The Application of Iot Technology in Agriculture.
邵清源917106840533 1 Introduction
The Internet of things is the network of physical devices, vehicles, home appliances and other itemsembedded with electronics, software, sensors, actuators, and connectivity which enables these objects to connect and exchange data. Each thing is uniquely identifiable through its embedded computing system but is able to inter-operate within the existing Internet infrastructure.(from Wikipedia)
The application of iot technology in agriculture is the definition of the agricultural Internet of things, which is quite simple to understand. This involves a wide range of aspects of agriculture, including monitoring of agricultural greenhouses, agricultural drip irrigation, freshwater aquaculture water quality monitoring and other aspects. Using a large number of sensors to form an effective monitoring network,which agricultural information feedback is realized through, is necessary. In order to facilitate the timely detection of problems in agricultural production, timely feedback the position of the problem, the agriculture and modern production technology should be combined with, and the application of intelligent and automatic equipment in agricultural production should be realized.the emergence of the
agriculture has played an important role in improving agricultural productivity. With the popularity of the Internet of things of agriculture, the traditional inefficient and casual way of agricultural production are also gradually improve, information technology and agricultural development is the inevitable trend of modernization.
2 Literature Review
The Internet of things technology has great application prospect in agriculture, and it is believed that in the near future, Internet of things technology will be the core technology to assist the development of agricultural technology in China.(Intelligent agricultural design analysis of Internet of things technology,2018/3/21,Sun Hujun). Internet technology can be precisely controlled relative crop growth environment, guarantee the plants grew well, avoid necrosis, especially for growing environment requires higher flowers, can obviously improve the survival rate and quality; It can reduce labor cost and realize scale planting. It can also realize the monitoring and prevention of cordyceps sinensis, the disaster warning, etc. (The application of Internet of things technology in intelligent greenhouse,2015/8/3,Wang Lina).The Internet of things is the third wave after the development of computer and Internet technology. The development of Internet technology to the development of agricultural economy in our country laid a certain foundation, in the application of modern agriculture become more and more widely, can achieve scientific monitoring, planting, to further promote the transformation of modern agricultural development.(The application of Internet of things technology in agriculture,2018/1/16,Dai Lian, Lai yuling).
3 History
Concept of a network of smart devices was discussed as early as 1982, a modified Coke machine at Carnegie Mellon University became the first Internet-connected appliance. Between 1993 and 1996 several companies proposed solutions like
Microsoft's at Work or Novell's NEST. However, only in 1999 did the field start gathering momentum. Bill Joy envisioned Device to Device (D2D) communication as part of his "Six Webs" framework, presented at the World Economic Forum at Davos in 1999.The thought-model for future interconnection environment was proposed in 2004.This thought model envisioned the development trend of the Internet of things.
4 Potentiality
4.1 Full information chain tracking
In recent years, there have been many problems about China's food safety, and people are paying more and more attention to the dangers of food safety. Investigate its reason, the food safety problem is due to the process of agricultural products from production to sales rather than the quality of supervision and management, consumers also did not understand the process, which directly lead to food appear a series of problems. Internet of things technology in the food regulation can play a role in supervision. From food production and processing to transportation and sales, each one links in the real-time tracking and monitoring, to ensure the safety of the agricultural product quality effectively. At present, some places in our country has been applied to the Internet of things technology, such as: chengdu, Qingdao and other regions where restaurant s’ food production and processing and saling, which all are installed electronic chips, to monitor restaurant food safety problems from the production, processing, transportation and sales. Iot technology mainly equip the electronic track scale installation to the farmer's market, then consumers can in a farmers' market buy food at the same time through the phone they can query to the food production, processing, transportation and sales and other related quality information. Such as: to implement “ the Internet of things technology”, “the safety of the food” “RFID” and “GPS”technology which set up during the Olympic Games in Beijing,for the Olympic stadium in catering staff has carried on the tracking and monitoring of food, from the production, processing to sales of each link to tracking and monitoring information. In addition, for the supply of enterprise products supply logistics implementation of GPS real-time positioning in the process of monitoring, including the vehicles, such as temperature, humidity monitoring, once the temperature humidity in excess of the prescribed scope, the administrator will receive monitoring alarm message. In short, the wide application of Internet of things technology has provided a guarantee for the safety of food supply in the agricultural industry.
