作者:Dominique D. Guinard,Vlad著出版社:电子工业出版社出版日期:2018-01-01索书号:TP393/2752标准编码:9787121327643 物联网的潜能绝不止于解决特定场景的小问题,而是用务实|结构化的方法论来构建大型系统、实现创新、重建秩序。√ IoT 离不开更大图景及完整生态,作者要用超前视野和大局观,解决无数工具|标准|协议及云服务构成的高度碎片化。√ 易读到物联网新手可按图索骥建立一个完整的端到端物联网;深刻到创建完所有元素后你已成为熟练的物联网开发者。 本书是介绍万维物联网的入门教材。作者通过将树莓派作为物理设备网关,提出一种构建万物互联的可行方案——利用现有的万维网标准、协议,以及HTML、CSS 和技术,让智能产品终端成为开放的万维网的一部分,终形成物联网和万维网的结合体——万维物联网。本书分为两个部分,章到第5 章是第I 部分,内容涵盖万维物联网基本概念、和Node.js 介绍,通过一个简单的例子来说明如何使用Node.js 的Web 框架与远程设备进行交互。第6 章到0 章是第II 部分,详细介绍万维物联网技术栈中的各层架构及如何用现有的Web 技术实现各层架构,终能够形成物理网聚合应用,能够快速创建复杂应用程序,整合各种设备和数据。本书涉猎的技术范围广泛,包括各种Web 和物联网协议、Web 标准及树莓派的原理与实践。适合之前没有丰富嵌入式开发经验,但希望探索物联网世界的Web 开发人员阅读,也适合作为一本初级教程指导树莓派开发者和Node.js 爱好者进行物联网开发实践。
上传时间: 2022-04-28
上传用户:woyaotandang
以C8051F020为核心处理器,设计无线传感器网络数据采集系统。系统采用SZ05-ADV型无线通讯模块组建Zigbee无线网络,结合嵌入式系统的软硬件技术,完成终端节点的8路传感器信号的数据采集。现场8路信号通过前端处理后,分别送入C8051F020的12位A/D转换器进行转换。经过精确处理、存储后的现场数据,通过Zigbee无线网络传送到上位机,系统可达到汽车试验中无线测试的目的。 Abstract: This paper designs a wireless sensor network system for data acquisition with C8051F020 as core processors.The system used SZ05-ADV wireless communication module,set up a Zigbee wireless network, combined with hardware and software technologies of embedded systems,completed the end-Node 8-locale sensor signal data acquisition.Eight locale signals were sent separately into the 12-bit ADC of C8051F020 for conversion through front treatment.After accurate processing and storage,the locale data was transmitted to the host computer through Zigbee wireless.The system achieves the purpose of wireless testing in vehicle trial.
标签: C8051F020 Zigbee 汽车测试 系统设计
上传时间: 2013-11-23
上传用户:dsgkjgkjg
介绍了CAN总线和P87C591单片机的特点,给出了基于P87C591单片机的信号采集节点的软、硬件设计,指出了硬件电路设计中应注意的问题,在软件设计中重点介绍了节点初始化、报文发送和报文接收等子程序。 Abstract: The features of CAN Bus and the microcontroller P87C591 are introduced, and the design of hardware circuit and soft configuration of the signals collection Node based on P87C591 are presented. The problems in designing hardware circuit are discussed.Initialization subprogram, transmiting subprogram and receiving subprogram are emphasized in soft configuration.
上传时间: 2013-11-03
上传用户:BIBI
基于幅移键控技术ASK(Amplitude-Shift Keying),以C8051F340单片机作为监测终端控制器,C8051F330D单片机作为探测节点控制器,采用半双工的通信方式,通过监控终端和探测节点的无线收发电路,实现数据的双向无线传输。收发电路采用直径为0.8 mm的漆包线自行绕制成圆形空心线圈天线,天线直径为(3.4±0.3)cm。试验表明,探测节点与监测终端的通信距离为24 cm,通过桥接方式,节点收发功率为102 mW时,节点间的通信距离可达20 cm。与传统无线收发模块相比,该无线收发电路在受体积、功耗、成本限制的场合有广阔的应用前景。 Abstract: Based on ASK technology and with the C8051F340 and C8051F330D MCU as the controller, using half-duplex communication mode, this paper achieves bi-directional data transfer. Transceiver circuit constituted by enameled wire which diameter is 0.8mm and wound into a diameter (3.4±0.3) cm circular hollow coil antenna. Tests show that the communication distance between detection and monitoring of the terminal is 24cm,the distance is up to 20cm between two Nodes when using the manner of bridging and the Node transceiver power is 102mW. Compared with the conventional wireless transceiver modules, the circuit has wide application prospect in small size, low cost and low power consumption and other characteristics.
