登录
首页 » Others » 求取图像的相关系数---matlab ---M文件

求取图像的相关系数---matlab ---M文件

于 2020-11-30 发布
0 325
下载积分: 1 下载次数: 2

代码说明:

有关于求取图像相关系数的matlab M 文件;虽然很简单,但可以为你省去那么一点时间。 共享改变未来!

下载说明:请别用迅雷下载,失败请重下,重下不扣分!

发表评论

0 个回复

  • 数学建模论文1992-2011年全部优秀论文与点评
    数学建模历届论文,不容错过,里面大概有40多篇论文,还有很多点评,想在数学建模中取得好成绩,那就快来学习吧。肯定不会让您失望的。一切都等着你,还等什么,希望能为你们在数学建模方面带来很大的帮助。
    2020-12-09下载
    积分:1
  • visio 图库
    【实例简介】目前为最新的H3C Visio图库,没有H3C的标签,可应用到各种项目文档拓扑绘制中。内容包含交换路由等网络设备、机柜等机房设施、楼宇、信号等,为PPT版,可通过复制粘贴到Visio中
    2021-10-29 00:34:59下载
    积分:1
  • MATLAB 神经网络43个案例分析》源代码&数据.
    【实例简介】《MATLAB 神经网络43个案例分析》目录 第1章 BP神经网络的数据分类——语音特征信号分类 第2章 BP神经网络的非线性系统建模——非线性函数拟合 第3章 遗传算法优化BP神经网络——非线性函数拟合 第4章 神经网络遗传算法函数极值寻优——非线性函数极值寻优 第5章 基于BP_Adaboost的强分类器设计——公司财务预警建模 第6章 PID神经元网络解耦控制算法——多变量系统控制 第7章 RBF网络的回归--非线性函数回归的实现 第8章 GRNN网络的预测----基于广义回归神经网络的货运量预测 第9章 离散Hopfield神经网络的联想记忆——数字识别 第10章 离散Hopfield神经网络的分类——高校科研能力评价 第11章 连续Hopfield神经网络的优化——旅行商问题优化计算 第12章 初始SVM分类与回归 第13章 LIBSVM参数实例详解 第14章 基于SVM的数据分类预测——意大利葡萄酒种类识别 第15章 SVM的参数优化——如何更好的提升分类器的性能 第16章 基于SVM的回归预测分析——上证指数开盘指数预测. 第17章 基于SVM的信息粒化时序回归预测——上证指数开盘指数变化趋势和变化空间预测 第18章 基于SVM的图像分割-真彩色图像分割 第19章 基于SVM的手写字体识别 第20章 LIBSVM-FarutoUltimate工具箱及GUI版本介绍与使用 第21章 自组织竞争网络在模式分类中的应用—患者癌症发病预测 第22章 SOM神经网络的数据分类--柴油机故障诊断 第23章 Elman神经网络的数据预测----电力负荷预测模型研究 第24章 概率神经网络的分类预测--基于PNN的变压器故障诊断 第25章 基于MIV的神经网络变量筛选----基于BP神经网络的变量筛选 第26章 LVQ神经网络的分类——乳腺肿瘤诊断 第27章 LVQ神经网络的预测——人脸朝向识别 第28章 决策树分类器的应用研究——乳腺癌诊断 第29章 极限学习机在回归拟合及分类问题中的应用研究——对比实验 第30章 基于随机森林思想的组合分类器设计——乳腺癌诊断 第31章 思维进化算法优化BP神经网络——非线性函数拟合 第32章 小波神经网络的时间序列预测——短时交通流量预测 第33章 模糊神经网络的预测算法——嘉陵江水质评价 第34章 广义神经网络的聚类算法——网络入侵聚类 第35章 粒子群优化算法的寻优算法——非线性函数极值寻优 第36章 遗传算法优化计算——建模自变量降维 第37章 基于灰色神经网络的预测算法研究——订单需求预测 第38章 基于Kohonen网络的聚类算法——网络入侵聚类 第39章 神经网络GUI的实现——基于GUI的神经网络拟合、模式识别、聚类 第40章 动态神经网络时间序列预测研究——基于MATLAB的NARX实现 第41章 定制神经网络的实现——神经网络的个性化建模与仿真 第42章 并行运算与神经网络——基于CPU/GPU的并行神经网络运算 第43章 神经网络高效编程技巧——基于MATLAB R2012b新版本特性的探讨
    2021-11-18 00:44:24下载
    积分:1
  • Verilog-IEEE Std 1364 -2005 IEEE Standard
    Verilog的IEEE标准,比较新的一个吧应该是IEEE Std 1364 TM-2005(Revision of IEEE Std 1364-2001)lEE Standard for VerilogHardware Description LanguageSponsorDesign Automation Standards Committeeof theIEEE Computer SocietyAbstract: The Verilog hardware description language(HDL) is defined in this standard. VerilogHDL is a formal notation intended for use in all phases of the creation of electronic systems. Because it is both machine-readable and human-readable, it supports the development, verificationsynthesis, and testing of hardware designs; the communication of hardware design data; and themaintenance, modification, and procurement of hardware. The primary audiences for this standardare the implementors of tools supporting the language and advanced users of the languageKeywords: computer, computer languages, digital systems, electronic systems, hardware, hardware description languages, hardware design, HDL, PLI, programming language interface, Verilog,Verilog HDL, verilog PllThe Institute of Electrical and Electronics Engineers, Inc3 Park Avenue. New york. NY 10016-5997 USACopyright@ 2006 by the Institute of Electrical and Electronics Engineers, IncAll rights reserved Published 7 April 2006. Printed in the United states of AmericaIEEE is a registered trademark in the U.S. Patent Trademark Office, owned by the Institute of Electrical and ElectronicsEngineers, IncorporatedVerilog is a registered trademark of Cadence Design Systems, IncPrint:|sBN0-738148504SH95395PDFSBN0-7381-48512SS95395No part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, without the priorwritten permission of the publisher.IEEE