CN202694093U - Intelligent things network system for livestock and poultry farm - Google Patents

Intelligent things network system for livestock and poultry farm Download PDF

Info

Publication number
CN202694093U
CN202694093U CN 201220164846 CN201220164846U CN202694093U CN 202694093 U CN202694093 U CN 202694093U CN 201220164846 CN201220164846 CN 201220164846 CN 201220164846 U CN201220164846 U CN 201220164846U CN 202694093 U CN202694093 U CN 202694093U
Authority
CN
China
Prior art keywords
system
information
animal
livestock
behavior
Prior art date
Application number
CN 201220164846
Other languages
Chinese (zh)
Inventor
汪开英
裘正军
Original Assignee
浙江大学
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 浙江大学 filed Critical 浙江大学
Priority to CN 201220164846 priority Critical patent/CN202694093U/en
Application granted granted Critical
Publication of CN202694093U publication Critical patent/CN202694093U/en

Links

Abstract

The utility model discloses an intelligent things network system for a livestock and poultry farm, comprising the components as following: an animal identification system, an environment information detection system, an animal behavior detection system, a master control computer used for storing and managing the information and making an expert decision, wherein the master control computer is interacted with the animal identification system and the environment information detection system, a regulation and control system automatically regulates and controls the breeding environment of a livestock and poultry house according to real-time environment information and real-time animal behavior information based on the expert decision, and an information issuing unit used for accessing the master control computer. According to the utility model, a livestock and poultry farm intelligent system is processed by unification deployment by an expert decision system, the operation process of the livestock and poultry farm intelligent system is substantially simplified, management is simple, an error rate is low, the interactivity between the system and a the operation personal is high, and the advantage of the application of a things network technology in the livestock and poultry farm intelligent system is shown.

Description

一种畜禽场智能化的物联网系统 One kind of livestock and poultry farms intelligent system of things

技术领域 FIELD

[0001] 本实用新型涉及畜禽场的物联网,特别涉及一种畜禽场智能化物联网系统。 Things [0001] The present invention relates to the field of livestock, particularly to a livestock farm intelligent system of things.

背景技术 Background technique

[0002] 随着人类对畜禽产品安全与环境保护的意识加强,为了实现畜禽场的精细养殖与管理以及畜禽产品溯源与管理,畜禽场的智能化成为畜牧业可持续发展的趋势。 [0002] As human consciousness to strengthen the livestock and poultry product safety and environmental protection, in order to achieve fine livestock breeding and management of farm products and livestock traceability and management, intelligent livestock and poultry farms become sustainable development of livestock sector trends .

[0003] 现有技术畜禽场的智能化主要体现在如下几个方面: [0003] Intelligent prior art mainly in the field of livestock the following aspects:

[0004] 一、畜禽舍环境调控。 [0004] First, the animal building environment control. [0005] 畜禽舍环境调控一般通过畜禽舍环境调控系统完成对温度、湿度、气流、污染物等畜禽舍内环境因素的调节。 [0005] Animal Building regulation is generally complete within animal building regulation of temperature, humidity, air flow, contaminants and other environmental factors by animal building environmental control system. 畜禽舍环境调控系统一般包括畜禽舍的围护结构、通风系统、供热系统、降温系统以及光照设备等。 Animal building environmental control system generally comprises a retaining structure, the ventilation system, heating system, cooling system and the lighting equipment and the like animal building.

[0006] 现有技术的畜禽舍环境调控系统中,Big Dutchman公司等研制的控制系统实现了温度、湿度、氨气浓度的环境参数采集,饮水量以及采食量数据的自动采集,单栋畜禽舍温度、通风、喂料的自动控制,但未实现全场的智能化管理。 [0006] Animal Building control system of the prior art, Big Dutchman companies developed control system for the environmental parameters acquisition temperature, humidity and ammonia concentration, the water amount and the automatic collection of data feed intake, single-family animal building temperature, ventilation, automatic feed control, but did not realize the audience of intelligent management.

[0007] 二、饲料自动供应与个体精细饲喂。 [0007] Second, automatic feed supply and feeding individual fine.

