基于ARM的农作物生长环境数据采集系统【物联网开题报告外文翻译说明书论文】.zip
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毕 业 设 计(论 文)任 务 书1本毕业设计(论文)课题应达到的目的: 实时监控大棚农作物生长环境要素是作物管理的关键环节,基于ARM的嵌入式系统能实现前端的传感器数据采集。本设计目的在于通过传感器将大棚中的作物生长环境要素如光、温、水、肥等通过传感器采集到ARM系统,再由ARM系统通过GRPS上传到数据中心服务器。 2本毕业设计(论文)课题任务的内容和要求(包括原始数据、技术要求、工作要求等): 利用温度等传感器采集大棚作物生长环境,并通过zigbee协议实现将数据收集到ARM系统;利用C语言实现通讯协议将收集的数据上传到服务器。在服务器上完成数据的web展示。 毕 业 设 计(论 文)任 务 书3对本毕业设计(论文)课题成果的要求包括图表、实物等硬件要求: 实现基于ARM的嵌入式数据采集系统,能够监测大棚作物生长环境。 4主要参考文献: 1李道亮.物联网与智慧农业J.农业工程,2012(01):3-52管继刚.物联网技术在智能农业中的应用J.通信管理与技术,2010(03):3-53陈晓栋,原向阳,郭平毅,宁娜,郭美俊,兰艳亭.农业物联网研究进展与前景展望J.中国农业科技导报,2012(02):3-74初洪龙.基于物联网的智能农业大棚的研究与实现D.计算机应用技术.大连:大连理工大学,20145朱薪豪,侯艳艳,单承刚,桑得水.智能农业大棚系统的设计与实现J.电脑知识与技术.2015(11):1-36张霄.基于ARM11的嵌入式linux系统移植与实现D.软件工程.山东:山东大学20137邓华文.ARM嵌入式Linux系统研究与开发D.微电子学与固体电子学.四川:电子科技大学20118王琼.基于嵌入式Linux数据采集系统的软件设计与实现D.测试计量技术及仪器.四川:电子科技大学,20139张欢庆,高丽,宋承祥.基于ARM的嵌入式Linux交叉编译环境的研究与实现J.计算机与数字工程.2012(02):1-310李宗海,陈蜀宇,李海伟.嵌入式Linux系统在ARM平台上的构建J.计算机系统应用.2010(10):1-411张欢庆.基于ARM处理器的嵌入式Linux系统关键技术研究D.计算机软件与理论.山东:山东师范大学,201312赵玮娜.基于ARM的温室远程控制设计与研究D.检测技术与自动化装置.上海:东华大学,200913陶维成,姚学军.基于ARM Linux嵌入式系统开发环境的快速构建方法J.佳木斯大学学报(自然科学版).2015(01):1-314 陈何杰,郑灵翔.ARM Linux中断系统移植研究J.厦门大学学报.2010(03):1-415 潘宇,刘芳,刘传东.基于ARM的嵌入式数据终端设计J.白城师范学院学报.2013(03):2-316 李鹏飞, 汪小旵,李永博.无线嵌入式温室监测系统设计与实现J.南京农业大学工学院江苏省智能化农业装备重点实验室.2012(07):2-317苟军年.ARM Linux嵌入式软件开发平台的搭建J.兰州交通大学自动化与电气工程学院.2010(11):1-318 李莹,赵双华.基于ARM的室内温度控制系统的设计与实现J.郑州交通技师学院交通信息系.2010(09):2-3 毕 业 设 计(论 文)任 务 书5本毕业设计(论文)课题工作进度计划:2015.12.152016.01.02撰写及修改开题报告、外文参考资料及译文、论文大纲并提交开题报告、外文参考资料及译文、论文大纲2016.01.052016.04.05拟定论文提纲或设计说明书(下称文档)提纲;提交基本完成的毕业设计创作成果以及文档的撰写提纲2016.04.062016.04.10中期检查(含毕业设计成果验收检查)2016.03.202016.04.20进行毕业设计文档撰写;2016年4月20日定稿截止2016.05.172016.05.24毕业设计答辩2016.05.302016.06.05修改论文上传最终稿,并且上交纸质稿所在专业审查意见:通过负责人: 2015 年 12 月17 日 毕 业 设 计(论文) 开 题 报 告 1结合毕业设计(论文)课题情况,根据所查阅的文献资料,每人撰写不少于1000字左右的文献综述: 本课题研究的题目是基于ARM的农作物生长环境监控系统。 现代化农业现在一种基于精细农业的理念。所谓精细农业,是指基于变化的一种田间管理手段。农田里土壤的湿度、温度、光照等特性都不是均一的,是随着时间、空间变化的。而目前采用的管理模式中,都认为是统一的。采用统一的田间操作,这样容易造成资源浪费、效率不高、管理成本大等结果。如果采用精细农业, 根据田间环境信息的变化来确定最合适的管理决策,可以在降低消耗、保护环境的 前提下,实时监测农田的温度、湿度、风力、大气、降雨量、氮浓缩量和土壤PH值等,及时进行科学预测,帮助农民进行科学种植,实现农产品优质高产。精细农 业本身是一种可持续发展的理念,是一种管理方式。但是为了达到这个目标,需要 三方面的工作。首先,获得农作物生长环境信息数据;其次,根据收集的数据作出 作业决策,决定下一步灌溉、施肥量、施肥对象等管理操作以及相应的位置,时间; 第三,需要机器来完成。随着传感器技术、嵌入式技术以及通信半导体技术的快速 发展,使得在较小的芯片内能够集成信息采集、进行数据处理和无线通信等多种功 能。这种体积小并且使用方便的低功耗设备打破了传统计算机和高性能服务器的 设计模式,并把应用领域拓展到传统计算机难以涉及的领域,这为农业的信息现代 化奠定了基础,并使得精细农业的实现更有了物质技术条件手段 。整个系统主要有各种传感器和、单片机以及一个ARM开发板组成。传感器用于检测周围的环境,如温度,湿度,光照强度,CO2浓度等信息,并将这些信息转换为标准的电流和电压信号输出。单片机通过自身的A/D转换器将这些电流和电压的模拟信号转换为数字信号。每一个单片机都是一个zigbee终端节点。单片机将转换后的数字信号通过无线通信的方式传送给zigbee协调者。该协调者也是一个单片机。zigbee协调者通过无线通信接收来自各个节点发送过来的信号。zigbee协调者通过USB接口与ARM板开发板相连,它将从节点收到的信号通过USB接口传送给ARM开发板。在ARM开发板上移植嵌入式linux系统。这个系统具有功能强大,实时性高,价格低廉,易于移植,开源等优点使得它成为大多数嵌入式产品首选的操作系统。由于移植了linux系统,所以可以直接在系统上编写代码读取zigbee协调者传输过来的数据。基于linux系统上还可以进行图形化设计,实现简便的人机交互。我们的命令可以通过ARM传送给ziebee协调者,协调者通过zigbee协议传输给每个zigbee节点,实现对远程终端的实时和有效地控制。基于ARM的农作物生长环境监控系统在以后的物联网智能农业方向将有着广泛的应用。参考文献:1李道亮.物联网与智慧农业J.农业工程,2012(01):3-52管继刚.物联网技术在智能农业中的应用J.通信管理与技术,2010(03):3-53陈晓栋,原向阳,郭平毅,宁娜,郭美俊,兰艳亭.农业物联网研究进展与前景展望J.中国农业科技导报,2012(02):3-74初洪龙.基于物联网的智能农业大棚的研究与实现D.计算机应用技术.大连:大连理工大学,20145朱薪豪,侯艳艳,单承刚,桑得水.智能农业大棚系统的设计与实现J.电脑知识与技术.2015(11):1-36张霄.