4.2 Intelligent planting and farming
Generally, the influence factors of planting and breeding are carbon dioxide concentration, air temperature, soil moisture and light. In greenhouse cultivation, breeding, therefore, the use of the Internet of things technology, through real-time monitoring of temperature, humidity, light intensity, PH value and air pressure data, and automatic control fertilization homework, so as to provide a good environment for the growth of crops, also greatly reduce the workload of migrant workers. In addition, the Internet of things not only can monitor the above data, also can analyze the data and processing, and through the sensor nodes send data to a wireless sensor, which can be a large area of data collection, management, analysis and information
processing technology, etc. For example, in aquaculture, the quality of the farmers' work is not high if the weather is hot and humid, but the weather affects the growth of the products most. The hot and humid weather will lead to the lack of oxygen in the pond and changes in PH value, and ammonia nitrogen content will also change. And through the use of the Internet of things technology, can 24 hours real-time monitoring of aquaculture water quality situation, including ammonia nitrogen, water PH, temperature and other data, once found that the problem can be through the warning form inform farmers. In addition, farmers can check the temperature, water quality and oxygen content of the pond at any time through Internet and mobile phone terminals, effectively reducing the workload of the farmers. Therefore, the use of Internet of things technology can greatly improve the yield and quality of agricultural products, thus maximizing economic benefits.
4.3 Agricultural information push
Many people think that the push of agricultural information mainly refers to the push of weather forecast. But the development of crops now has more to do with weather. Therefore, through the use of the Internet of things technology, the data analysis and processing, and to predict future data changes over a period of time, the farmers can be predicted by these forecast accordingly in advance to prepare, etc., this can be for the growth of crops to reduce unnecessary loss. The amur region, for example, has realized the formula of soil, fertilization data monitoring and analysis, the prediction data and the result was sent to the farmers, provide favorable basis for providing sowing.
5 examples about application of IoT in agriculture
5.1Application of agricultural iot technology to grape planting.
5.1.1The application of agricultural iot technology in improving grape planting environment.
In the grape growing area, set up multiple information collector of the Internet, and information collector of grape growth environmental conditions to collect information including grape growing area of temperature, humidity, light conditions, co2 concentration, soil moisture, soil nutrient and so on. Using the Internet to link the information to collect, transmit the information to the terminal through the network management platform. Information collected by computer management center of culture analysis, draw the conclusion: the growth of grape growing environment, and then according to the analysis results will need to deal with matters in the form of the command control cabinet, grapes, irrigation, fertilization, spraying, etc. The Internet of things technology can real-time acquisition, storage, the location of the various soil and environmental parameters, including soil temperature, moisture, air humidity, light. These data directly enter the computer control room, farmers can know the result in time. If the data shows that the humidity is not enough, then the mouse will send commands and automatically start the pump to spray the grapes according to the preset procedure. In addition, mobile video monitoring is installed in the garden, and farmers can see the inside of the plantation at any time if they use a computer or mobile phone at home.
5.1.2Application of agricultural Internet of things technology to achieve intelligent
grape irrigation.
Apply the agricultural Internet of things technology, introduce the automatic frequency conversion irrigation system, through the Internet of things control box and expert information system, according to the collected information to irrigate the grape precisely. Automatic frequency conversion irrigation system using the frequency conversion technology, can realize the pump automatic start and stop, and it do not need to run for a long time, which can reduce the load of pump. As long as the related parameters set, it can ensure that the pipe water pressure and flow rate to maintain in a reasonable scope, to avoid the damage to pipeline. Reducing the pipeline jam phenomenon happened . Internet of things can get the moisture of the soil through a variety of sensors, when they tested that the soil moisture is less, which will affect the growth of grapes, the sensor will transfer the information to the management center, management center after receiving the information, send instructions will be needed for irrigation area of solenoid valve is opened, automatic watering grapes need irrigation of grapes. After the irrigation to a certain extent, whether to continue the irrigation information system will be judged by experts, information system can be experts knowledge and experience of related plant transformation as the control parameter, sending them to give the control center, provide a reliable basis for judging the current situation.
5.2The application of Internet of things technology in soilless culture.
5.2.1The perception of environmental conditions of soil without soil.
Iot perception layer by all sorts of information and data acquisition and sensor devices, including information collection layer by temperature and humidity sensor, pH sensors, nutrition concentration sensors, cameras and infrared sensors to sense, collect soilless cultivation equipment of environment temperature, humidity, pH, and nutrient concentrations, and the collected data, video, or physical quantities into the physical world of information. Self-organizing sensor network adopting digital link coding, modulation and demodulation technology to realize data transmission between the sensor and the sensor node of the wlan, based on the network, traffic management and routing technology, realize the self organization and coordination between each node. Through the various kinds of sensors installed, the changes of relevant indicators in the soil cultivation facilities are perceived and collected, and the information transmission is carried out through 3G, 4G network technology, wireless network and bluetooth.