Standards documents are developed within the IEee Societies and the Standards CoordinatingCommittees of the iEEE Standards Association (IEEE-SA)Standards board The ieee develops its standardsthrough a consensus development process, approved by the american National Standards Institute, which bringstogether volunteers representing varied viewpoints and interests to achieve the final product. Volunteers are notnecessarily members of the Institute and serve without compensation. While the ieee administers the processand establishes rules to promote fairness in the consensus development process, the ieee does not independentlyevaluate, test, or verify the accuracy of any of the information contained in its standards.Use of an IEEE Standard is wholly voluntary. The ieee disclaims liability for any personal injury, property orother damage of any nature whatsoever, whether special, indirect, consequential, or compensatory, directly orindirectly resulting from the publication, use of, or reliance upon this, or any other iEEE Standard documentThe ieee does not warrant or represent the accuracy or content of the material contained herein, and expresslydisclaims any express or implied warranTy, including any implied warranty of merchantability or fitness for a specific purpose, or that the use of the material contained herein is free from patent infringement. IEEE Standardsdocuments are supplied "AS IsThe existence of an IEEE Standard does not imply that there are no other ways to produce, test, measurepurchase, market, or provide other goods and services related to the scope of the IEEE Standard. Furthermore, theviewpoint expressed at the time a standard is approved and issued is subject to change brought about throughdevelopments in the state of the art and comments received from users of the standard Every IeeE Standard issubjected to review at least every five years for revision or reaffirmation. When a document is more than fiveyears old and has not been reaffirmed, it is reasonable to conclude Chat ils contents, although still of some valuedo not wholly reflect the present state of the art. Users are cautioned to check to determine that they have thelatest edition of any IEEE StandardIn publishing and making this document available, the IEeE is not suggesting or rendering professional or otherervices for, or on behalf of, any person or entity. Nor is the Ieee undertaking to perform any dutyother person or entity to another. Any person utilizing this, and any other ieee Standards document, should relupon the advice of a competent professional in determining the exercise of reasonable care in any givencircumstancesInterpretations: Occasionally questions may arise regarding the meaning of portions of standards as they relate tospecific applications. When the need for interpretations is brought to the attention of IEEe, the Institute will initiateaction to prepare appropriate responses. Since ifff Standards represent a consensus of concerned interests, it isimportant to ensure that any interpretation has also received the concurrence of a balance of interests. For thisreason, IEEE and the members of its societies and standards coordinating committees are not able to provide aninstant response to interpretation requests except in those cases where the matter has previously received formalconsideration. At lectures, symposia, seminars, or educational courses, an individual presenting information onIEee standards shall make it clear that his or her views should be considered the personal views of