January 10, 1997 NeuroMotion Case Study The Problem 2 The Products 3 The Company 4 Beginnings 4 NeuroMotion is formed 5 Company structure 6 NeuroMotion ownership 6 Funding structure 7 NeuroMotion personnel 9 The Issues 10 Clinical trials 10 Evaluating the products 10 Consultants 12 Intellectual property 12 Marketing and sales 13 Distribution 15 Finances 16 The Next Step 17 APPENDIX A: NeuroMotion Products 18 APPENDIX B: Competing ... Product |957 |1,602 |1,451 |1,213 |1,213 | ...
[
Текст
]
Ссылки http://www.innovation.msu.ru/english/neuromotioncasestudy.doc -- 235.5 Кб -- 27.10.2005
[
Текст
]
Ссылки http://innovation.msu.ru/english/neuromotioncasestudy.doc -- 235.5 Кб -- 27.10.2005 Похожие документы
... The linguistic aspects of the model and the properties of the semantic dictionary ensuring the content analysis with compression of the text structure are considered. Our dictionary resources serve an instru- ment for building a multilevel textual semantic structure. ... Reason (A,B), where SemF(A) = SIT or a whole semantic formula; the same for SemF(B). ... Sem(SIT)R . ... Semantic Resources for Textual Content Compression // Fourth International Conference on Meaning-Text Theory (MTT'09). ...
... This assumption is grounded in the classical theory of stationary turbulence in the limit of infinite Reynolds number (e.g. Corrsin, 1951). ... The ratio of diffusivities is obtained as a function of buoyancy Reynolds number Reb and of the density ratio R (the ratio of the contributions of heat and salt to the density stratification). ... The main results are in section 5, where potential energy components, scalar variances and turbulent diffusivities for the two scalars are examined. ...
[
Текст
]
Ссылки http://ocean.phys.msu.ru/courses/stathyd/2005%20Smyth%20et%20al.%2C%20Differential%20diffusion%20in%20breaking%20Kelvin-Helmholtz%20billows.pdf -- 2298.1 Кб -- 11.11.2009 Похожие документы
Network Working Group T. Berners-Lee Request for Comments: 1945 MIT/LCS Category: Informational R. Fielding UC Irvine H. Frystyk MIT/LCS May 1996 Hypertext Transfer Protocol -- HTTP/1.0 Status of This Memo This memo provides information for the Internet community. This memo does not specify an Internet standard of any kind. Distribution of this memo is unlimited. IESG Note: The IESG has concerns about this protocol, and expects this document to be replaced relatively soon by a standards track document.
The beamer class Manual for version 3.06. \begin{frame} \frametitle{There Is No Largest Prime Number} \framesubtitle{The proof uses \textit{reductio ad absurdum}.} \begin{theorem} There is no largest prime number. \end{theorem} \begin{proof} \begin{enumerate} \item<1-| alert@1> Suppose $p$ were the largest prime number. \item<2-> Let $q$ be the product of the first $p$ numbers. \item<3-> Then $q+1$ is not divisible by any of them. \item<1-> Thus $q+1$ is also prime and greater than $p$.\qedhere
ФГБОУ ВПО МОСКОВСКИЙ ГОСУДАРСТВЕННЫЙ УНИВЕРСИТЕТ ИМЕНИ МF ВF ЛОМОНОСОВА МЕХАНИКОEМАТЕМАТИЧЕСКИЙ ФАКУЛЬТЕТ На правах рукописи Лимонченко Иван Юрьевич КОМБИНАТОРНАЯ КОММУТАТИВНАЯ АЛГЕБРА И ТОПОЛОГИЯ МОМЕНТ-УГОЛ КОМПЛЕКСОВ HIFHIFHR E геометрия и топология Диссертация на соискание уч? еной степени кандидата физикоEматематических наук Научный руководительX дFфFEмFнFD профессор ТF ЕF Панов Москва E PHIR Оглавление Введение 4 1 Обзор основных понятий и конструкций 24 IFI IFP IFQ 2 Симплициальные комплексы и
Input Description 2-1 (5 December 2014) ********************************* * * * Section 2 - Input Description * * * ********************************* This section of the manual describes the input to GAMESS. The section is written in a reference, rather than tutorial fashion. However, there are frequent reminders that more information can be found on a particular input group, or type of calculation, in the 'Further Information' section of this manual. Numerous complete input files are shown in the 'Input
[
Текст
]
Ссылки http://erg.biophys.msu.ru/~comcon1/qmdata/gamess-us-input-2014dec.pdf -- 1427.1 Кб -- 05.04.2015 Похожие документы
General Utility Lattice Program Version 4.0 Julian D. Gale Nanochemistry Research Institute, Department of Chemistry, Curtin University, P.O. Box U1987, Perth, WA 6845, Australia email: gulp@ivec.org 1 Chapter 1 Introduction & background The General Utility Lattice Program (GULP) is designed to perform a variety of tasks based on force field methods. The original code was written to facilitate the fitting of interatomic potentials to both energy surfaces and empirical data. However, it has expanded now to