5.2.2The processing of environmental information of soil without soil.
The related index information collected by the sensing layer is transmitted to the network layer through the self-organizing sensor network. Network layer is passed perception send or receive data, through access to physical quantities carry electronic information, identification and information format conversion, and then by the network interface layer perception layer collected information into the application layer,to realize the whole iot structure of three levels of connection.
5.2.3The regulation of soil culture environment
According to the requirement of the soilless cultivation facilities plants to environmental conditions, set the cultivation in advance environmental indicators,
such as temperature, humidity in soilless cultivation facilities, pH, concentration of carbon dioxide, nutrient concentrations, illumination, and cultivation of outdoor climatic conditions and related indicators to monitor, record. Through a variety of sensors and perception layer information acquisition terminal access parameters in time, and then through the network layer transfer and processing, output to the corresponding operation interface, then realize that implementation of soilless cultivation environment related indicators of the real-time monitoring and regulation. In addition, the user according to the requirement of environmental indicators in different periods, set the corresponding warning threshold, network system can be according to the different need of related parameters of plants to the intelligent adjustment
5.3The application of iot technology to the quality and safety traceability system of fertilizer.
5.3.1The importance of quality and safety of fertilizer production.
Short for fertilizer, chemical fertilizer, is made by chemical methods to provide one or more needed to make crops grow in the nutrient fertilizer, nitrogen fertilizer, phosphate fertilizer, potash fertilizer and compound fertilizer, hefei, China is a populous country, and agriculture is very important. Food production in our country agricultural development occupies a pivotal position. Our country's arable land accounts for only 7% of the world's, but China's population22%, therefore, increasing production per unit area of cultivated land is the only way for China's grain production. fertilizer is to improve the soil properties, increase soil fertility, and is the important measures to increase food production. Fertilizer inputs, which is the basis for the most, is closely related to people's healthy diet also, its production quality and safety is very important.
5.3.2Chemical fertilizer quality safety traceability system architecture.
In chemical fertilizer quality safety traceability system, the hardware layer includes sensors, RFID tag module (to EPC coding of RFID tags, unified distribution and management), read and write, antenna, printer (printing RFID tags and traceability code). Chemical fertilizer quality safety traceability system mainly used in the product information collection and transfer the information to the service layer. Service layer is responsible for data processing and transmission, including rf data with the query, proofreading, storage and management. The data layer is used to store data, including details of products and business. Application layer includes production, storage, transportation, sales and so on each link of the process management, main body involved in the activities of all aspects of the formation of the relevant information, the application layer also provides all kinds of query, regulation and other service functions.
5.3.3The realization of quality and safety traceability system of chemical fertilizer.
In fertilizer production processing store sales in the link, the operation of the information acquisition process is: when the factory finished fertilizer production work, after inspectors inspection by rf label management functions for all processing fertilizer was distributed with EPC RFID tag encoding information. After Rf reader to the EPC tag information, by the operator for detailed information on school work.
When the fertilizer has completed the sales process, the purchaser can check the relevant information of each link in the company's fertilizer quality and safety traceability system through the tracing code on the packaging bag.If the product quality problem is found, the purchaser may report or complain to the relevant quality control department. In this way, the product quality information traceability is realized, and the anti-counterfeiting authentication of chemical fertilizer products and the certification of enterprises' anti-cross products are realized. Traceability links can also record problem product traceability code,when and who buy, contact phone number, thus it is advantageous to the enterprise and the government supervision department in accordance with the relevant information query, to implement supervision and control of products. The fertilizer quality safety traceability system also has a separate management module for data backup and recovery functions to ensure the security of all data in the traceability system.
6 The limitations of using the Internet of things in agriculture
6.1 higher cost
Although in recent years there has been a massive decline in the cost of the sensor, but the cost is still high. The humidity sensor, soil moisture sensor price is more expensive. The total greenhouse environment parameter sensor price at around $ten thousand. The needs of large investment funds for migrant workers, lead to the application of the Internet of things technology can't realize. It still need to reduce the investment cost.
6.2 technical problems
Sensor will be measured due to improper installation location, bad stability of inaccurate data. There are some wireless sensor signal transmission distance is limited, and data transmission is not stabl .The maintenance cost is high as well. In addition, using the sensor power supply problem no good solution. if use solar power, power is not enough. If use alternating current (ac) is the most greenhouse without electricity and laying electric power line, which limit the popularization of the internet of thing technology in agriculture.
