galton–Watson -
Abstract We survey the published work of Harry Kesten ...
www.statslab.cam.ac.uk/~grg/papers/kesten-ptrf-final.pdf13 Nov 2020: Harry Kesten’s work in probability theory 19. 6 Branching processes. The branching process (or, as Harry liked in later years to write, the Bienaymé–Galton–Watson process) is the most
Search history
Recently clicked results
Recently clicked results
Your click history is empty.
Recent searches
Recent searches
Your search history is empty.