上传时间: 2013-10-19
上传用户:xz85592677
基于P87 C591的CAN总线系统智能节点设计Design of CAN System Intelligent Node Based on P87C591 给出了基于带CAN控制器的单片8位微控制器P87C591的智能节点的硬件电路及软件结构,详细介绍了设计中的难点及实现过程中应注意的问题。关键词:CAN总线;智能节点 Abstract:A h ardc ircuita nds oftw arec onfigurationo fth ei ntelligentNode based on a microcontroller with CAN controller P87C591 arepresented.E speciallyt hec ruxi nd esigninga ndt hep roblemst hatshould be paid attention in realizing are discussed in details.Keyw ords:C AN;in telligentn ode CA N 总线 是德国Bosch从20世纪80年代初为解决现代汽车中众多的控制与测试仪器之间的数据交换而开发的一种串行数据通信协议,它是一种多主总线,通信介质可以是双绞线、同轴电缆或光导纤维。由于CAN总线具有较强的纠错能力,支持差分收发,因而适合高噪声环境。并具有较远的传输距离,适用于许多领域的分布式测控系统。目前已在工业自动化、建筑物环境控制、医疗设备等许多领域得到广泛的应用。CAN已成为国际标准化组织IS011898标准。
上传时间: 2013-10-30
上传用户:xymbian
CAN与RS232转换节点的设计与实现 介绍将CAN总线接口与RS232总线接口相互转换的设计方法和2种总线电平转换关系,实现CAN总线与各模块的接口设计,制定了相应的软硬件设计方案,并给出软件设计流程图以及部分硬件设计原理图。为CAN总线与RS232总线互联提供了一种方法,对CAN总线与RS232总线接口设备的互联和广泛应用的实现具有重要意义。关键词:CAN总线;RS-232总线;串行通信Design and Realization of CAN and RS232 Transformation NodeZHOU Wei, CHENG Xiao-hong(Information Institute, Wuhan University of Technology, Wuhan 430070)【Abstract】This paper introduces one design method of the CAN bus interface and the RS232 bus interface interconversion, emphasizes two kindof bus level transformation relations, realizes the CAN bus and various modules connection design, formulates the design proposal of correspondingsoftware and hardware, and gives the flow chart of software design as well as the partial schematic diagram of hardware design. It providesonemethod for the CAN bus and the RS232 bus interconnection, has the vital significance to widespread application realization of the CAN busand theRS232 bus interface equipment interconnection.【Key words】CAN bus; RS-232 bus; serial communication
上传时间: 2013-11-04
上传用户:leesuper
关于3g无线网优的:WCDMA无线基本原理 课程目标: 掌握3G移动通信的基本概念 掌握3G的标准化过程 掌握WCDMA的基本网络结构以及各网元功能 掌握无线通信原理 掌握WCDMA的关键技术 参考资料: 《3G概述与概况》 《中兴通讯WCDMA基本原理》 《ZXWR RNC(V3.0)技术手册》 《ZXWR NB09技术手册》 第1章 概述 1 1.1 移动通信的发展历程 1 1.1.1 移动通信系统的发展 1 1.1.2 移动通信用户及业务的发展 1 1.2 3G移动通信的概念 2 1.3 为什么要发展第三代移动通信 2 1.4 3G的标准化过程 3 1.4.1 标准组织 3 1.4.2 3G技术标准化 3 1.4.3 第三代的核心网络 4 1.4.4 IMT-2000的频谱分配 6 1.4.5 2G向3G移动通信系统演进 7 1.4.6 WCDMA核心网络结构的演进 11 第2章 WCDMA系统介绍 13 2.1 系统概述 13 2.2 R99网元和接口概述 14 2.2.1 移动交换中心MSC 16 2.2.2 拜访位置寄存器VLR 16 2.2.3 网关GMSC 16 2.2.4 GPRS业务支持节点SGSN 16 2.2.5 网关GPRS支持节点GGSN 17 2.2.6 归属位置寄存器与鉴权中心HLR/AuC 17 2.2.7 移动设备识别寄存器EIR 17 2.3 R4网络结构概述 17 2.3.1 媒体网关MGW 19 2.3.2 传输信令网关T-SGW、漫游信令网关R-SGW 20 2.4 R5网络结构概述 20 2.4.1 媒体网关控制器MGCF 22 2.4.2 呼叫控制网关CSCF 22 2.4.3 会议电话桥分MRF 22 2.4.4 归属用户服务器HSS 22 2.5 UTRAN的一般结构 22 2.5.1 RNC子系统 23 2.5.2 Node B子系统 25 第3章 扩频通信原理 27 3.1 扩频通信简介 27 3.1.1 扩频技术简介 27 3.1.2 扩频技术的现状 27 3.2 扩频通信原理 28 3.2.1 扩频通信的定义 29 3.2.2 扩频通信的理论基础 29 3.2.3 扩频与解扩频过程 30 3.2.4 扩频增益和抗干扰容限 31 3.2.5 扩频通信的主要特点 32 第4章 无线通信基础 35 4.1 移动无线信道的特点 35 4.1.1 概述 35 4.1.2 电磁传播的分析 37 4.2 编码与交织 38 4.2.1 信道编码 39 4.2.2 交织技术 42 4.3 扩频码与扰码 44 4.4 调制 47 第5章 WCDMA关键技术 49 5.1 WCDMA系统的技术特点 49 5.2 功率控制 51 5.2.1 开环功率控制 51 5.2.2 闭环功率控制 52 5.2.3 HSDPA相关的功率控制 55 5.3 RAKE接收 57 5.4 多用户检测 60 5.5 智能天线 62 5.6 分集技术 64 第6章 WCDMA无线资源管理 67 6.1 切换 67 6.1.1 切换概述 67 6.1.2 切换算法 73 6.1.3 基于负荷控制原因触发的切换 73 6.1.4 基于覆盖原因触发的切换 74 6.1.5 基于负荷均衡原因触发的切换 77 6.1.6 基于移动台移动速度的切换 79 6.2 码资源管理 80 6.2.1 上行扰码 80 6.2.2 上行信道化码 83 6.2.3 下行扰码 84 6.2.4 下行信道化码 85 6.3 接纳控制 89 6.4 负荷控制 95 第7章 信道 97 7.1 UTRAN的信道 97 7.1.1 逻辑信道 98 7.1.2 传输信道 99 7.1.3 物理信道 101 7.1.4 信道映射 110 7.2 初始接入过程 111 7.2.1 小区搜索过程 111 7.2.2 初始接入过程 112
上传时间: 2013-11-20
上传用户:tdyoung