7 conclusion
The Internet of things technology belongs to a kind of new technology, belong to the core of intelligent technology, the typical use of new network technology, however, judging from the actual situation of our country at present stage, the Internet of things technology has not yet formed technology system of the system.Results show that the Internet of things technology has great application prospects in the agriculture, believe in the near future, the Internet of things technology can be a secondary agricultural technology level of the development of the core technology in our country.
电影专业术语中英文对 照 集团文件版本号:(M928-T898-M248-WU2669-I2896-DQ586-M1988)
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常用英语语法术语表 语法grammar 句法syntax 词法morphology 结构structure 层次rank 句子sentence 从句clause 词组phrase 词类part of speech 单词word 实词notional word 虚词structrural word 名词noun 专有名词proper noun 普通名词common noun 可数名词countable noun 不可数名词uncountable noun 抽象名词abstract noun 具体名词concret moun 物质名词material noun 集体名词collective noun 个体名词individual noun 介词preposition 连词conjunction 动词verb 主动词main verb 及物动词transitive verb 不及物动词intransitive verb 系动词link verb 助动词auxiliary verb 情态动词modal verb 规则动词regular verb 不规则动词irregular verb 短语动词phrasal verb 限定动词finite verb 非限定动词infinite verb 使役动词causative verb 感官动词verb of senses 动态动词event verb 静态动词state verb 感叹词exclamation 形容词adjective 副词adverb 方式副词adverb of manner 程度副词adverb of degree 时间副词adverb of time 地点副词adverb of place 修饰性副词adjunct 连接性副词conjunct 疑问副词interogative adverb 关系副词relative adverb 代词pronoun 人称代词personal pronoun 物主代词possesive pronoun 反身代词reflexive pronoun 相互代词reciprocal pronoun 指示代词demonstrative pronoun 疑问代词interrogative pronoun 关系代词relative pronoun 不定代词indefinite pronoun 物主代词possecive pronoun 名词性物主代词nominal possesive prnoun 形容词性物主代词adjectival possesive pronoun 冠词article 定冠词definite article 不定冠词indefinite article 数词numeral 基数词cardinal numeral 序数词ordinal numeral 分数词fractional numeral 形式form 单数形式singular form 复数形式plural form 限定动词finite verb form 非限定动词non-finite verb form 原形base form 从句clause 从属句subordinate clause 并列句coordinate clause 名词从句nominal clause 定语从句attributive clause
物联网专业英语复习第一部分 单词或词组英译中(10空,共10分)汉语中译英(10空,共10分) 第一单元单词 actuator 执行器 Cyber-Physical System (CPS)信息物理融合系统Cyberspace 网络空间 device processing power 设备处理能力fibre-based network 基于光纤的网络Global Positioning System (GPS) 全球定位系统Internet of Things (IoT) 物联网 Machine to Machine (M2M) 机器对机器nano-technology 纳米技术 quick response (QR)-code reader QR 码阅读器radio frequency identification (RFID)无线射频识别技术 RFID scannerRFID扫描仪 Sensor 传感器 shrinking thing 微小的物体storage capacity 存储空间tag 标签 middleware中间件中间设备paradigm 范例、概念ubiquitous 普遍存在的gateway device 网关设备logistics 物流 in the scenario of … 在…背景下from the point view of … 从…角度convergence 收敛、集合pervasive 普遍存在的domotics 家庭自动化 e-health 电子医疗 in the context 在…方面 with reference to 关于,根据 第二单元单词 3rd-Generation (3G)第三代移动通信技术bluetooth蓝牙 cloud computing云计算 database数据库 embedded software嵌入式软件 enterprise local area network企业局域网EPC Global一个组织(产品电子代码) Fibre to the x (FTTx)光纤入户= Identity authentication身份认证 implant microchip植入芯片 infrared sensor红外传感器 infrared technology红外技术 intelligent processing智能处理 IPv6一种互联网协议 Japanese Ubiquitous ID日本泛在标识Location Based Service (LBS)基于位置的服务logistics management物流管理 serviced-oriented面向服务的Telecommunications Management Network (TMN)电信管理网络 application layer应用层 business layer商业服务层 perception layer感知层 processing layer处理层transport layer传输层 ubiquitous computing普适计算 Wireless Fidelity (WiFi)一种无线局域网络技术ZigBee一种低功耗个域网协议deployment调度、部署 intervention介入 unprecedented空前的 refinement精炼、提炼 concrete具体的 attribute特征、属性 conform to符合、遵照 e-commerce电子商务 assign分配、指定、赋值 diverse多种多样的 connotation内涵 enterprise企业、事业、进取心appropriateness适当、合适 immense巨大的、无穷的 magnitude大小、量级 representative典型的、代表 module模块 literacy读写能力、文化素养 ultra mobile broadband (UMB)超移动宽带mass大规模的,集中的 第三单元 chip芯片integrated综合的、集成的