that individuarather than the formal position, explanation, or interpretation of the IeeeComments for revision of IEEE Standards are welcome from any interested party, regardless of membership aftil-iation with IEEE. Suggestions for changes in documents should be in the form of a proposed change of texttogether with appropriate supporting comments Comments on standards and requests for interpretations shouldaddressed toIEEE-SA Standards Board445 Hoes lanePiscataway, NJ 08854USANoTE-Attention is called to the possibility that implementation of this standard may require use of subjectmatter covered by patent rights. By publication of this standard, no position is taken with respect to theexistence or validity of any patent rights in connection therewith. The IEf shall not be responsible foridentifying patents for which a license may be required by an ieee standard or for conducting inquiries into thelegal validity or scope of those patents that are brought to its attentionAuthorization to photocopy portions of any individual standard for internal or personal use is granted by the Institute of Electrical and Electronics Engineers, Inc, provided that the appropriate fee is paid to Copyright ClearanceCenter. To arrange for payment of licensing fee, please contact Copyright Clearance Center, Customer Service222 Rosewood Drive, Danvers, MA01923 USA; +19787508400. Permission to photocopy portions of any indi-idual standard for educational classroom use can also be obtained through the Copyright Clearance CenterIntroductionThis introduction is not a part of IEEE Std 1364-2005, IEEE Standard for Verilog Hardware Description LanguageThe Verilog hardware description language(HDL) became an IEEE standard in 1995 as IEEE Std 13641995. It was designed to be simple, intuitive, and effective at multiple levels of abstraction in a standardtextual format for a variety of design tools, including verification simulation, timing analysis, test analysisand synthesis. It is because of these rich features that verilog has been accepted to be the language of choiceby an overwhelming number of integrated circuit(IC)designersVerilog contains a rich set of built-in primitives, including logic gates, user-definable primitives, switches,and wired logic. It also has device pin-to-pin delays and timing checks. The mixing of abstract levels isessentially provided by the semantics of two data types: nets and variables. Continuous assignments, inwhich expressions of both variables and nets can continuously drive values onto nets, provide the basicstructural construct. Procedural assignments, in which the results of calculations involving variable and netvalues can be stored into variables, provide the basic behavioral construct. a design consists of a set of modules, each of which has an input/output(1/O)interface, and a description of its function, which can be structural, behavioral, or a mix. These modules are formed into a hierarchy and are interconnected with netsThe Verilog language is extensible via the programming language interface(PLI)and the verilog procedural interface(VPi) routines. The Pli/vPi is a collection of routines that allows foreign functions to accessinformation contained in a Verilog hdl description of the design and facilitates dynamic interaction withsimulation. Applications of PLI/VPI include connecting to a Verilog HDL simulator with other simulationand computer-assisted design(CAD)systems, customized debugging TaskS, delay calculators, andannotatorsThe language that influenced Verilog HDL the most