针对飞行模拟器座舱数据采集的复杂性,设计了一种基于以太网分布式的数据采集控制系统,该系统是RCM5700微处理器模块上的以太网应用。在系统的基础上具体讨论了PoE技术的应用,在传输数据的网线上同时提供电流,提出并实现了一种包括辅助电源在内的完整可靠的PoE供电方案。设计采用美国国家半导体的LM5073和LM5576并根据不同的负载情况,进行稳定可靠的电压转换,以满足数据采集电路的要求。实验结果表明:该设计稳定可靠,满足低于13 W的采集节点供电要求,提高了模拟器信号采集系统的通用性和标准化程度,避免了以往数据采集节点单独繁琐的电源设计。 Abstract: Aiming at the complexity of large avion simulation and controlling,the simulator cabin distribute data collecting and control system was designed. This system is the application of RCM5700 on Ethernet. Based on this system,PoE technique that makes Ethernet can also provide power were expounded with emphasis and included FAUX design the PoE resolution was realized. To achieve the requirement of this system,LM5073 and LM5576 were used to DC-DC switch. From the data of experiment,the design filled the requirement of power-need of Node whose power was lower than 13W. The application of the technique can advance the degree of simulation data collections currency and standardization and avoid designing additional power system.
上传时间: 2013-11-09
上传用户:xyipie
The NCV7356 is a physical layer device for a single wire data linkcapable of operating with various Carrier Sense Multiple Accesswith Collision Resolution (CSMA/CR) protocols such as the BoschController Area Network (CAN) version 2.0. This serial data linknetwork is intended for use in applications where high data rate is notrequired and a lower data rate can achieve cost reductions in both thephysical media components and in the microprocessor and/ordedicated logic devices which use the network.The network shall be able to operate in either the normal data ratemode or a high-speed data download mode for assembly line andservice data transfer operations. The high-speed mode is onlyintended to be operational when the bus is attached to an off-boardservice Node. This Node shall provide temporary bus electrical loadswhich facilitate higher speed operation. Such temporary loads shouldbe removed when not performing download operations.The bit rate for normal communications is typically 33 kbit/s, forhigh-speed transmissions like described above a typical bit rate of83 kbit/s is recommended. The NCV7356 features undervoltagelockout, timeout for faulty blocked input signals, output blankingtime in case of bus ringing and a very low sleep mode current.
上传时间: 2013-10-24
上传用户:s蓝莓汁
在研究传统家用燃气报警器的基础上,以ZigBee协议为平台,构建mesh网状网络实现网络化的智能语音报警系统。由于传感器本身的温度和实际环境温度的影响,传感器标定后采用软件补偿方法。为了减少系统费用,前端节点采用半功能节点设备,路由器和协调器采用全功能节点设备,构建mesh网络所形成的家庭内部报警系统,通过通用的电话接口连接到外部的公用电话网络,启动语音模块进行报警。实验结果表明,在2.4 GHz频率下传输,有墙等障碍物的情况下,节点的传输距离大约为35 m,能够满足家庭需要,且系统工作稳定,但在功耗方面仍需进一步改善。 Abstract: On the basis of studying traditional household gas alarm system, this paper proposed the platform for the ZigBee protocol,and constructed mesh network to achieve network-based intelligent voice alarm system. Because of the sensor temperature and the actual environment temperature, this system design used software compensation after calibrating sensor. In order to reduce system cost, semi-functional Node devices were used as front-end Node, however, full-function devices were used as routers and coordinator,constructed alarm system within the family by building mesh network,connected to the external public telephone network through the common telephone interface, started the voice alarm module. The results indicate that Nodes transmit about 35m in the distance in case of walls and other obstacles by 2.4GHz frequency transmission, this is able to meet family needs and work steadily, but still needs further improvement in power consumption.
上传时间: 2013-10-30
上传用户:swaylong