基于ARM11的嵌入式linux系统移植与实现D.软件工程.山东:山东大学20137邓华文.ARM嵌入式Linux系统研究与开发D.微电子学与固体电子学.四川:电子科技大学20118王琼.基于嵌入式Linux数据采集系统的软件设计与实现D.测试计量技术及仪器.四川:电子科技大学,20139张欢庆,高丽,宋承祥.基于ARM的嵌入式Linux交叉编译环境的研究与实现J.计算机与数字工程.2012(02):1-310李宗海,陈蜀宇,李海伟.嵌入式Linux系统在ARM平台上的构建J.计算机系统应用.2010(10):1-411张欢庆.基于ARM处理器的嵌入式Linux系统关键技术研究D.计算机软件与理论.山东:山东师范大学,201312赵玮娜.基于ARM的温室远程控制设计与研究D.检测技术与自动化装置.上海:东华大学,200913陶维成,姚学军.基于ARM Linux嵌入式系统开发环境的快速构建方法J.佳木斯大学学报(自然科学版).2015(01):1-314 陈何杰,郑灵翔.ARM Linux中断系统移植研究J.厦门大学学报.2010(03):1-415 潘宇,刘芳,刘传东.基于ARM的嵌入式数据终端设计J.白城师范学院学报.2013(03):2-316 李鹏飞, 汪小旵,李永博.无线嵌入式温室监测系统设计与实现J.南京农业大学工学院江苏省智能化农业装备重点实验室.2012(07):2-317苟军年.ARM Linux嵌入式软件开发平台的搭建J.兰州交通大学自动化与电气工程学院.2010(11):1-318 李莹,赵双华.基于ARM的室内温度控制系统的设计与实现J.郑州交通技师学院交通信息系.2010(09):2-3毕 业 设 计(论文) 开 题 报 告 2本课题要研究或解决的问题和拟采用的研究手段(途径): 首先着手了解农作物生长环境监控的现状,分析其必要性。其次,对农作物生长环境监控系统做需求分析,从各个层次确定其可行性和必要性。第三,根据需求分析和实地勘察,设计整个监控系统。最后,对整个系统实现检测和维护。 系统实现的方法(1)zigbee协议 ZigBee是一种新型的短距离, 低速率的无线传感器网络技术。它介于无线标记技术与蓝牙 的技术之间,能够运用自有无线电标准,通过无数微小的传感器之间的相互协调实现通信。 这些传感器只需要比较少的能量,就能高效地以接力的方式用无线电波将数据从一个传感 器传到另一个传感器,然后在终端用计算机完成对数据收集、整理、分析等处理。ZigBee是以IEEE802 .15. 4标准为基础发展起来的无线通信技术。它是IEEE确定的低速率无线个域 网(personalareanetwork)的一项协议标准。可以利用它完成无线传感器网络构建,完成数 据监测、传输功能 。(2)ARM处理器ARM 是AdvancedRISCMachines(高级精简指令系统处理器)的缩写,它既是一种微处理器知识产权(IP)核,也是一个公司的名称。以下将介绍ARM处理器。ARM处理器已经成功广泛地应用于无线通信、工业控制、消费类电子、网络产品等领域,并且保持持续增长的势 头。目前, 基于ARM技术的微处理器应用占据了32位RISC微处理器约75以上的市场份 额。采用RISC架构的ARM微处理器一般具有如下特点:体积小、低功耗、低成本、高性能; 支持Thumb(16位)/ARM(32位)双指令集,能很好的兼容8位/ 16位器件;大量使用寄 存器,指令执行速度更快;大多数数据操作都在寄存器中完成;寻址方式灵活简单,执行效 率高;指令长度固定。(3)嵌入式linux操作系统 由于嵌入式系统一般具有芯片集成度高,软件代码小,高度自动化,响应速度快等特点,特 别适合于要求实时性和多任务的体系。据调查,目前全世界的嵌入式操作系统已经有两百多 种。从20世纪80年代开始,出现了一些商用嵌入式操作系统,它们大部分都是为专有系统 而开发的。随着嵌入式领域的发展,各种各样嵌入式操作系统相继问世。有许多商业的嵌入 式操作系统,也有大量开放源码的嵌入式操作系统。其中著名的嵌入式操作系统有:C/ O S、VxWorks、Neculeus、Linux和Windows CE等。 在所有的操作系统中Linux是一个发展最快、应用最为广泛的操作系统。Linux本身的种种特 性使其成为嵌入式开发中的首选。随着嵌入式Linux的成熟,提供更小的尺寸和更多类型的 处理器支持,并从早期的试用阶段迈进到嵌入式的主流,它抓住了电子消费类设备的开发者 们的想象力。嵌入式Linux版本还有多种变体。例如RT Linux通过改造内核实现了实时的Linux;RTAI、Kurt和 Linux /RK也提供了实时能力;还有CLinux去掉了Linux的MMU(内存管理单元),能够支持没有MMU的处理器等。内容及目的 利用传感器检测周围环境,通过zigbee协议用单片机传送给ARM,ARM用于显示和发送控制命令,对外设进行控制,改变周围不良环境,利于农作物的生长。毕 业 设 计(论文) 开 题 报 告 指导教师意见:1对“文献综述”的评语:该生查阅基于ARM的农作物生长环境数据采集系统相关的文献,论述了课题相关的背景,技术发展和趋势。该课题是学生本科所学专业知识的综合,重在提高学生实践能力和综合解决问题的能力,有一定研究意义。2对本课题的深度、广度及工作量的意见和对设计(论文)结果的预测:课题深度适中,广度一般,工作量适合本科毕业生的要求,预期学生能够在规定时间内完成。 3.是否同意开题: 同意 不同意 指导教师: 2016 年 01 月 05 日所在专业审查意见:同意 负责人: 2016 年 04 月 22 日IOT Intelligent Monitoring Terminal Based on ARM+LinuxLi Lu and Qi RenAbstract Based on acknowledgment of the Internet of things, this paper builds the Linux system on the ARM9 platform with researches of industry application needs and the key technologies of the intelligent monitoring terminal. Moreover, combining with the corresponding drive and service, it integrates with the video signal and analog monitoring information and uses B/S architecture to implement the system, and put forward a complete design of the intelligent monitoring terminal and corresponding network system.Keywords The Internet of things Intelligent monitoring ARM+Linux B/SIntroductionWith the social economy development and the urban modernization acceleration, there increases the various potential safety hazard and improves the