[0008] 畜禽舍的饲料供应一般通过饲料自动供应系统完成对畜禽舍内畜禽的饲料供应。 [0008] The feed supply poultry house is generally complete livestock feed supplies to the animal building by an automatic feed supply system. 近年来发达国家采用了一种养猪电子辨识饲喂系统,该系统将饲料由散装饲料筒输送到饲喂站的盛料漏斗,一个饲喂站可饲养较大数量的母猪头数,国内也出现类似产品;但该系统也不具备与全场系统的互联性。 Developed in recent years it uses a pig feeding an electronic identification system, which will be conveyed by the feed tube to hold bulk feed hopper feeding station, a feeding station may be a greater number of breeding sow head, domestic also a similar product; but the system does not have the connectivity with the whole system.

[0009] 三、畜禽繁殖/疫病预警。 [0009] Third, the livestock and poultry breeding / disease warning.

[0010] 为加强国际动物流行病的预防工作,建立相关畜禽及其产品的交易监测网络、实验室监测网络等多个监测网络预警体系是非常重要的,国内在处理动物紧急疫情方面较为落后,疫病的监测与控制手段未能规范,缺乏疫病监测与控制专家系统。 [0010] In order to strengthen prevention efforts OIE, the establishment of trade monitoring network-related livestock and poultry and its products, laboratory monitoring network and early warning system to monitor multiple networks is very important in dealing with domestic animal emergency disease is lagging behind , disease surveillance and control measures failed to norms, lack of disease surveillance and control system expert.

[0011] 四、动物身份识别。 [0011] Fourth, animal identification.

[0012] 国际标准ISOl 1784和ISOl 1785规定了对动物用RFID进行识别的代码。 [0012] international standard ISOl 1784 ISOl 1785 and a predetermined code identifying the animal with RFID. 目前欧美发达国家广泛应用动物识别系统于畜禽场的动物身份识别,我国农业部于2006年建立了《畜禽标识和养殖档案管理办法》。 American and European countries are currently widely used animal identification system to identify the identity of the animal livestock and poultry farms, China's Ministry of Agriculture established a "livestock identification and breeding records management approach" in 2006. 但是我国在畜牧业推广应用RFID还存在诸多问题,RFID技术标准尚在研制之中,还不够成熟。 However, China still many problems in animal husbandry to promote the application of RFID, RFID technology standards still being developed, it is not mature enough. RFID行业标准涉及频段划分、编码规则等问题,目前尚未形成统一的全球化标准。 RFID industry standards related problems band division, coding rules, it has yet to form a unified global standard.

[0013] 现有技术畜禽场的智能化仅仅对畜禽场的上述四个方面进行单独控制,即包括四个单独的智能化系统。 Intelligent [0013] Field of the prior art poultry only the above four aspects of individually controlled breeding farms, i.e., includes four separate intelligent systems. 在具体应用过程中,常会发生如下问题: In the specific application process, the following problems often occur:

[0014] (I)各个系统单独工作,造成系统总共的能耗量高。 [0014] (I) each work alone system, cause the system total energy consumption high. 由于系统与系统之间采集的信息有交叠,重复地采集以及处理采集的信息会造成能耗量大,不利于进一步地可持续发展; Since the information collected from system to system, there is an overlap repeatedly gathering and processing information collected will result in large energy consumption, it is not conducive to further sustainable development;

[0015] (2)系统维护不便,不能集中管理。 [0015] (2) system maintenance inconvenience, can not be centrally managed. 因上述各个系统成本较低,且相互之间没有形成体系,现有技术并没有对每个系统设置自身监测单元来专门进行系统自身的监测、调节以及维护,而是单独对每个系统进行人力监控及调节。 Lower cost due to the above-described respective systems, and the system is not formed with each other, and the prior art is not provided for each system its own monitoring unit to monitor the system itself specifically, adjustment, and maintenance, but separately for each system in human monitoring and regulation. 人力调节因有定时性以及人为性的因素,不仅消耗人力资源,还可能会因为不能及时监控或人为识别有误,造成畜禽场的养殖损失; Human adjustment due to the timing and nature of the human factor, not only consume human resources, may also timely because they can not monitor or identify human error, resulting in the loss of livestock and poultry breeding farm;

[0016] ( 3 )各系统自成体系,数据指标不统一。 [0016] (3) Each self-contained system, the data index is not uniform.

