UWF安装包（windows 10 x64 1803提取版）

蓝牙调频通信系统（使用Matlab编程），适合初级者学习的宝贵资料

包括5篇文档，详细介绍了5G的物理层：NR物理层概述，5G-NR复用与信道编码，5G-NR物理层过程（控制），5G-NR物理层提供的服务，5G-NR物理信道与调制

STM32常见型号的原理图库以及PCB库

信息学奥赛的重要资料。对于爱好信息学奥赛的青少年而言，此报告十分难得。Chapter 1Day 11.1 Day 1 rail11.1题目大意有两条平行的单向铁路(上方的从右到左,下方的从左到右),分为m段有η个车站,每个车站为C类型(只能从上往下)或D类型(只能从下往上),分布在某些段中,每个段最多一个车站。已知0号车站是C类型,并给出0号车站的位置,最多可以询问两车站之间的距离3(n-1)次(距离指经过段与段连接处的次数,例如上图0号车站到2号车站的距离为5),要求确定每个车站的位置和类型。保证车站两两可达11.2算法讨论先询问得到0号车站到其他车站的距离,而最近的一个,就是0号车站右侧第一个D类型的(称之为j号车站)然后询问得到号车站到其他车站的距离,其中最近的一个,可能是0号车站,也可能是其他车站(都称之为k号车站),显然和k之间不会冉有其他车IOI2014解题报告Day 1 Wall站,而0和k之间也不会有其他的D类型的车站,所有k号车站到其他车站的距离可直接算出有了和k到其他车站的距离,那就可以轻松分出左右了(离j号近,就在k的左侧,否则在j的右侧)。但分出左右后还是不能确定具体位置,而这时对于每个车站我们还留下次询问的机会。接下来称当前车站为号车站而这次询问一定是留给特殊位置的车站,假设当前车站在左侧,则考虑当前确定的最左侧的车站(称之为L号)。按离(或k)号车站的距离从近到远的顺序处理剩下的车站,那么只有这两和情况:L k j以及(注意下面这种L和之间还会有C类型的车站)L i k两者都会有以下关系式:dst(j,L)+|0s;-pos|=dist(j.)+x(x≥0)第一种情况多出来的是L到它右侧第一个D类型车站的距离×2,而第二种情况多出来的是L到它右侧第一个C类型车站的距离×2。所以,算出x之后,只要到L右侧的c/2的距离处看下车站的类型就可以确定位置了。这样问题就解决了如果当前车站在右侧,那么询问与已确定的最右侧车站的距离,类似讨论即可。1.2 Day 1 Wall21题目大意维护一个长度为的整数序列,一开始每个元素均为0,支持以下两种操作将连续一段中小于k的元素修改为k将连续段中大于k的元素修改为k问所有m个操作进行完之后序列各元素的值。3IOI2014解题报告Day 1 Game1.22算法讨论不难发现对某一个元素的操作是可加的,即说对于某一个元素来说,应用在其上的每一个操作可以都表示为“如果它的初值小于L,那么最终它等于l;如果它的初值大于γ,那么最终它等于η;否则它最终等于初值”这样的形式,并且多个这样的形式是可以合并的。于是我们可以把每个操作都看成一个值,这样原问题就转化成“维护一个序列,每次对一段区间加上一个值,问最后每个元素的值”。这是可以用带标记的线段树直接维护的。该算法的时间复杂度为O(m+ m log n)对于“维护一个序列,每次对一段区间加上一个值,问最后每个元素的值”这个问题,我们也可以使用扫描线进行维护。但本题中的值是不可减也不满足交换律的,因此在扫描过程中我们需要使用一个线段树来维护覆盖到当前点的值并将它们按时间顺序依次求和。该算法的时间复杂度为O(m+ m log m)1.3 Day 1 game131题目大意有一张n个点的无向图,小B每次会询问某两个点之间是否有边相连,小A每次回答yes或no。如果在小B把所有(条边间完之前,小B就能确定这整张图是否联選,小A就输了。现在让你当小A,依次对每个询问回答yes或no求一种获胜方案。1

【实例简介】本文以全桥逆变器为对象，详细论述了基于电流闭环控制的逆变器并网系统的工作原理，推导了控制方程。通过控制LCL滤波中的电容电流，并网逆变器采用LCL 型输出滤波器具有输出电流谐波小，滤波器体积小的优点，在此基础上本系统设计了LCL滤波器。本文分析比较了单相逆变器并网采用开环和单闭环控制策略下的并网电流,主要对双闭环控制系统的扰动情况下系统的抗干扰能力控制策略进行分析研究.