was HILO-2, which was developed at Brunel University in England under a contract to produce a test generation system for the British Ministry of DefensehiLO-2 successfully combined the gate and register transfer levels of abstraction and supported verificationsimulation, timing analysis, fault simulation, and test generationIn 1990, Cadence Design Systems placed the Verilog HDL into the public domain and the independentOpen Verilog International(oVi)was formed to manage and promote Verilog HDL. In 1992, the Board ofDirectors of ovi began an effort to establish Verilog hdl as an ieeE standard. In 1993, the first IEeEworking group was formed; and after 18 months of focused efforts, Verilog became an IEEE standard asIEEE Std 1364-1995After the standardization process was complete, the IEEe P1364 Working Group started looking for feedback from IEEE 1364 users worldwide so the standard could be enhanced and modified accordingly. Thisled to a five-year effort to get a much better Verilog standard in IEEE Std 1364-2001With the completion of IEEE Std 1364-2001, work continued in the larger Verilog community to identifyoutstanding issues with the language as well as ideas for possible enhancements. As Accellera began work-ing on standardizing System Verilog in 2001, additional issues were identified that could possibly have led toincompatibilities between Verilog 1364 and System Verilog. The IEEE P1364 Working group was established as a subcomittee of the System Verilog P1800 Working Group to help ensure consistent resolution ofsuch issues. The result of this collaborative work is this standard ieee Std 1364-2005Copyright C 2006 IEEE. All rights reservedNotice to usersErrataErrata,ifanyforthisandallotherstandardscanbeaccessedatthefollowingurL:http:/stan-dards.ieee.org/reading/ieee/updates/errata/index.html. Users are encouraged to check this URL for errataperiodicaInterpretationsCurrentinterpretationscanbeaccessedatthefollowingUrl:http:/standards.ieeeorg/reading/ieee/interp/Index. htmlPatentsAttention is called to the possibility that implementation of this standard may require use of subject mattercovered by patent rights. By publication of this standard, no position is taken with respect to the existence orvalidity of any patent rights in connection therewith. The IEee shall not be responsible for identifyingpatents or patent applications for which a license may be required to implement an IEEE standard or forconducting inquiries into the legal validity or scope of those patents that are brought to its attentionParticipantsAt the time this standard was completed, the ieee P1364 Working group had the following membershipJohny Srouji, IBM, IEEE SyStem verilog Working Group chairTom Fitzpatrick, Mentor Graphics Corporation, ChairNeil Korpusik, Sun Microsystems, Inc, Co-chairStuart sutherland sutherland hdl inc. editorShalom Bresticker, Intel Corporation, Editor through February 2005The Errata Task Force had the following membershipKaren pynopsys,rKurt baty. WFSDB ConsultinDennis marsa. XilinxStefen Boyd, Boyd TechnologyFrancoise Martinolle, Cadence Design Systems, IncShalom Bresticker, Intel CorporationMike McNamara, Verisity, LtdDennis Brophy, Mentor Graphics CorporationDon Mills, LCDM EngineeringCliff Cummings, Sunburst Design, IncAnders nordstrom, Cadence Design Systems, IncCharles dawson, Cadence Design Systems, IncKaren Pieper, Synopsys, IncTom Fitzpatrick, Mentor Graphics CorpoBrad Pierce, Synopsys, IncRonald goodstein, first shot Logic simulation andSteven Sharp Cadence Design Systems, IncAlec