实用新型内容 SUMMARY

[0017] 本实用新型提供了一种畜禽场智能化物联网系统,能够对现有技术畜禽舍的环境调控、饲料自动供应、畜禽繁殖/疫病预警以及动物身份识别等方面的智能系统进行统一的智能化管理与操作,解决了现有技术的上述系统维护不便以及不能集中管理的问题。 [0017] The present invention provides a poultry farm intelligent system of things, capable of prior art poultry house environmental control, automatic feed supply, animal breeding / animal identification and disease early warning and other aspects of intelligent systems unified intelligent management and operation, to solve the above-mentioned prior art system maintenance inconvenience and the problems can not be centrally managed.

[0018] 一种畜禽场智能化物联网系统,包括用于形成动物身份信息的动物身份识别系统、用于检测畜禽舍实时环境信息的环境信息检测系统以及用于检测实时畜禽行为信息的畜禽行为检测系统,所述的物联网系统还包括: [0019] 用于存储和管理上述信息并做出专家决策的主控计算机,该主控计算机与所述的动物身份识别系统、环境信息检测系统以及畜禽行为检测系统进行交互; [0018] A poultry farm was intelligent networking systems, including the animal identification system for forming an animal identity information, environmental information for real-time detection system for detecting environmental information and for real-time detection livestock animal building behavior information animal behavior detection system, said system further comprising things: [0019] for storing and managing said information and make decisions host computer experts, the animal identification system and said host computer, environment information Animal behavior detection systems and detection systems interact;

[0020] 基于所述的专家决策并根据实时环境信息以及实时畜禽行为信息对畜禽舍的饲养环境进行自动调控的调控系统;以及, [0020] and make decisions based on expert according to the real-time environmental information and real-time information on the behavior of livestock and poultry breeding poultry house environment of automatic regulation and control system; and,

[0021] 用于访问所述主控计算机的信息发布单元。 [0021] The information distribution means for accessing the host computer.

[0022] 在上述技术方案中,所述的畜禽舍的环境信息包括畜禽舍内的温度、湿度、气压、CO2, nh3、h2s、光照强度等信息以及畜禽舍外的气候信息(即温度、湿度、太阳辐射、雨量、风向风速等信息)。 [0022] In the above technical solution, the environmental information includes weather information Chuqin outside temperature in the animal building, humidity, pressure, CO2, nh3, h2s, poultry house, and light intensity information (i.e. temperature, humidity, solar radiation, rain, wind direction and speed information, etc.). 动物身份识别系统、环境信息检测系统以及畜禽行为检测系统行为动物身份信息、采集畜禽舍的环境信息以及畜禽行为信息后,与主控计算机进行信息的交换和通讯。 Animal identification system, the environmental information and poultry inspection system behavior detection system behavior animal identification information, environmental information collection and livestock animal building behavior information, information exchange and communication with the host computer. 为实现存储和管理上述信息并做出专家决策的功能,所述的主控计算机进一步包括:数据库,用于存储和管理上述动物身份信息、实时环境信息和实时畜禽行为信息以及外部输入的畜禽舍基础环境信息、外部输入的畜禽基础行为信息以及专家数据库信息;以及专家决策系统,用于将实时环境信息或畜禽行为信息与基础环境信息或畜禽的基础行为信息进行比较;启动预设的畜禽舍环境智能调控专家决策系统、畜禽饲料/水/防疫药品供应的畜禽精细养殖管理专家系统或畜禽废弃物资源化处理专家系统,根据专家决策系统内置的标准信息做出相应的专家决策;所述的专家数据库信息为专家决策系统内置的标准信息。 To achieve the above-mentioned information storage and management and expert decision making function of the master computer further comprising: a database for storing and managing identity information such animals, real-time environmental information and real-time information as well as external input livestock behavior of animals birdhouse basic environmental information, livestock base behavioral information database information and expert input from the outside; and expert decision-making system for real-time environmental information or livestock behavior information and basic behavioral basis of environmental information to compare information or livestock; start Animal Building preset intelligent control expert decision-making system, animal feed / water / livestock epidemic prevention medicine supply management expert system or fine breeding livestock waste treatment resources expert system, according to expert decision system built-in standard information do the corresponding expert decision; database information to the expert system built expert decision standard information.

[0023] 本实用新型的物联网系统通过主控计算机、调控系统以及信息发布单元对畜禽舍实现智能化的监控与管理,形成畜禽场智能化物联网。 [0023] Things of the present invention by the host computer system, and control system and information distribution unit Chuqin intelligent monitoring and management, livestock and poultry farms are formed intelligent things.

