pyqt qss实现的360界面

【实例简介】本文根据双闭环串级调速系统的数学模型，按照工程设计的方法，在转差率 为O—I范围内，分别对电流调节器和速度调节器的PI参数进行了计算，其参数和动奄性 能指标受转差率 的影响很小，适应较宽的调速范围．本文举出了一十设计实例．并提出 参数测量的实验方法．

全新RTCM3.3协议完整版RTCM STANDARD 10403.3DIFFERENTIAL GNSS(GLOBAL NAVIGATION SATELLITE SYSTEMS)SERVICES – VERSION 3DEVELOPED BYRTCM SPECIAL COMMITTEE NO. 104OCTOBER 7, 2016COPYRIGHT©2016 RTCMRadio Technical Commission for Maritime Services1611 N. Kent St., Suite 605Arlington, Virginia 22209-214RTCM Paper 141-2016-SC104-STD000ocRTCMco00c30RTCM 10403. 3, Differential GNSS Global Navigation Satellite Systems)Services- Version 3, October 7, 2016This standard (referred to as version 3 has been developed by rtCm special Committee 104 as a moreefficient alternative to the standards entitled rtcm recommended standards for diffe rentialRecommended Standards for Differential gNss Global Navigation Satellite Systems Service, Version 2.x(Current version is 2. 3, now designated as RTCM 10402. 3. Service providers and vendors represented onthe SC104 Committee wanted a new standard that would be more efficient, easy to use, and more easilyadaptable to new situations. The main complaint was that the version 2. x parity scheme, which useswords with 24 bits of data followed by 6 bits of parity, was wasteful of bandwidth. Another complaint wasthat the parity was not independent from word to word. Still another was that even with so many bitsdevoted to parity the actual integrity of the message was not as high as it should be. Plus, 30-bit wordsare awkward to handle. the new standard version 3 is intended to correct these weaknessesUnlike Version 2. x, this standard does not include tentative messages The messages in Version 3 haveundergone testing for validity and interoperability and are considered to be permanent. amendments tothe standard may change the meaning of reserved bits or provide additional clarifying text, but no changeswill be made in the data fields. Changes will require new messages to be developed. In addition to themessages described in the current standard the committee continues to develop new messages whichare described in separately published amendments and periodically gathered into a new edition of thestandard. RTCM 10403x for dgNSS services is proving useful in supporting highly accurate differentialand kinematic positioning as well as a wide range of navigation applications worldwideNote that Version 3 messages are not compatible with Version 2. x. Since many receivers have beendesigned and programmed for use with Version 2. x messages, rtCm is maintaining both standards0402 3 and 10403, 3 as" standardsVersion 3.0The initial edition consisted primarily of messages designed to support real-time kinematic (RTK)operations. The reason for this emphasis is that rtk operation involves broadcasting a lot of informationand thus benefits the most from an efficient data format. Version 3.0 provided messages that supportGPS and gloNaSs rTK operations including code and carrier phase observables antenna parametersand ancillary system parametersVersion 3. 1(RTCM Standard 10403.1:The next edition, Version 3. 1 (RTCM Standard 10403. 1), incorporated GPS Network Corrections, whichenable a mobile receiver to obtain accurate rtk information valid over a large area. In addition, new GPSand GLoNaSS messages provide orbital parameters to assist in rapid acquisition a Unicode text messageis also provided for the transmission of textual data. Finally a set of messages are reserved for vendorswho want to encapsulate proprietary data in their broadcasts the gps Network Corrections enable amobile receiver to obtain accurate rtk information valid over a large area. the network rtk correctioninformation provided to a rover can be considered as interpolated corrections between the referencestations in the rtk network this interpolation is not perfect and varies with the actual conditions of theatmosphere. A residual interpolation error has to be expected. With sufficient redundancy in the RtKnetwork, the network server process can provide an estimate for residual interpolation errors. Suchquality estimates may be used by the rover to optimize the performance of rtk solutions The values maybe considered by the rover as a priori estimates only with sufficient tracking data available the rovermight be able to judge residual geometric and ionospheric errors itselfVersion 3. 1. Amendment 1:Amendments 1 was an extensive addition that adds rtcm messages containing transformation data andinformation about Coordinate reference Systems. For rtCm data supporting a rtk service, coordinatesare measured within the itrf or a regional realization surve yors and other users of rtk services mustnormally present their results in the coordinates of local datums. Therefore, coordinate transformationsare necessary. by having RTCM messages that contain transformation data and information about theCoordinate reference systems the users of the rtk service can obtain their results in the desired datumwithout any manual operations. the rtk service providers can then ensure that current information forthe computation of the transformations is always used. the convenience of this method will promote theacceptance of rtK servicesVersion 3. 1. amendment 2:Amendment 2 added residual error messages to support the use of Non-Physical or Computed referenceStations in a network rtk environmentVersion 3. 1. amendment 3:Amendment 3 addressed differences in the way gnss receiver manufacturers have implemented carrierphase encoding of some Version 3 messages so that carrier phase observations are in phase for all carrierphases of a specific frequency i e. they correct for quarter cycle phase shifts. others retain the quartercycle offset between the carrier phase observations in the data. this amendment documents the waydifferent manufacturers have handled the phase shift issue and prescribes a uniform approach for futureproducts.∨ersiⅰon3.1, Amendment4:Amendment 4 added sections 3.5.13 on glONASS Network rtK Correction Messages and 3.5. 14 on FKPNetwork Rtk Correction Messages Related revisions were also made elsewhere in the document.Version 3. 1. amendment 5Amendment 5 added section 3. 5. 12 on State Space Representation related revisions are also madeelsewhere in the document, along with some editorial correctionsVersion 3. 2(RTCM Standard 10403.2)Version 3.2 consolidates Version 3. 1 and all five amendments into a new edition, and it adds MultipleSignal Messages (MSM)as well. the Multiple Signal Message (MSm)format generates receiverobservables in the same way for all included satellite systems. the messages include compact and fullmessages for Pseudorange, PhaseRange, Carrier to Noise Ratio (standard and high resolution), andPhaseRangeratea table near the beginning of the standard lists which messages were included in each separate editionand amendment, so it should not be necessary for users to refer to older versions. Multiple signalMessages are a generic format that will be followed for all GNSs systems. version 3 originally consisted ofmessages for GPS and GLONASS, each in their own format Now with the imminent addition of signals forBeiDou, Galileo, and QZSS, as well as new signals provided by modernized GPS and GloNASS satellitesthe need for a consistent generic format became evident. service providers and users are urged to migrateto the MsM messages to make it easier to accommodate new gNss services(See The RTCM Multiple Signal Messages: A New Step in GNSS Data Standardization")Another newmessage is the gloNaSS Bias Information message. This message provides information which is intendedto compensate for the first-order inter-frequency phase range biases introduced by the reference receivercode- phase biasVersion 3.2, Amendment 1:Added Galileo F/NAv Satellite Ephemeris Data(msg. 1045 )and Bds MSM(msgs. 1121-1127)Version 3.2 amendment 2Added qzss ephemeris(msg. 1044 )and QZss MSm (msgs. 1111-1117Version 3. 3(RTCM Standard 10403.3)This new edition adds Satellite-Based Augmentation System Multiple Signal Messages to previouslydopted messages for GPS, GLONASS, Galileo, and QzssA new ephemeris message has been added for BeiDou(BDS)and a new I/NAV ephemeris message hasbeen added for Galileo. The new edition also reserves 100 messages be used exclusively by sc104 fornew message developmentFinally, the new edition makes consolidates previous amendments and makes numerous editorialImprovementsNavstar GPS Service, Version 2. x. Service providers and vendors represented on the scco000c30z1O2co00c30Contentsco00c30