语文课程与教学论 名词术语中英文对照表 the Chinese Course and Teaching and Learning Theory in Chinese and English Teaching materials editing teaching materials /Chinese Teaching Materials /edit teaching materials /Uniformed Chinese Teaching Materials /Experimental Teaching Materials /Mother Tongue Teaching Materials /Teaching Materials of the New Course *textbook *reading book *teaching reference book *exercises book *studying plan Technology /Educational Technology /Modern Educational Technology /Educational Technology in Chinese Teaching /multi-media technology /net technology /cloud serving technology *white board *net meeting *chat room *blog Teaching Basic Theory of the Teaching teaching aim teaching task teaching objective teaching model teaching tactics teaching principle teaching program teaching reform teaching case Courseware teaching resources teaching experiment /mother tongue teaching A Term List of 1. 教材( JC ) 教材编写 /语文教材 /编写教材 / 统编教材 /实验教材 /母语教材 /新课程教材 * 课本 * 读本 * 教学参考书(教参) * 练习册 *学案 2. 技术( JS ) / 教育技术 /现代 教育技术 /语文 教育技术 /多媒 体技术 / 网络 技术 /云服务技 术 * 白板 *网 络会议 *聊天室 * 博克 3. 教学 (JX ) 教学基本理论 教学目的 教学 任务 教学目标 教学模式 教学 策略 教学原则 教学大纲 教学 改革 教学案例 教学课件 教学 资源 教学实验 /母语教学
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电气的专业术语英文(一) 11. interfere with 有害于。。。 12. indicating needle仪表指针 13. hazardous 危险的 14. pivot 支点 15. terminal 端子 16. spiral 螺旋形的 17. spring 弹簧 18. shunt 分流,分路,并联,旁路 19. rectifier 整流器 20. electrodynamometer 电测力计 21. strive for 争取 22. vane 机器的叶,叶片 23. strip 条,带,(跨接)片 24. crude 不精细的,粗略的 25. polarity 极性 26. fuse 保险丝,熔丝 27. rugged 坚固的 28. depict 描绘,描写 29. cartridge 盒式保险丝 30. blow (保险丝)烧断
31. plug fuse 插头式保险丝 32. malfunction 故障 33. deenergize 不给… 通电 34. insulation 绝缘 35. generator 发电机 36. magneto 磁发电机 37. humidity 湿度 38. moisture 潮湿湿气 39. abbreviate 缩写,缩写为 40. transformer 变压器 41. thumb 检查,查阅 42. milliammeter 毫安表 43. multimeter 万用表 44. dynamometer 测力计,功率计 45. aluminum 铝 46. deteriorate 使….恶化 47. eddy current 涡流 48. gear 齿轮,传动装置 49. dial 刻度盘 50. semiconductor 半导体 51. squirrel 鼠笼式
LED照明专业术语中英文对照 1 backplane 背板 2 Band gap voltage reference 带隙电压参考 3 benchtop supply 工作台电源 4 Block Diagram 方块图 5 Bode Plot 波特图 6 Bootstrap 自举 7 Bottom FET Bottom FET 8 bucket capcitor 桶形电容 9 chassis 机架 10 Combi-sense Combi-sense 11 constant current source 恒流源 12 Core Sataration 铁芯饱和 13 crossover frequency 交叉频率 14 current ripple 纹波电流 15 Cycle by Cycle 逐周期 16 cycle skipping 周期跳步 17 Dead Time 死区时间 18 DIE Temperature 核心温度 19 Disable 非使能,无效,禁用,关断 20 dominant pole 主极点 21 Enable 使能,有效,启用 22 ESD Rating ESD额定值 23 Evaluation Board 评估板 24 Exceeding the specifications below may result in perman ent damage to the device, or device malfunction. Operation outside of the parameters specified in the Electrical Characte ristics section is not implied. 超过下面的规格使用可能引起永久的设备损害或设备故障。建议不要工作在电特性表规定的参数范围以外。 