[0024] 在所述的专家决策系统中: [0024] experts in the decision-making system in:

[0025] 所述的畜禽舍环境智能调控专家决策系统根据动物学家提供畜禽生长需要的环境条件,由畜禽养殖环境工程学家提供经实践认证可行的畜禽环境自动调控技术与设备,兼顾环境与节能减排的需要,实现畜禽舍环境的智能管理; [0025] The Animal Building intelligent control system according to zoologist expert decision provides automatic control technology and equipment required for animal growth environmental conditions, provide a viable livestock practices certified by the Environmental Livestock Environmental Engineering scientist , taking into account the needs of the environment and energy saving, intelligent management of animal building environment;

[0026] 所述的畜禽饲料/水/防疫药品供应的畜禽精细养殖管理专家系统根据畜禽种类及其生长阶段,由动物营养与兽医专家提供生长需要的饲料、水、药的供应量与供应时间,再由RFID无线射频标识系统记录畜禽的出生地、免疫注射、检疫、运输等信息,以实现畜禽精细养殖,降低生产成本,保障畜禽健康; [0026] The livestock and poultry feed / water / fine livestock breeding prevention drug supply management expert system according to the type and stage of growth of livestock and poultry, provide a supply of feed water, the growth of drug required by veterinary experts and animal nutrition and supplying time, place of birth information, immunization, quarantine, livestock transportation re-recorded by the RFID radio frequency identification system to achieve fine livestock breeding, reduce production costs, to protect the health of livestock and poultry;

[0027] 畜禽废弃物资源化处理专家系统根据畜禽环境工程师、有机肥专家、沼气工程专家提供经认证可行的畜禽三废(粪便、污水、废气)资源化处理技术与装备,通过检测三废排放量及其主要理化指标,建立畜禽废弃物管理与风险评估系统,实现畜牧业的废弃物的风险评估化、处理资源化或达标化。 [0027] Animal Waste treatment resources expert system provides certified viable livestock waste (manure, sewage, waste gas) resource processing technology and equipment in accordance with environmental engineer livestock, organic fertilizer expert, biogas engineering experts, by detecting waste emissions and its main physical and chemical indicators, the establishment of livestock waste management and risk assessment system, the risk assessment of animal waste, processing resources or the standard of.

[0028] 主控计算机内数据库中的专家数据库信息主要包括食品安全标准与安全指标体系、畜禽健康生长繁殖的环境控制指标体系、畜禽废弃物排放标准与资源化处理规范体系等标准信息。 [0028] experts within the host computer database information in the database includes information on food safety standards and standard safety indicator system, environmental control system indicators of growth and reproduction health of livestock and poultry, livestock and poultry waste discharge standards and resource processing system of norms and so on.

[0029] 所述调控系统的调控策略是根据畜禽舍的综合环境指标(即行业内认证的温湿度指标、温湿度+风速指标、温湿度+风速+NH3等气体浓度指标)、实时环境信息及畜禽生长阶段(即检测到的畜禽行为信息)对畜禽舍的饲养环境进行自动调控。 Control Strategy [0029] The regulation system is based on the comprehensive index poultry house environment (i.e., temperature and humidity within the industry authentication indicators, temperature and humidity indicators + Winds, wind speed temperature and humidity + + Density of the NH3 gas and the like), the environmental information in real time and animal growth stages (i.e., the behavior information detected by the livestock) for feeding poultry house environment for automatic regulation. 当环境参数超过规定范围时,调控系统将启动执行机构进行调控,如畜禽舍内的温度超过上限时,系统启动湿帘和增开排气扇进行降温。 When environmental parameters exceeds a predetermined range, the actuator and control system starts to regulate, as the temperature inside the animal building exceeds the upper limit, the system starts to open and wet curtain fan to cool. 所述的执行机构主要包括与改变畜禽舍环境相关的风机控制、湿帘控制、灯光控制、猪舍除臭、进风控制、饲料配给、饮水控制等调控机构。 The actuator comprises primarily associated with changes in the poultry house environment fan control, wet curtain control, lighting control, pig deodorization, air intake control, feed rations, water and other regulatory control mechanism.