prevention complexity. Therefore, we need to develop the basic safety supervision, security monitoring, predetermination, precaution, management, rescue, and the research of technology security system. Determine the security monitoring through bringing the new technology. Moreover, the various systematic solutions will apply into the security monitoring that headed by the IOT technology. How to strengthen the system engineering level of safety production monitoring and improve the present monitoring efficiency will be the important assignment and development direction during the period of safety in production and monitoring.Embedded systems center is the application. The special computer system has district requirement in system function, cost, size, and power dissipation. Beside, it has the characteristics of small power dissipation, high performance, low cost, and strong instantaneity. Therefore, this system obtains the wild application in industry control, transportation, security, finance, communication, and other industries. This article researches the present security monitoring system and find out the existed high cost of building and maintenance, worse compatibility, and the problem of single function. Moreover, the article will combine various functional modules on the ARM platform, comprehensive use the embedded system, communication system to design the terminal of security monitoring in order to provide one set of application system design with strong function.Internet of Things IntroductionFollowing the definition of ITU, Internet of things is the network that goods associate with goods. The English name is The Internet of Things(IOT) . By using the sensor, video identification technology and the global positioning satellites, the Internet of things can real-time monitor any thing that need monitoring, communication, interactive objects, or process. Moreover, collect the specified information of sound, heat, light, electricity, chemistry, mechanics, organisms, and geographic position. At last, it can achieve the communication of objects between object, objects between human to finish the intelligent perception, identification, and management of object and process. Through the intelligent perception and identification technology, the Internet of things applies with the wild network and ubiquitous computing. It is the third information industry revolutionary period after computer technology and Internet. The Internet of things essence and core center is the business and applications as well as the application continuation in the objective material world. Therefore, the application innovation about the Internet of things is the assurance to keep the development. The application development of user center is the target and standard to develop the Internet of things. From the information technology, the Internet of things is the identifying objects with perception and intelligent processing ability. Based on the standard operated communication protocol, and under the support of broadbandmobile communication, next generation network and the cloud computing platform, the Internet of things can obtain and process the objects or