Implementing Standardized Work: Process Improvement

Implementing Standardized Work: Process Improvement (One-Day Expert) by Alain Patchong


English | 2014 | ISBN: 1466563583 | 101 pages | PDF | 2 MB

This book, the third in a series dedicated to Standardized Work, focuses on process improvement. Implementing Standardized Work: Process Improvement begins by explaining why standardization and process improvement are two sides of the same coin—both needing each other to achieve true sustainability.




Describing how to use Standardized Work forms to identify easy opportunities for process improvement, the book includes simple tools and forms that readers can use to achieve quick improvements to boost morale and sustain motivation during the work ahead. Maintaining a focus on process improvement, it covers essential knowledge using a compelling story format.




Following in the tradition of other books in The One-Day Expert series, this book tells the story of Thomas, a young, high-potential plant manager in an industrial group. In this installment, Thomas opens a new front line in his quest to turn around the plant's inefficiency. He tries a new type of relationship with the labor union based on mutual trust and constructive partnership, while negotiating a competitiveness plan. Readers will also see how he continues to push for the implementation of Standardized Work.




Covering the essential methods and tools of process improvement in a manner that is easy to understand, this book can help you become familiar with the key concepts of Standardized Work and process improvement in just one day. That means you can read the book and immediately start implementing improvements that produce quick wins. The book’s clear examples and illustrations will guide you through proper application of the techniques discussed.

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CPT and Lorentz Symmetry

CPT and Lorentz Symmetry by V Alan Kostelecky


English | 2014 | ISBN: 981456642X | 300 pages | PDF | 4,3 MB

This book contains the Proceedings of the Sixth Meeting on CPT and Lorentz Symmetry, held at Indiana University in Bloomington on June 17 21, 2013. The Meeting focused on tests of these fundamental symmetries and on related theoretical issues, including scenarios for possible violations. Topics covered at the meeting include searches for CPT and Lorentz violations involving: accelerator and collider experiments; atomic, nuclear, and particle decays; birefringence, dispersion, and anisotropy in cosmological sources; clock-comparison measurements; electromagnetic resonant cavities and lasers; tests of the equivalence principle; gauge and Higgs particles; high-energy astrophysical observations; laboratory tests of gravity; matter interferometry; neutrino oscillations and propagation; oscillations and decays of neutral mesons; particle antiparticle comparisons; post-newtonian gravity in the solar system and beyond; second- and third-generation particles; space-based missions; spectroscopy of hydrogen and antihydrogen; spin-polarized matter; and time-of-flight measurements. Theoretical discussions include physical effects at the level of the Standard Model, General Relativity, and beyond; the possible origins and mechanisms for Lorentz and CPT violations; classical and quantum issues in field theory, particle physics, gravity, and string theory; and mathematical foundations including Finsler geometry.

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Probabilities in Physics

Claus Beisbart, Stephan Hartmann – Probabilities in Physics


Published: 2011-12-15 | ISBN: 0199577439 | PDF | 432 pages | 3 MB




Many results of modern physics–those of quantum mechanics, for instance–come in a probabilistic guise. But what do probabilistic statements in physics mean? Are probabilities matters of objective fact and part of the furniture of the world, as objectivists think? Or do they only express ignorance or belief, as Bayesians suggest? And how are probabilistic hypotheses justified and supported by empirical evidence? Finally, what does the probabilistic nature of physics imply for our understanding of the world?


This volume is the first to provide a philosophical appraisal of probabilities in all of physics. Its main aim is to make sense of probabilistic statements as they occur in the various physical theories and models and to provide a plausible epistemology and metaphysics of probabilities. The essays collected here consider statistical physics, probabilistic modelling, and quantum mechanics, and critically assess the merits and disadvantages of objectivist and subjectivist views of probabilities in these fields. In particular, the Bayesian and Humean views of probabilities and the varieties of Boltzmann's typicality approach are examined. The contributions on quantum mechanics discuss the special character of quantum correlations, the justification of the famous Born Rule, and the role of probabilities in a quantum field theoretic framework. Finally, the connections between probabilities and foundational issues in physics are explored. The Reversibility Paradox, the notion of entropy, and the ontology of quantum mechanics are discussed. Other essays consider Humean supervenience and the question whether the physical world is deterministic.

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