25 Failling edge 下降沿 26 figure of merit 品质因数 27 float charge voltage 浮充电压 28 flyback power stage 反驰式功率级 29 forward voltage drop 前向压降 30 free-running 自由运行 31 Freewheel diode 续流二极管 32 Full load 满负载33 gate drive 栅极驱动 34 gate drive stage 栅极驱动级 35 gerber plot Gerber 图 36 ground plane 接地层 37 Henry 电感单位:亨利 38 Human Body Model 人体模式 39 Hysteresis 滞回 40 inrush current 涌入电流 41 Inverting 反相 42 jittery 抖动 43 Junction 结点 44 Kelvin connection 开尔文连接 45 Lead Frame 引脚框架46 Lead Free 无铅 47 level-shift 电平移动 48 Line regulation 电源调整率 49 load regulation 负载调整率 50 Lot Number 批号 51 Low Dropout 低压差 52 Miller 密勒53 node 节点 54 Non-Inverting 非反相 55 novel 新颖的 56 off state 关断状态 57 Operating supply voltage 电源工作电压 58 out drive stage 输出驱动级 59 Out of Phase 异相 60 Part Number 产品型号 61 pass transistor pass transistor 62 P-channel MOSFET P沟道MOSFET 63 Phase margin 相位裕度 64 Phase Node 开关节点 65 portable electronics 便携式电子设备 66 power down 掉电 67 Power Good 电源正常 68 Power Groud 功率地 69 Power Save Mode 节电模式 70 Power up 上电 71 pull down 下拉 72 pull up 上拉 73 Pulse by Pulse 逐脉冲(Pulse by Pulse) 74 push pull converter 推挽转换器 75 ramp down 斜降 76 ramp up 斜升 77 redundant diode 冗余二极管 78 resistive divider 电阻分压器 79 ringing 振铃 80 ripple current 纹波电流 81 rising edge 上升沿 82 sense resistor 检测电阻 83 Sequenced Power Supplys 序列电源 84 shoot-through 直通,同时导通 85 stray inductances. 杂散电感 86 sub-circuit 子电路 87 substrate 基板 88 Telecom 电信 89 Thermal Information 热性能信息 90 thermal slug 散热片 91 Threshold 阈值 92 timing resistor 振荡电阻 93 Top FET Top FET 94 Trace 线路,走线,引线
组装、冲压、喷漆等专业词汇 Assembly line组装线 Layout布置图 OOBA开箱检查 fit together组装在一起 fasten锁紧(螺丝) fixture 夹具(治具) pallet栈板 barcode条码 barcode scanner条码扫描器 fuse together熔合 repair修理 operator作业员 QC quality品管 supervisor 课长 section supervisor课长 deputy section supervisor =vice section superisor副课长 ME制造工程师 MT制造生技 cosmetic inspect外观检查 inner parts inspect内部检查 thumb screw大头螺丝 lbs. inch镑、英寸 front plate前板 rear plate后板 chassis基座 bezel panel面板 power button电源按键 reset button重置键Hi-pot test of SPS高源高压测试 V oltage switch of SPS 电源电压接拉键 sheet metal parts 冲件 plastic parts塑胶件 SOP制造作业程序 material check list物料检查表 trolley台车 carton纸箱 sub-line支线 left fork叉车 personnel resource department 人力资源部 production department生产部门 planning department企划部 QC Section品管科 stamping factory冲压厂 painting factory烤漆厂 molding factory成型厂 punching machine 冲床 robot机械手 lathe车床 planer |'plein|刨床 miller铣床 grinder磨床 driller??床 linear cutting线切割 electrical sparkle电火花 welder电焊机 staker=reviting machine铆合机 position职务 president董事长 general manager总经理 special assistant manager特助 factory director厂长 department director部长 deputy manager | =vice manager副理 group leader/supervisor组长 line supervisor线长 thickness gauge厚薄规 gauge(or jig)治具 power wire电源线 buzzle蜂鸣器 defective product label不良标签 identifying sheet list标示单 iudustrial alcohol工业酒精 Tiana天那水 packaging打包 missing part漏件 wrong part错件 excessive defects过多的缺陷 critical defect极严重缺陷 major defect主要缺陷 minor defect次要缺陷 not up to standard不合规格 dimension/size is a little bigger尺寸偏 大(小) cosmetic defect外观不良 slipped screwhead/slippery screw head 螺丝滑头 speckle斑点 rust生锈 deformation变形 burr(金属)flash(塑件)毛边 poor staking铆合不良 excesssive gap间隙过大 grease/oil stains油污 inclusion杂质 painting peel off脏污 shrinking/shrinkage缩水 mixed color杂色 scratch划伤 poor processing 制程不良 poor incoming part事件不良 painting make-up补漆 discoloration羿色 water spots水渍 polishing/surface processing表面处理 exposed metal/bare metal金属裸露 lack of painting烤漆不到位 safety安全 quality品质 delivery deadline交货期 cost成本 engineering工程 die repair模修 enterprise plan = enterprise expansion projects企划 qualified products, up-to-grade products良品 defective products, not up-to-grade products不良品 to return material/stock to退料 scraped |'skræpid|报废 (be)qualfied, up to grade合格 not up to grade, not qualified不合格