·[0030] 所述的信息发布单元主要是为了后续动物身份识别的追溯所提供的一个查阅平台,能够读取数据库存储的关于动物身份及其他关于畜禽场的信息,进行本实用新型系统与人的互动。 · Information distribution unit [0030] The animals primarily for subsequent identification is provided a retrospective inspection platform, capable of reading the identity database storage animal breeding farms and other information about the system for the present invention human interaction. 所述的用户访问终端可以是任意一台联网的计算机或智能手机终端。 The user terminal can access any connected computer or smart phone terminals.

[0031] 本实用新型的系统将现有技术的畜禽舍环境调控、饲料自动供应、畜禽繁殖/疫病预警以及动物身份识别等方面的智能系统了进行统一管理与操作,并且,将系统的决策数据、指标及过程进行了统一,即通过专家决策系统来同一部署,大大简化了禽场智能化系统的操作过程,管理简便,出错率低且系统与人的互动性高,体现了将物联网技术应用于畜禽场智能化的优势。 [0031] The present invention animal building environmental control system of the prior art, automatic feed supply, animal breeding / animal identification and disease early warning and other aspects of a unified intelligence system management and operation, and the system decision-making data, indicators and process was uniform, that is, by the same expert decision to deploy the system, greatly simplifies the process of operating poultry farms intelligent system, easy management, low error rate and the interaction of the system and people's high, reflecting the matter intelligent networking technologies used in animal field advantage.

[0032] 下面介绍本实用新型的优选技术方案。 [0032] The following describes the present invention a preferred aspect.

[0033] 为了进一步提高本实用新型系统管理的有效性以及全面性,在优选方案中,本实用新型增强了本系统的提醒功能。 [0033] In order to further enhance the effectiveness of the present invention and the comprehensive management system, in a preferred embodiment, the present invention enhances the functionality of the alert system. 作为优选,本实用新型的物联网系统还包括与所述主控计算机相连的报警系统。 Advantageously, the present invention further comprises a system of things alarm system connected to the master computer. 所述的报警系统包括声光报警以及短信报警。 The alarm system includes a sound and light alarm and alarm messages. 当本系统运行时检测的畜禽舍的环境信息及畜禽行为信息超过规定的极限值时,报警系统被自动触发,通过报警器发出声光警示,同时通过短信的方式将报警信息发给值班的管理人员。 When the environmental information and poultry limit behavior information detected by the runtime system exceeds a predetermined poultry house, the alarm system is automatically triggered, the audible alarm by the alarm, and the alarm via SMS information to watch managers.

[0034] 所述的动物身份识别系统包括对动物身份进行标记并形成所述动物身份信息的RFID标签以及采集该动物身份信息并将该信息写入所述数据库的动物身份检测单元。 [0034] The animal identification system comprises an animal identification RFID tag marking the animal and forming identity information and identity information of the animal and collecting the animal identification information into the database of the detecting means. RFID标签采用射频识别技术,可通过无线电讯号识别畜禽并将相关数据写入主控计算机的数据库中,这种动物身份识别系统不同于传统的畜禽识别系统,无需建立畜禽识别系统与畜禽之间的机械或光学接触,简化了系统也避免了对畜禽的伤害。 RFID tags using radio frequency identification technology, the database may be written to the host computer via radio signals and data identifying livestock, the animal identification system different from the traditional livestock identification system, without establishing a livestock animal identification system and mechanical or optical contacts between poultry, simplify the system also avoids damage to the livestock and poultry.

[0035] 所述的动物身份检测单元包括用于接入RFID标签中动物身份信息的第一通信接口以及用于采集该动物身份信息的第一单片机电路。 [0035] The identity of the animal comprises detecting means for accessing the RFID tag information in a first animal identification and a first communication interface circuit microcontroller identity of the animal for harvesting.

[0036] 所述的环境信息检测系统包括分别于畜禽场畜禽舍内外形成所述的实时环境信息的传感器以及通过接口与传感器相连并将所述实时环境信息写入所述数据库的环境信息检测单元。 Environmental Information [0036] The environmental information detecting system includes a real-time sensor environment information respectively in the inner and outer fields of livestock and poultry house is formed by an interface associated with the sensor and the real-time information is written to the database environment detection means. 所述的传感器包括与信息检测系统检测的环境信息相应的温度传感器、湿度传感器、气压传感器、CO2传感器、NH3传感器、H2S传感器、光照强度传感器等。 Said sensor comprises environment information detecting system for detecting the respective temperature sensors, humidity sensors, pressure sensors, CO2 sensor, NH3 sensors, H2S sensors, light intensity sensors.