( Doyub Kim Fluid Engine Development.pdf )Doyub Kim Fluid Engine Development.pdfTaylor francisTaylor Francis Grouphttp://taylorandfrancis.comT& F Cat #K25519K25519C000— page l-10/21/2016-17:12LUID ENGINEDEVELOPMENTDOYUB KIM(CRC CRC PressTaylor & fiBoca raton london new yorkCRC Press is an imprint of theTaylor francis Group, an informa businessAN AK PETERS BOOKT& F Cat #K25519—K25519C000- page l-10/21/2016—17:12CRC PressTaylor Francis Group6000 Broken Sound parkway nw, suite 300Boca Raton, FL 33487-274@2017 by Taylor Francis Group, LLCCRC Press is an imprint of Taylor Francis Group, an Informa businessNo clain lo original U.S. Government worksPrinted on acid-free paperVersion date: 20161019International Standard book Number -13: 978-1-4987-1992-6(Pack- Book and ebook)This book contains information obtained from authentic and highly regarded sources. Reasonable effortshave been made to publish reliable data and information, but the author and publisher cannot assumeresponsibility for the validily of all materials or the consequences of their use. The authors and publisherhave attempted to trace the copyright holders of all material reproduced in this publication and apologize toc ht holders if permission to publish in this form has not been obtained If any cocht m aterial hnot been acknowledged please write and let us know so we may rectify in any future reprintExcept as permitted under U.S. Copyright L aw, no part of this book may be reprinted, reproduced, transmitted, or utilized in any form by any electronic, mechanical, or other means, now known or hereafter invented,including photocopying, microfilming, and recording, or in any information storage or retrieval system,without written permission from tblishTorpermissiontophotocopyorusematerialelectronicallyfromthisworkpleaseaccesswww.copyrightcom(http://www.copyright.com/)orcontacttheCopyrightClearanceceNter,inC.(ccc),222RosewoodDrive, Danvers, MA 01923, 978-750-8400. CCC is a not-for-profit organization that provides licenses andregistration for a variety of users. For organizations that have been granted a photocopy license by the CCC,a separate system of payment has been arranged.Trademark Notice: Product or corporate names may be trademarks or registered trademarks, and are usedonly for identification and explanation without intent to infringeLibrary of Congress Cataloging-in-Publication DataNames: Kim, Doyub, author.Title: Fluid engine development/Doyub KimDescription: Boca Raton: Taylor Francis, a CRC title, part of the TaylorFrancis imprint, a member of the taylor Francis group the academicdivision of T&F Informa, plc, [2017] Includes bibliographical referencesnd indIdentifiers: LCCN 2016028981 ISBN 9781498719926(hardback: acid-free paperSubjects: LCSH: Hydrodynamata processing. Fluids--Computer simulaticClassilication: LCC QA911 K485 2017 DDC 532.00285, 66--dc23Lcrecordavailableathttps://icCn.loc.sov/2016028981Visit the Taylor& Francis Webhttp://www.taylorandfrancis.comand the Crc Press Web site athttp!/www.crcpT&FCat#K25519K25519000— page iv-10/21/2016—17:12To my wifeT& F Cat #K25519K25519C000— page v-10/21/2016-1712Taylor francisTaylor Francis Grouphttp://taylorandfrancis.comT& F Cat #K25519K25519C000— page l-10/21/2016-17:12ContentsPresaList of FigureslI1 Basics1.1 Hello. Fluid SinIdulator1.1.1 Defining State1.1.2 Computing Motion1. 