the environmental information around. Moreover, it can judge the event development, provide management, and control decision in order to form the global information system of information acquisition, object management, and control. The Internet of things is combined with information object technology, automatic network technology, and the intelligent application technology.On the various parts of the Internet of things industry, different enterprises and organizations will explain its meaning from the own view. However, the industry has the unique understanding about the completed system. In basically, the Internet of things includes three layers: perception layer, transport layer, and the application layer. The perception layer is responsible for the total perception of the objects that need to be monitored and identify the identification or information collection. The transport layer takes charge of supporting the transport channel for the reliable data. It can transport the collected perception information to the application layer through the different wire or wireless communications. The application player means to do the intelligent processing when receiving the perception information and use or express the data after processing.Design of IOT Intelligent Monitoring Terminal1.System StructureBased on the system requirement evaluation, the terminal needs to collect the sitevideo information, temperature, and concentration sensor data. At the same time, itneeds to start the Web Service, and provide data service for the browser or Smartphone client through inserting the Internet. Clients can check the monitoringinformation while control the IO point output by browser (Fig. 34.1). Based on the function design of terminal system, there need to include processor module, camera, sensor signal collection, network processing module, IO control interface, display module, power module, and other basic function modules. Power moduleIO controlConcentrationdataSensor dataprocessDisplay moduleTempturaturedataMobile phone clientNetwork processVedio processVideo dataPCMonitor terminalFig.34.12. Hardware Model SelectionEmbedded system has the center of application and computer technology is the basement. Moreover, we can clip the hardware and software for applying into thespecial computer system that has strict requirement on function, reliability cost, size, and the power consumption.The technology of embedded system belongs to thearrangement of object control technology. ARM9 processor is the 32 positions processor with low power consumption. It is suitable for the low consumer of cost and power consumption that has been wildly applied into the filed of industry control, network equipment, and data communication. Connect the processor module with other modules can take charge of all the control and data processing. It includes single chip and other outside circuits such as ROM, RAM, and clock generator. Processor module needs the high operation frequency and processing speed that can load into the embedded Linux system. The processor uses S3C2440 clip from SAMSUNG Company. This clip uses 32 positions RISC command set, and provide the