[0037] 所述的环境信息检测单元包括用于接入传感器中实时环境信息的第二通信接口以及用于采集该实时环境信息的第二单片机电路。 [0037] The environmental information detecting means comprises a sensor for accessing information in a real time environment second communication interface circuit and a second microcontroller for collecting the environment information in real-time. [0038] 所述的畜禽行为检测系统,包括形成实时畜禽行为信息的视频监控器与红外行为传感器以及采集该实时畜禽行为信息并将该信息写入所述数据库的畜禽行为检测单元。 [0038] The livestock behavior detection system, comprising forming a real-time video surveillance information Animal behavior with the behavior of the infrared sensor and the real-time acquisition Animal behavior information written in the information database and the behavior detection unit livestock .

[0039] 所述的红外行为传感器为热释电红外传感器。 [0039] The behavior of the infrared sensor is a pyroelectric infrared sensor.

[0040] 所述的畜禽行为检测单元包括用于接入视频监控器与红外行为传感器中实时畜禽行为信息的第三通信接口以及用于采集该实时畜禽行为信息的第三单片机电路。 [0040] The livestock behavior detection unit comprises a video monitor for accessing the third communication interface information with infrared sensor behavior in real time the behavior of livestock and poultry third single-chip real-time behavior of the circuit for acquiring the information.

[0041] 还包括设于畜禽场的若干通信节点,所述的通信节点与所述的动物身份识别系统、环境信息检测系统以及畜禽行为检测系统进行交互;所述的通信节点通过无线网络与主控计算机之间进行交互。 [0041] provided further comprising a plurality of communication nodes poultry field, said communication node to interact with the animal identification system, environment information detecting system and a detection system Animal behavior; said communication node over the wireless network interaction between the host computer and. 更为具体地,所述的通讯节点与所述的动物身份检测单元、环境信息检测单元或畜禽行为检测单元之间均可采用串行总线进行通讯。 More specifically, the communication between the node and the identity of the animal the detection means, or the environment information detecting means poultry behavior detecting unit can communicate using the serial bus. 对于距离较近的畜禽舍采用RS-232C总线,对于距离较远的畜禽舍采用RS-485远距离通讯总线,也可使用无线通讯方式进行数据的传送,构成主-从多机通讯网络。 For animal building close distance using RS-232C bus, for distant remote Chuqin using RS-485 communication bus, wireless communications can also be used for data transmission, constituting the master - slave multi-machine communication network . 主控计算机为通讯主机,所述的动物身份检测单元、环境信息检测单元以及畜禽行为检测单元为通讯从机,每台从机分配了唯一的通讯地址,主机通过轮流呼叫从机地址分别与各检测单元之间建立通讯。 The host computer is communicating hosts, the identity of said animal detection unit, and the environmental information detecting means poultry behavior detecting unit communication slave Each slave unit is assigned a unique address, a host by polling each slave address and call establishing communication between each of the detection means. 主控计算机与通信节点的通信过程包括:主控计算机通过USB接口连接无线通讯模块并使用ZIGBEE协议访问通讯节点,对于分布较远的节点,可设置少量中继通讯节点,实现远距离的数据无线通讯。 Communication process with the host computer communication node comprising: a host computer via the USB interface module and wireless communication using ZIGBEE protocol to access the communication node, for remote distribution node, the communication relay node may be provided a small amount, achieve long-distance wireless data communication.

[0042] 以畜禽行为检测系统为例,当畜禽在所述的热释电红外传感器前移动时,热释电红外传感器发出脉冲信号,信号频率与畜禽移动速度相关;动物身份检测单元中的单片机电路对热释电红外传感器的信号进行监测,并将监测结果(即畜禽行为信息)实时地传输给所述的主控计算机,即所述的主控计算机通过所述的通讯节点与畜禽行为检测单元进行畜禽行为信息的交互。 [0042] In Animal behavior detection system as an example, when the poultry is moved in front of the pyroelectric infrared sensor, a pyroelectric infrared sensor sends a pulse signal, the signal frequency associated with the moving speed of livestock; animal identity detector means the microcontroller circuit of the pyroelectric infrared sensor signal is monitored, and the monitoring results (i.e. Animal behavior information) transmitted to the host computer in real time, i.e. the communication node of the master computer for poultry and livestock activity information interaction behavior detection unit. 专家决策系统检测到畜禽行为异常时,可触发报警系统发出预警信号。 When the system detects a livestock expert decision abnormal behavior, it can trigger the alarm system sends out warning signals.

