Stochastic Programming
The State of the Art In Honor of George B. Dantzig
Infanger, Gerd.
editor.
SpringerLink (Online service)
text
xxu
2011
monographic
eng
access
XXIII, 362 p. online resource.
From the Preface… The preparation of this book started in 2004, when George B. Dantzig and I, following a long-standing invitation by Fred Hillier to contribute a volume to his International Series in Operations Research and Management Science, decided finally to go ahead with editing a volume on stochastic programming. The field of stochastic programming (also referred to as optimization under uncertainty or planning under uncertainty) had advanced significantly in the last two decades, both theoretically and in practice. George Dantzig and I felt that it would be valuable to showcase some of these advances and to present what one might call the state-of- the-art of the field to a broader audience. We invited researchers whom we considered to be leading experts in various specialties of the field, including a few representatives of promising developments in the making, to write a chapter for the volume. Unfortunately, to the great loss of all of us, George Dantzig passed away on May 13, 2005. Encouraged by many colleagues, I decided to continue with the book and edit it as a volume dedicated to George Dantzig. Management Science published in 2005 a special volume featuring the “Ten most Influential Papers of the first 50 Years of Management Science.” George Dantzig’s original 1955 stochastic programming paper, “Linear Programming under Uncertainty,” was featured among these ten. Hearing about this, George Dantzig suggested that his 1955 paper be the first chapter of this book. The vision expressed in that paper gives an important scientific and historical perspective to the book. Gerd Infanger.
Linear Programming Under Uncertainty -- A Probabilistic Lower Bound for Two-Stage Stochastic Programs -- Simulation-Based Optimality Tests for Stochastic Programs -- Stochastic Decomposition and Extensions -- Barycentric Bounds in Stochastic Programming: Theory and Application -- Stochastic Programming Apporximations Using Limited Moment Information, with Application to Asset Allocation -- Stability and Scenario Trees for Multistage Stochastic Programs -- Risk Aversion in Two-Stage Stochastic Integer Programming -- Risk-Averse Portfolio Optimization via Stochastic Dominance Constraints -- Single Period Mean-Variance Analysis in a Changing World -- Mean-Absolute Deviation Model -- Multi-Stage Financial Planning Models: Integrating Stochastic Programs and Policy Simulators -- Growth-Security Models and Stochastic Dominance -- Production Planning Under Supply and Demand Uncertainty: A Stochastic Programming Approach -- Global Climate Decisions under Uncertainty -- Control of Diffusions via Linear Programming.
edited by Gerd Infanger.
Mathematics
Operations research
Decision making
Management science
Probabilities
Mathematics
Probability Theory and Stochastic Processes
Operations Research, Management Science
Operation Research/Decision Theory
QA273.A1-274.9
QA274-274.9
519.2
Springer eBooks
International Series in Operations Research & Management Science, 150
9781441916426
http://dx.doi.org/10.1007/978-1-4419-1642-6
http://dx.doi.org/10.1007/978-1-4419-1642-6
101111
20180115171457.0
978-1-4419-1642-6