microcontroller solution with lost price, los power consumption and high function for the handheld device and common applications. This chip has the ARM core, uses the design of los power consumption, the dependent 16 KB command Cache and 16 KB data Cache. Moreover, it reduces the system cost and useless components that specially design for the low power consumption. S3C2440 has the high practical applicability. Processor, RAM, and ROM combine the data processing system module. Onboard ROM includes one clip 2 MB nor Flash of onboard BIOS and one clip ROM of 256 M Nand Flash System; two circumscribed 64 MB SDRAM clip, and include the 12 MHz clock generator circuit and other outside circuits. The S3C2440 needs the 1.2 V core power supply and 3.3 V outside power supply. Therefore, the module needs to bring two kinds of power supply interfaces. The sensor is the electronic element that transmits the physical quantity into the electrical parameter. The design uses one temperature sensor. There have been various temperature sensors and based on the measurement mode, they can divide into contact and noncontact. Based on the electrical element character it can divide into thermal resistance and thermocouple. The design uses temperature sensor to collect the present environment temperature and transmit the collect data through processor and communication module in order to support for client request and record.The common temperature sensor uses 010 mA or 420 mA standard circuitoutput. However, it needs the 24 V direct-current power supply. At the same time,it cannot satisfy the design requirement of low power consumption. Therefore, thisdesign uses stainless steel package DS18B20 digital temperature sensor. Thesensor has small size, wear resistance, long operating life, convenient usage, goodantiexplosion that can suite for the boiler, tunnel, generator room, refrigerator,air-condition, storage tank, and other measuring temperature places. At the sametime, the antiexplosion design can satisfy the requirement of antiexplosion filed.DS12B80 can use the single line port to achieve the double communication withthe microprocessor.PerkinElmer Company produces TPS2534 series of gas concentration sensor. Itis the infrared thermopile gas sensor of nonspectral two-channel. This sensor hassmall size, high precision, high applicability, and rapid response. It is designedaiming at the gas concentration detection that has been widely applied into thevarious detection of infrared gas concentrations.TPS2534 infrared thermopile gas sensor of nonspectral two-channel uses TO-5 package with whole sealing nickel metal case that filled with dry nitrogen.TPS2534 sensor has two infrared sensing windows with the sensitive response areaof 1.2 9 1.2 mm2 and 2.6 9 2.3 mm2. We can use it to calculate and refer to thechannel light intensity. Otherwise, the internal TPS2534 uses 30 Xk thermistor candetect the element outside temperature as the reference variable of the temperaturecompensation. TPS2534 has four important pins they are gas channel pin, referencechannel pin, temperature channel pin, and the ground connection pin.3. Software DesignThe software design is collecting