[0043] 本实用新型畜禽场智能化物联网系统及物联网方法能够对现有技术畜禽舍的环境调控、饲料自动供应、畜禽繁殖/疫病预警以及动物身份识别等方面的智能系统进行统一的管理与操作,将四个独立工作的系统的决策数据、指标及过程进行统一规划与存储,即通过专家决策系统来统一部署,大大简化了畜禽场智能化系统的操作过程,管理简便,出错率低且系统与人的互动性高,体现了将物联网技术应用于畜禽场智能化的优势。 [0043] The present invention breeding farms intelligent system of things and physical interconnection method can regulate the environment of prior art animal building, automatic feed supply, animal breeding / animal identification and disease early warning and other aspects of a unified intelligence system management and operation of the system of four independent decision-making data work, indicators and process planning and unified storage, namely the decision by the expert system to the unified deployment, greatly simplifies the process of livestock and poultry farms operating system of intelligent, easy to manage, low error rate and the interaction of the system and people's high, reflecting the networking technology used in animal intelligence field advantage.

附图说明 BRIEF DESCRIPTION

[0044] 图I为本实用新型畜禽场智能化物联网系统的结构示意图; [0044] FIG structural diagram I breeding farms invention intelligent network system of the present composition;

[0045] 图2为本实用新型系统在一个猪舍中信息检测单元以及通信节点的分布示意图; A schematic view of the distribution [0045] FIG. 2 of the present invention the system information detection unit, and a communication node in the pig;

[0046] 图3为本实用新型信息检测系统的结构示意图; [0046] FIG. 3 is a schematic structural diagram of disclosure information detecting system;

[0047]图4为本实用新型主控计算机与信息检测系统的通信链路示意图; [0047] FIG invention host computer 4 and the communication link is a schematic view of the detection system of the present information;

[0048] 图5为本实用新型畜禽场智能化物联网系统的智能调控链路示意图; [0048] FIG. 5 is a schematic view of intelligent control link breeding farms invention the intelligent system of things;

[0049] 图6为本实用新型畜禽溯源与防疫系统链路示意图; [0049] FIG. 6 of the present invention Animal Origin of prevention link system schematic;

[0050] 图7为本实用新型畜禽场智能化物联网系统建立流程图。 [0050] FIG. 7 of the present invention, livestock and poultry farms was intelligent network system to establish a flow chart.

具体实施方式 Detailed ways

[0051] 下面结合附图详细介绍本实用新型的具体实施方式。 [0051] Detailed Description of the present invention in conjunction with the following DETAILED DESCRIPTION accompanying drawings.

[0052] 如图I所示的一种畜禽场智能化物联网系统,在本实施例中,畜禽场为养猪场,养猪场内包括若干猪舍。 [0052] A poultry farm was intelligent network system shown in FIG. I, in the present embodiment, the field of livestock farms, comprising a plurality of the pig farms. 应用于该养猪场的物联网系统包括用于形成动物身份信息的动物身份识别系统、用于检测畜禽舍实时环境信息的环境信息检测系统、用于检测实时畜禽行为信息的畜禽行为检测系统、主控计算机、报警系统、调控系统以及信息发布单元。 Animal identification system was applied to the pig farm animal identification information includes a network system for forming an environmental information detecting system for detecting a real animal building environment information, animal behavior for real-time detection information Animal Behavior detection system, host computer, alarm systems, and control system and an information publishing unit.

[0053] 本实用新型畜禽场智能化物联网系统建立流程如图7所示。 [0053] The present invention was breeding farms intelligent network system establishment process shown in Figure 7. 所述的主控计算机,与所述的动物身份识别系统、环境信息检测系统以及畜禽行为检测系统进行交互,所述的主控计算机包括: Said master computer, to interact with an animal identification system, environment information detecting system and a detection system according to the behavior of poultry, said host computer comprising:

[0054] 数据库,用于存储和管理上述动物身份信息、实时环境信息和实时畜禽行为信息以及外部输入的畜禽舍基础环境信息、外部输入的畜禽基础行为信息以及专家数据库信息; [0054] a database for storing and managing identity information such animals, real-time environmental information and real-time behavior of livestock and animal building basic environmental information externally input information, Livestock Base acts externally input information and expert database information;