光通量luminous flux 光通量是指光源在单位时间里向周围空间辐射的,能引起视觉反应能量,即可见光的能量。它描述的是光源的有效辐射值,单位是1m(流明)。 同样功率的灯具的光通量可能完全不同,这是因为它们的光效不同的缘故。比如:普通照明灯泡只有10 1m/瓦,而金属卤素灯可以达到80 1m/瓦。 照度illuminance 照度是指在一个面上的光通密度,它是射入单位面积内的光通量,单位是Lx。 照度的定义和测量比较复杂,象平均柱面照度、等效球照度、标量照度等,它们的测量条件和计算方法有所不同。在建筑和装饰工程中经常会遇到、灯光系统中偶尔也涉及到照度概念。 发光强度luminous intensity 发光强度简称光强,国际单位是candela(坎德拉)简写cd。Lcd是指光源在指定方向的单位立体角内发出的光通量。 照明方式和种类例如: 1. 一般照明general lighting 2. 局部照明local lighting等 详细分类见《建筑照明术语标准》 电光源及其附件 例如: 1. 白炽灯incandescent lamp 2. 卤钨灯tungsten halogen lamp等 详细分类见《建筑照明术语标准》 灯具及其附件 例如: 1. 直接型灯具direct luminaire 2. 漫射型灯具diffused luminaire等 详细分类见《建筑照明术语标准》 采光技术例如: 1. 阳光;直射日光sunlight 2. 天空(漫射)光skylight等 详细分类见《建筑照明术语标准》 材料的光学特性和照明测量 例如: 1. 反射reflection 2. 透射transmisson 3. 漫射diffusion等 详细分类见《建筑照明术语标准》
The term “enzyme” was coined by Wilhelm Kuhne.创造 crystallized 结晶centrifugal supernatant 离心上清液 were used to imitate enzymes mesoporous介孔材料,多孔 DMF-2甲基甲酰胺 Polymer with enzyme-like activity 聚合物 noble-metal nanoclusters 贵金属纳米团簇 In the presence of dopamine在多巴胺的存在下 Molecularly imprinted polymers were invented by 分子印迹聚合物 Nano ceria as superoxide dismutase mimic. 纳米二氧化铈作为超氧化物歧化酶模拟。 peroxidase mimic. 过氧化物模拟酶catalase,过氧化氢酶 Nano ceria as catalase and oxidase mimic纳米二氧化铈过氧化氢酶和氧化酶模拟
metal sulfide 硫化物 cobalt porphyri n钴 manganese锰facile温和的 chemicals and reagent s化学药品和试剂syring注射器 thioacetamide 硫代乙酰胺 stretching vibration 伸缩振动峰 carbonyl group羰基 aromatic acid 芳香酸 calibration curve 校准线 have been extensively explored to mimic the structures and functions of natural enzymes through various approaches.and several monographs andnumerous excellent reviews have been published have been found to exhibit unexpected enzyme-like Although the progress and achievements of classic artificial enzymes have been thoroughly reviewed in the literature, no comprehensive review has been devoted to nanozymes we discuss the current challenges facing nanozyme technologies and future directions to realize their great potential. 新方法 Hybrid materials(杂化材料) formed by incorporating inorganicmaterials into a polymeric matrix have even more promisingadvantages, such as novel
The Application of Iot Technology in Agriculture. 邵清源917106840533 1 Introduction The Internet of things is the network of physical devices, vehicles, home appliances and other itemsembedded with electronics, software, sensors, actuators, and connectivity which enables these objects to connect and exchange data. Each thing is uniquely identifiable through its embedded computing system but is able to inter-operate within the existing Internet infrastructure.(from Wikipedia) The application of iot technology in agriculture is the definition of the agricultural Internet of things, which is quite simple to understand. This involves a wide range of aspects of agriculture, including monitoring of agricultural greenhouses, agricultural drip irrigation, freshwater aquaculture water quality monitoring and other aspects. Using a large number of sensors to form an effective monitoring network,which agricultural information feedback is realized through, is necessary. In order to facilitate the timely detection of problems in agricultural production, timely feedback the position of the problem, the agriculture and modern production technology should be combined with, and the application of intelligent and automatic equipment in agricultural production should be realized.the emergence of the agriculture has played an important role in improving agricultural productivity. With the popularity of the Internet of things of agriculture, the traditional inefficient and casual way of agricultural production are also gradually improve, information technology and agricultural development is the inevitable trend of modernization. 