relative data and start the network service at thesame time. The various normal functions depend on the software structure andfunction. This system is building base on the Linux operation system. It has themultitier function processing that need the communication. Except the arithmeticcode, there includes system core, various drive programs, algorithm programs, anddifferent service programs. The completed assignment process is shown in Fig. 34.2.As Fig. 34.2 shows, when the system power up, start the Linux operation system, we need to initialize the various outside equipments in the first place. Moreover, we load various corresponding drive programs (especially the drive of temperature and concentration sensor). Then, we load Web Service and MJPEG service to prepare for the information display and video streaming. After everything is ready, the system will begin to wait for the request information from WEB. When receiving the request, the system will send request to the module of video processing and sensor data processing. After receiving the real-time video data and original data of temperature and concentration, we can obtain the detailed value through analog digital conversion. At last, we send result to the terminal users through the Web service.Fig.34.1Fig 34.2SummaryThis article provides the design proposal of intelligent monitoring terminal that isbased on S3C2440 processor and Linux operation system, through inserting theinternet, use Web Service to integrate video and sensor information for providingusers to check. This design has the character of low cost and wide application.At the same time, it has the strong function, and the high systematic instantaneity.The ARM architecture chip is more suitable for the wild application of multimediaportable productions on the cost control. Therefore, we can use the low cost tobuild the security-monitoring network that has strong functions.基于ARM和linux的物联网智能监控终端摘要 基于对物联网的认知,这篇文章在ARM9平台上建立的linux系统用于对工业应用的需要以及智能监控终端的研究。而且,结合相关的驱动和服务,系统还结合了视频信号和模拟监控信息以及用了B/S架构来提升整个系统。并且,本文提出了一个完整的智能监控终端和相关的网络系统的设计。关键词 物联网 智能监控 ARM和Linux B/S介绍随着社会经济的发展和城市现代化建设的加速,也增加了各种潜在的安全隐患,提高了防范的复杂性。因此,我们需要发展基本的安全监管,安全监控,预先确定,防范,管理,救援和技术保障体系的研究。确定安全监控系统通过引进新技术。此外,不同的系统解决方案将应用到以该为首的物联网技术的安全监控。在产品的安全生产和监控期间,如何加强对安全生产监控系统的技术水平和完善现行的监管效率将会是重要任务和发展方向。嵌入式系统的核心是应用。这个特定的的计算机系统在系统的功能,成本,尺寸和功耗区的有直接的要求。除此之外,它具有低功耗,高性能,低成本,实时性强的特点。所以,这个系统在工业控制,交通,安全,财政金融和其他行业得到了广泛的应用。本文研究了目前的安全监控系统,并解决了存在的高成本的建设和维护,更糟糕的兼容性,功能单一的问题。而且,文章将结合在ARM平台上的各功能模块,综合运用嵌入式系统,通信系统设计的安防监控终端,以提供一套具有强大功能的应用系统的设计。物联网介绍随着国际电信联盟的定义,物联网是物物相连的网络,它的英文名是“Internet of Things”(IOT)。通过使用传感器,视频识别技术和全球定位卫星,物联网可以实时监控需要监控,沟通,互动的物体或过程中的任何东西。除此此外,集声、热、光、电、化学、力学、生物和地理的位置的指定的信息。最后,它可以实现对象之间,人和对象的通信以完成对象和过程的智能感知,识别以及管理。通过智能感知与识别技术,物联网应用于广泛的的网络和无所不在的计算。它是在计算机技术和互联网之后的第三次信息产业的革命。物联网的本质和核心是的业务和应用,以及在客观物质世界应用的延续。因此,关于物联网的应用创新是保持发展的保障。以用户中心的应用和开发是发展物联网的标准和目标。从信息技术的角度,物联网是用感知和智能处理能力的来识别对象。基于标准操作的通信协议,并且根据移动宽带通信,在下一代网络和云计算平台的支持下,物联网可以获得并处理周围的物体或环境的信息。此外,它能够判断该事件的发展,提供管理和控制的决定,以便于形成信息的获取,对象管理,和控制的全球信息系统。物联网结合了信息对象技术,自动网络技术和智能应用技术。在物联网产业的各个部分,不同的企业和组织将从自己的观点解释物联网的意义。不过,业内人士对于这个完整的系统有自己独到的理解。基本上,物联网包含三个层次:感知层,传输层和应用层。感知层负责需要那些需要被监测和识别
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