This masterly book substantially extends Howard Raiffa’s earlier classic, The Art and Science of Negotiation. It does so by incorporating three additional supporting strands of inquiry: individual decision analysis, judgmental decision making, and game theory. Each strand is introduced and used in analyzing negotiations. The book starts by considering how analytically minded parties can generate joint gains and distribute them equitably by negotiating with full, open, truthful exchanges. The book then examines models that disengage step by step from that ideal. It also shows how a neutral outsider (intervenor) can help all negotiators by providing joint, neutral analysis of their problem. Although analytical in its approach—building from simple hypothetical examples—the book can be understood by those with only a high school background in mathematics. It therefore will have a broad relevance for both the theory and practice of negotiation analysis as it is applied to disputes that range from those between family members, business partners, and business competitors to those involving labor and management, environmentalists and developers, and nations.
Engineers are expected to design structures and machines that can operate in challenging and volatile environments, while allowing for variation in materials and noise in measurements and signals. Statistics in Engineering, Second Edition: With Examples in MATLAB and R covers the fundamentals of probability and statistics and explains how to use these basic techniques to estimate and model random variation in the context of engineering analysis and design in all types of environments. The first eight chapters cover probability and probability distributions, graphical displays of data and descriptive statistics, combinations of random variables and propagation of error, statistical inference, bivariate distributions and correlation, linear regression on a single predictor variable, and the measurement error model. This leads to chapters including multiple regression; comparisons of several means and split-plot designs together with analysis of variance; probability models; and sampling strategies. Distinctive features include: All examples based on work in industry, consulting to industry, and research for industry Examples and case studies include all engineering disciplines Emphasis on probabilistic modeling including decision trees, Markov chains and processes, and structure functions Intuitive explanations are followed by succinct mathematical justifications Emphasis on random number generation that is used for stochastic simulations of engineering systems, demonstration of key concepts, and implementation of bootstrap methods for inference Use of MATLAB and the open source software R, both of which have an extensive range of statistical functions for standard analyses and also enable programing of specific applications Use of multiple regression for times series models and analysis of factorial and central composite designs Inclusion of topics such as Weibull analysis of failure times and split-plot designs that are commonly used in industry but are not usually included in introductory textbooks Experiments designed to show fundamental concepts that have been tested with large classes working in small groups Website with additional materials that is regularly updated Andrew Metcalfe, David Green, Andrew Smith, and Jonathan Tuke have taught probability and statistics to students of engineering at the University of Adelaide for many years and have substantial industry experience. Their current research includes applications to water resources engineering, mining, and telecommunications. Mahayaudin Mansor worked in banking and insurance before teaching statistics and business mathematics at the Universiti Tun Abdul Razak Malaysia and is currently a researcher specializing in data analytics and quantitative research in the Health Economics and Social Policy Research Group at the Australian Centre for Precision Health, University of South Australia. Tony Greenfield, formerly Head of Process Computing and Statistics at the British Iron and Steel Research Association, is a statistical consultant. He has been awarded the Chambers Medal for outstanding services to the Royal Statistical Society; the George Box Medal by the European Network for Business and Industrial Statistics for Outstanding Contributions to Industrial Statistics; and the William G. Hunter Award by the American Society for Quality.
Introducing engineering students to numerical analysis and computing, this book covers a range of topics suitable for the first three years of a four year undergraduate engineering degree. The teaching of computing to engineers is hampered by the lack of suitable problems for the students to tackle, so much effort has gone into making the problems in this book realistic and relevant, while at the same time solvable for undergraduates. Taking a balanced approach to teaching computing and computer methods at the same time, this book satisfies the need to be able to use computers (using both formal languages such as Fortran and other applications such as Matlab and Microsoft Excel), and the need to be able to solve realistic engineering problems.
The must-have guide to getting into medical school. Each chapter guides you through another step of the process, from deciding if medicine is for you and choosing a medical school, to passing the UKCAT and BMAT exams, applying to Oxbridge and getting through the interview.
Dickie Metcalfe was not your typical secret agent, but he was larger than life in more ways than one. Unlike many other agents who were part of the Double Cross System during the Second World War, he did not defect; nor was he blackmailed into becoming a spy. Instead, using his father’s connection with Sir Vernon Kell, the first Director of MI5, Metcalfe volunteered his services. Recently cashiered from his infantry regiment, he had an ulterior motive – by supplying MI5 with tidbits of information about weapons and arms deals in his newfound profession as an arms dealer, he hoped they would be able to help him get his commission reinstated. Metcalfe became BALLOON, a sub-agent of double agent TRICYCLE’s Yugoslav spy ring. Concurrent with his spying activities, he collaborated with the co-inventor of the Bren gun to develop a new submachine gun for British forces. After the war, he was also a celebrated motor racing driver and continued to compete until shortly before his death. His success as a double-cross agent in the eyes of both his masters – British and German – is examined in this book, using official documents as a primary source.
This timely volume offers a definitive guide to the situational judgement test (SJT), with over 250 practice questions and all the advice necessary for exam success.
This book, Volume VIII in the notable series Anatomy of the Monocotyledons, describes the anatomy of the leaves and stems of the Iridaceae, a flowering plant family that includes several horticulturally important genera such as Iris, Crocus, Gladliolus, and Freesia. Like the earlier volumes in the series, it will be an essential reference work for plant scientists and horticulturalists.
Returning for a fourth edition, Oxford Assess and Progress: Situational Judgement Test is the definitive guide for students preparing to sit the Situational Judgement Test (SJT) for entry into the UK Foundation Programme. Featuring over 300 practical questions mapped to the Foundation Programme curriculum and latest GMC guidance, this new edition has been fully updated to maximise your SJT score. All scenarios are based on real experiences informed by practising doctors and medical students who have sat the SJT to ensure that the questions closely mirror the content of the real exam. Two practice tests allow candidates to prepare for exam day and practice their timings - one of the biggest challenges in the exam. Written by junior doctors and overseen by experts in medical assessment, this guide demystifies the SJT, allowing you to achieve the best possible score and take control of the first stage of your medical career.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.