Stanculescu. Fintronic USA IncDesignStuart Sutherland. Sutherland HDL IncMark Hartog, Synopsys incGordon Vreugdenhil, Mentor Graphics CorporationJames Markevitch, Evergreen Technology GroupJason Woolf, Cadence design Systems, IncCopyright C 2006 IEEE. All rights reservedThe behavioral Task Force had the following membership:Steven Sharp, Cadence Design Systems, InC, ChairKurt Baty, WFSDB ConsultingJay lawrence. Cadence design Systems. IncStefen Boyd, Boyd TechnologyFrancoise Martinolle, Cadence Design Systems, IncShalom Bresticker, Intel CorporationKathryn McKinley, Cadence Design Systems, IncDennis brophy, Mentor graphics corporationMichael mcnamara. Verisity LtdCliff Cummings, Sunburst Design, IncDon Mills, LCDM EngineeringSteven Dovich, Cadence Design Systems, IncMehdi Mohtashemi, Synopsys, IncTom Fitzpatrick, Mentor Graphics CorporationKaren Pieper, Synopsys, IncRonald Goodstein, First Shot Logic Simulation andBrad Pierce, Synopsys, IncDesignDave Rich, Mentor Graphics CorporationKeith Gover, Mentor Graphics CorporationSteven Sharp, Cadence Design Systems, IncMark Hartoog, Synopsys, IncAlec Stanculescu. Fintronic USAEnnis Hawk, Jeda TechnologiesStuart Sutherland. Sutherland hdl. IncAtsushi kasuya, Jcda TechnologicsGordon Vrcugdcnhil, Mentor Graphics CorporationThe PLI Task Force had the following membershipCharles Dawson, Cadence Design Systems, Inc, ChairGhassan Khoory, Synopsys, Inc Co-chairTapati Basu, Synopsys, IncMichael rohleder. Freescale Semiconductor. IncSteven Dovich, Cadence Design Systems, IncRob Slater, Freescale Semiconductor IncRalph duncan, Mentor Graphics CorporationJohn Stickley, Mentor Graphics CorporationJim garnett, Mentor Graphics CorporationStuart Sutherland. Sutherland HDL. incJoao geada CLK Design AutomationBassam Tabbara. Novas software. IncAndrzej litwiniuk, Synopsys, IncJim Vellenga, Cadence Design Systems, IncFrancoise Martinolle, Cadence Design Systems, IncDoug Warmke, Mentor Graphics CorporationSachchidananda Patel, Synopsys, IncIn addition, the working group wishes to recognize the substantial efforts of past contributorsMichael McNamara, Cadence Design Systems, Inc1364 Working Group past chair(through September 2004)Alec Stanculescu, Fintronic USA, 1304 Working Group past vice-chair(through June 2004)Stefen Boyd, Boyd Technology, ETF past co-chair(through November 2004)The following members of the entity balloting commitlee voted on this standard. Balloters may have votedfor approval, disapproval, or abstentionAccelleraIntel CorporationBluespec, Inc.Mentor Graphics CorporationCadence Dcsign Systcms, IncSun microsystems, IncIntronic u.s.aSunburst design, IncIBMSutherland hdl lncInfineon TechnologiesSynopsys, IncCopyright C 2006 IEEE. All rights reservedWhen the IEEE-SA Standards Board approved this standard on 8 November 2005, it had the followingmembershipSteve M. mills. chairRichard h. hulett vice chairDon wright Past chairJudith gorman. secretaryMark d. bowmanWilliam B HopfT W. olsenDennis B. BrophyLowell G. JohnsonGlenn parsonsJoseph brudeHerman KochRonald c. petersenRichard coxJoseph L. Koepfinger*Gary s. RobinsonBob davisDavid J lawFrank stoneJulian forster kDaleep c mohlaMalcolm v thadenJoanna n. gueninPaul nikolichRichard l. townsendS. HalpJoe d. watseRaymond hapemanHoward L, wolfmanAlso included are the following nonvoting Ieee-Sa Standards board liaisonsSatish K. aval, NRC RepresentativeRichard Deblasio, DOE RepresentativeAlan H. Cookson, NIST RepresentativeMichelle d, trIEEE Standards Project EditoCopyright C 2006 IEEE. All rights reservedContentsOverview1. 