一款常用的DLT/645规约 1997/2007通信协议调试器，非常适合车间生产与技术调试用。其中，DLT645-1997_2007多功能电能表通信协议调试器2012-02-07发行.rar包含：DLT645-1997_2007多功能电能表通信协议调试器2009-03-03发行DLT645-1997_2007多功能电能表通信协议调试器2012-02-07发行DLT645-1997通讯规约通信规约.pdfDLT645-2007_通讯规约.pdf

集中整合了16篇关于matlab车牌识别各大高校的学术论文

哈尔滨工业大学数字电路笔记哈尔滨工业大学数字电路笔记哈尔滨工业大学数字电路笔记哈尔滨工业大学数字电路笔记

使用CNN深度学习网络keras框架识别交通标志 使用了data augmentation，preprocess图片dropout等训练技巧

详细设计文档

完成的功能有：三维点云获取，点云数据下采样（为后续处理加速），平面检测和获取，3D显示 在一个老外牛人的程序上改的，原版只支持点云获取和显示，不包括点云处理。另外，原版有个bug，会导致大量的CPU时间用来显示无效的点云数据，已被我这版修正。程序中有个宏开关CLOUD_DISPLAY，如果定义这个宏则有三维显示，如果不定义这个宏则关闭三维显示功能。关闭三维显示的目的是为了加速三维点云数据的处理。另外，使用本程序必要条件是要在你电脑上把Kinect SDK装好，这个去官网下就是了。同时需要把PCL环境配好，推荐另外一个牛人的博客：http://www.zhangzscn.com/20

雷达技术的发展使其具有高的二维分辨率，能对场景和目标成像，因而成像已成为雷达的一种新的功能，极大地提高了获取目标信息的能力。它在各类雷达的许多方面得到越来越广泛的应用, 本书共分8章，主要内容有：雷达高分辨的原理和实现的处理方法，一维距离像，合成孔径雷达，逆合成孔径雷达，干涉技术在合成孔径雷达和逆合成孔径中的应用等。本书在内容的安排上更着重于理论联系实际，在将基本原理和算法介绍清楚的基础上，主要讨论实际实现中的各类工程技术问题，力求帮助雷达工程技术人员尽快地掌握这一新技术，并能用以解决实际工程问题。, 本书具有的设计性和实用性，将会指导从事雷达研究、制造的工程技术人员设计、制造出性能优异的雷达

人脸检测作为物体检测问题的一个特例,长期以来一直备受关注,已经开始广泛应用到全新人机界面、基于内容的检索、基于目标的视频压缩、数字视频处理、视觉监测等许多领域。 本论文研究的是如何准确地在复杂背景的灰度或彩色图像中测人脸,同时验证了结合肤色等多种信息融合的方法是提高检测速度的有效途径之一。利用目前较为流行的AdaBoost算法的一个改进算法——Gentle AdaBoost算法,设计实现了以这个算法为核心的快速人脸检测系统,系统分训练和检测两部分,训练的最终目的就是得到一多层分类器结构,人脸检测的效率和检测速度在很大程度上是由这种结构形式决定的。通过一系列的比较得出样本选取、特征选取、核心算法