2 Literature Review The Internet of things technology has great application prospect in agriculture, and it is believed that in the near future, Internet of things technology will be the core technology to assist the development of agricultural technology in China.(Intelligent agricultural design analysis of Internet of things technology,2018/3/21,Sun Hujun). Internet technology can be precisely controlled relative crop growth environment, guarantee the plants grew well, avoid necrosis, especially for growing environment requires higher flowers, can obviously improve the survival rate and quality; It can reduce labor cost and realize scale planting. It can also realize the monitoring and prevention of cordyceps sinensis, the disaster warning, etc. (The application of Internet of things technology in intelligent greenhouse,2015/8/3,Wang Lina).The Internet of things is the third wave after the development of computer and Internet technology. The development of Internet technology to the development of agricultural economy in our country laid a certain foundation, in the application of modern agriculture become more and more widely, can achieve scientific monitoring, planting, to further promote the transformation of modern agricultural development.(The application of Internet of things technology in agriculture,2018/1/16,Dai Lian, Lai yuling). 3 History Concept of a network of smart devices was discussed as early as 1982, a modified Coke machine at Carnegie Mellon University became the first Internet-connected appliance. Between 1993 and 1996 several companies proposed solutions like
英文專有名詞介紹 1. General (一般專有名詞) 2. Clean Room (潔淨室專有名詞)
3. Factory Automation (工廠自動化專有名詞)
*註.OPI(Operation POSEIDON Instruction)海神生產作業系統專有名詞介紹
6.Cell段製程專有名詞介紹
7. 日常使用的英文名詞
通用术语 Array Line进行Thin Film, Photo, Etch工艺的生产Line是Array Line,主要制造Glass上面TFT (Thin Film Transistor) 结构。 Cell Line进行PI Coating, Rubbing, Filling, Seal/TR印刷工艺等生产Line是Cell Line,主要生产TFT-LCD Cell状态产品的过程。 Module Line是用TCP (Tape Carrier Package) 将PCB与CELL进行连接,并使用BEZEL进行组装的Ass’y工艺等的生产Line ,是生产TFT Module产品的过程。 LCD Liquid Crystal Display的简称。用电场、磁场等外部影响,改变液晶分子排列,改变液晶分子结构的光学特性后,利用其明暗效果的显示元件. TFT-LCD 在形成FET (Field Effect Transistor)结构的TFT Glass与Color Filter之间注入液晶而制成的显示元件,使用于Note Book PC、Monitor、中小型TV 等。 Polarizer (POL)偏光片将入射光分为2个直交的偏光,透射其中特定方向的光线,吸收或分散别的光线后,将透射光变为偏振光的高分子Film Backlight (B/L)为了给LCD提供光源,在Panel后部组装的发光部件,有EL, LED, CCFL 等。 Color Filter (C/F) 制造Color液晶显示元件时使用的主要原材料,指按一定的顺序排列了Red,Green, Blue像素的薄膜。 Pixel and Dot Pixel 是Picture Element的简称, Color Filter Stripe上的3个R,G,B Dot统称为单位像素, Dot(or Sub-pixel)指上述R,G,B的各个像素. Lot以一定的目的捆绑为一个单位的状态.制造工艺上考虑作业时间及库存等情况后决定最佳的Lot Size,并使用. Lot =》批次,在生产中用来表示一CST的玻璃的命名 LOT ID = LOT NAME Particle是大气灰尘及装备/DI Water产生的污染物质等的总称.一般指大小在0.001~1000?的固体及液体粒子. Smock Room是出入Clean Room时穿着的外衣,也成为洁净服. Smock Room是出入Clean Room 时,换着Smock 的场所. Material Handling System =》物料处理系统 CONV The full name is Conveyor全称是输送机 FFU The full name is Fan Filter Unit全称是风机过滤单元 MCS The full name is Material Control System全称是材料控制系统 2. Product/Process =》产品/过程 Model =》模型, 型号Panel =>平板,面板panel type =》液晶屏型号, 液晶类型 Process Flow =》工艺流程Product =》产品Operation =》操作 Chamber =》室,储存腔Equipment =》设备,器材Shortened form is EQP. Machine Port =》终端PORT. Cassette Stage (Loader/Unloader) CST承载机台,入口,出口 Cassette =>装GLASS或Panel的盒子Pitch =》尺寸System =》系统 OIC =》操作系统Operator Interface Client操作界面客户端