2 Conventions used in this standard1.3SIption1 4 Use of color in this standard1.5 Contents of this standard1.6 Deprecated clauses……….….….….…1.7 Header file listings....18 Examples…………………1.9PNormative references63. Lexical conventions83.1 Lexical tokens3.2 White space3. 3 Comments中··…·········:···············中·····“:·:·:·4·····“··········3. 4 Operators3. 5 Numberssteger constants3.5.2 Real constants123.5.3 Conversion123.6 Strings123.6. 1 String variable declaration133.6.2 String manipulation133.6.3 Special cha3.7 Identifiers. keds, and syste143.7.1 Escaped identifiers143.7.2 Keywords153.7.3 System tasks and functions3.7.4 Compiler directives153.8 Attrib163.8.1 Examples3.8.2 SyIata typ··4.1 Val214.2 Nets and variables4.2.1 Net declarations4.2.2 Variable declarations4.3V4.3.1g v244.3.2 Veclor net accessibility44.4 Strengths4.4.1 Charge strength4.4.2 Drive strength.....卓········中····“·········:·····················:········254.5 Implicit declarations4.6 Net types………264.6.1 Wire and tri nets264.6.2 Wired nets4.6.3TCopyright C 2006 IEEE. All rights reserved4.6.4 Trio and tri l nets4.6.5 Unresolved nets4.6.6 Supply nets324.7 Regs324.8 Integers, reals, times, and realtime4.8.1 Operators and real numbers4.8.2 Conversion4.9 Arrays4.9.1Net arrays…·中·····:··344.9.2 reg and variable arrays344.9.3 Memories4.10 Parameters…………………354.10.1 Module parameters…364.10.2 Local parameters(localparam““374.10.3 Specify parameters……384. Name spaces…39Expressions……5.1 Operators41Operators with real operands425.1.2 Operator precedence………5.1.3 Using integer numbers in expressions…….445.1.4 Expression evaluation order……2451. 5 Arithmetic operators5.1.6 Arithmetic expressions with regs and integers5. 1.7 Relational operators485.1.8Equ495.1.9 Logical operators…495.1.10 bitw isators505.1.11 Reduction operators5.112 Shift operators…….535. 1. 13 Conditional operator535.1. 14 Concatenations545.2 Operands………5.2. 1 Vector bit-Select and part-select addressing..565.2.2 Array and memory addressing.......,.……5.2.3ings585.3 Minimum, typical, and maximum delay expressions5.4 Expression bit lengths5.4.1 Rules for expression bit lengths65.4.2 Examole of expression bit-length problerpl635.4.3 Example of self-determined expressions.645.5 Signed expressions5.5.1 Rules for expression types.....5.5.2 Steps for evaluating5.5.3 Steps for evaluating an assignment5.54 Handling X and Z in signed expressions………5.6 Assignments and truncation6. Assignments……………686.1 Continuous assignments686. 1. 1 The net declaration assignment6.1.2 The continuous assignment statement·····中···:·:·4·中·····6.1.371Copyright C 2006 IEEE. All rights reserved
    2021-05-06下载
    积分:1
  • 灰色神经网络Matlab代码
    利用灰色关联调整神经网络隐层权重,得出的结果精度比较高。。。。。。。。。。。。
    2020-11-30下载
    积分:1
  • 计算机考研408历年真和答案
    计算机考研专业课408历年真题和答案,2009-2018年,保证不缺漏大家放心下载,本人考408的时候悉心收集的,下载后给好评哦,祝大家考上理想的学校,加油
    2020-07-02下载
    积分:1
  • BP 神经网络序BP 神经网络
    BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序BP 神经网络程序
    2020-12-05下载
    积分:1
  • VS+OPENCV+ZBAR维,二维码识别[包含中文]
    VS+OPENCV+ZBAR一维,二维码识别,对于中文乱码已经解码
    2020-11-28下载
    积分:1
  • 张威的人脸识别毕业论文,包括开报告,英文翻译,论文,序,非常全,毕业设计用
    张威的人脸识别毕业论文,包括开题报告,英文翻译,论文,程序,非常全,毕业设计用
    2020-12-02下载
    积分:1
  • FWFactoryTool5.50_2019127.rar
    RK固件解包工具FWFactoryTool5.50(支持3399/3288)1、让内核支持启动LOGO 在内核目录中 make menuconfig Device Drivers ----> Graphics support ----> 选中 Bootup logo ----> Standard 224-color Linux logo2、制作开机logo的图片 将要当作开机LOGO的图片按照你屏幕的大小进行裁减,并将其保存为bmp格式 或 png格式; 例如linuxlogo
    2020-12-11下载
    积分:1
  • 696516资源总数
  • 106914会员总数
  • 0今日下载