1.3 Boundary handling11.4 Visualization11134621.1.5 Final Rcsult1.2 How to read This book121.2.1 Getting the Codes131.2.2 Rcading codcs131. 2.2. 1 Languages131.2.2.2 Source code st131.2.2.3 Naming Conventions141.2.2.4 Constants151.2.2.5 Array151.2.3 Reading math Expressions01.2.3.1 Scalar. Vector and Matrix201.3 Math1.3. 1 Coordinate System211.3.2 Vector211.3.2.1 Basic Operations241.3.2.2 Dot and cross product261.3.2.3 More Operations273.3 Matri1.3.3.1 Basic Matrix Operations1.3.3.2 Sparse Matrix361.3.4 System of Linear Equations371.3.4.1 Direct Methods1.3.4.2 Indirect Methods381. 3.5 Field421.3.5.1 Partial derivative451.3.5.2 GradientT&FCat#K25519—K25519C000— page vll-10/21/2016-17:12Contents1.3.5.3 Divergence481.3.54C511.3.5.5 Laplacian531.3.6 Interpolation561.3.6.1 Nearest point581.3.6.2 Linear Interpolation591.3.6.3 Cat, mull-Rom Spline Interpolation61eometry631. 4.1 Surface671.4.3 Implicit Surface to Explicit Surface1.4.4 Explicit Surface to Implicit Surface1.5 Animation番普721.6 Physics-Based Animation1.6.1 Getting Started771.6. 2 Physics Animation with Example781.6.2. 1 Choosing a Model781. 6. 2.2 Simulation State791.6.2.3 Force and Motion801.6.2. 4 Time Integration871.6. 2.5 Constraints and collisions891.7 Fluid Animation911.7.1 Gravity1.7.2P1.7.3 Viscosity1.7.4 Density Constraint2 Particle-Based Simulation992.1 Seeing the World Like Seurat992 Data Structi2.2.1 Particle System Data1002.2.2 Particle System Example2.2.3 Neighbor1082.2.3.1 Searching Nearby Particlesl092.2.3.2 Caching Neighbors2.3 SOothed Particles116asics2.3.1.1 Kernel1172.3.1.2 Data Model119lerdO1202.3.1.4 Density1212.3.1.5 Differential Operators2.3.2 Dynamics1302.3.2. 1 Solver Over view1312.3.2.2 Pressure gradient Force133T&FCa#K25519—K25519C000— page vil-10/21/2016—17:12Contents2.3.2.3 Viscosity1372.3.2.4 Gravity and Drag Forces1372.3.3 Results and limitations1382.4 Incompressible SPii with Larger Time-Step12.4Predict and correct2.4.2 Implementation2.4.3 Results1472.5 Collision Handling1492.5.1 Defining colliders1502.6 Discussion and further reading1553 Grid-Based simulation1573.1 Pixelating the World1573. 2 Data Structures1573.2.1 Types of grid1593.2.2 Grid System D1663.3 Differential Operators1693.3.1 Finite difference1703.3.2 Gradient1723.3. 3 Divergence1733.3.4 Curl1763.3.5 Lap1783. 4 Fluid simulation1803.4.1 Collision Handling1823.4.1.1 Collider to Signed-Distance Field1823.4.1.2 Boundary Conditions1833.4.2 Advection1873.4.2.1 Semi-Lagrangian Method1883.4.2.2Ing Backg Accurac1923.4.2.3 Improving Interpolation Accuracy1943.4.2.4 Boundary handlingg1963.43G1983.4.4. 1 Solving Diffusion with Forward Euler1993.4.4.2 Stability of diffuusIonSol2013.4.4.3 Solving DiffusiOn with Backward Euler2033.4.4.4 Boundary Handling2083.4.5 Pressure and Incompressibility2113.4.5. 1 Building matrix2143.5 Smoke simulation2203.5.1 Buoyancy Force2223.5.2 Advection and Diffusioll3.6 Fluid with Surface2233.6.1 Defining surfacc on grids233.6.1.1 Tracking the Surface under the Flow263.6.1.2 Reinitializing Signed-Distance Field226T&FCat#K25519—K25519C000— page ix-10/21/2016—17:12

诛仙任务编辑器源码

MIMO系统的仿真，2输入2输出的误码率分析

[原创]根据C.Gosselin的论文编写的6-SPS并联机器人可达工作空间绘制程序，思路、算法与数据均来自论文"Determination of the Workspace of 6-DOF Parallel Manipulators"，算法的实现（如圆弧求交离散，可达工作空间边界判定等）由本人自己编写，最后绘制的图形不仅包括z向横截面的工作空间轮廓图，还包括过z轴平面与工作空间的交线，以通过线框图更好的反映工作空间外形。文件中还包括了论文中提到的计算z向截面面积的函数，执行主程序workspace_main.m后输出的AREA第一列为截面面积，第二列为截面的z向位置。

插值得到气动数据。。4阶龙格库塔阶运动微分方程。得到弹道数据