[0055] 专家决策系统,用于将实时环境信息或畜禽行为信息与基础环境信息或畜禽的基础行为信息进行比较;启动预设的畜禽舍环境智能调控专家决策系统、畜禽饲料/水/防疫药品供应的畜禽精细养殖管理专家系统或畜禽废弃物资源化处理专家系统,根据专家决策系统内置的标准信息做出相应的专家决策;所述的专家数据库信息为专家决策系统内置的标准信息。 [0055] decision-making expert system for real-time environmental information or livestock behavior information and basic behavioral basis of environmental information to compare information or livestock; start preset Animal Building intelligent control expert decision-making system, animal feed / water / prevention drug supply of fine breeding livestock or livestock waste management expert system expert system processing resources, to make appropriate decisions based on expert decision expert system built-in standard information; the information database of experts for the expert decision-making system built the standard information.

[0056] 所述的调控系统,基于所述的专家决策,根据实时环境信息以及实时畜禽行为信息对畜禽舍的饲养环境进行自动调控;调控系统基于上述的专家决策,根据实时环境信息对猪舍的饲养环境进行自动调控。 Regulation System [0056], wherein said expert decision based, real-time environment information and real-time behavior information livestock rearing environment for automatic regulation of the poultry house; regulatory decisions based on expert system described above, according to the real-time environment information pig breeding environment for automatic regulation. 当环境参数超过规定范围时,调控系统将启动执行机构进行调控,如畜禽舍内的温度超过上限时,系统启动湿帘和增开排气扇进行降温。 When environmental parameters exceeds a predetermined range, the actuator and control system starts to regulate, as the temperature inside the animal building exceeds the upper limit, the system starts to open and wet curtain fan to cool. 调控系统主要的执行机构包括与改变猪舍环境相关的风机控制、湿帘控制、灯光控制、畜禽舍除臭、进风控制、饲料配给、饮水控制等调控结构,具体可见图5。 The main control system of the actuators comprises a change associated with the pig house fan control, wet curtain control, lighting control, animal building deodorization, air intake control, feed rations, water regulation control structure, particularly visible in FIG. 5.

[0057] 所述的信息发布单元,包括用户访问终端,与所述的主控计算机相连,用于通过网络方式访问所述的数据库。 The [0057] information distribution unit including the access terminal, and is connected to said host computer for accessing the database through the network. 信息发布单元进一步完善本实施例物联网系统与人的互动,信息发布单元的用户访问终端可以是任意一台联网的计算机或智能手机终端。 Information distribution unit to further improve the system of things in this case and the implementation of human interaction, the user terminal to access information dissemination unit can be any connected computer or smart phone terminals. 当畜禽销售后续需要对动物的身份进行溯源或因需求防疫需要对动物的身份进行查验时,如图6所示,通过与本实施例物联网系统联网的计算机或智能手机终端,通过信息发布单元访问所述的数据库,对数据库内的动物身份信息进行查询。 When the need for subsequent sale livestock animal identity is traceable because of the demand or need to check the identity of vaccination of animals, as shown in FIG. 6, the present embodiment was networked system networked computer terminal or a smart phone, the information published by unit to access the database, the animal identification information in a database query.

[0058] 所述的报警系统,与所述主控计算机相连,包括声光报警以及短信报警。 Alarm System [0058], wherein, connected to the host computer, and comprises a light alarm sound alarm messages. 当系统运行超过规定的极限值时,报警系统被自动触发,通过报警器发出声光警示,同时通过短信的方式将报警信息发给值班的管理人员。 When the system is running exceeds a predetermined limit, an alarm system is triggered automatically, audible and visual alarm by alarm, at the same time via SMS alarm information to management personnel on duty.

[0059] 所述的动物身份识别系统包括对动物身份进行标记并形成所述动物身份信息的RFID标签以及采集该动物身份信息并将该信息写入所述数据库的动物身份检测单元。 [0059] The animal identification system comprises an animal identification RFID tag marking the animal and forming identity information and identity information of the animal and collecting the animal identification information into the database of the detecting means. RFID标签采用射频识别技术,可通过无线电讯号识别畜禽并将相关数据写入主控计算机的数据库中,这种动物身份识别系统不同于传统的畜禽识别系统,无需建立畜禽识别系统与畜禽之间的机械或光学接触,简化了系统也避免了对畜禽的伤害。 RFID tags using radio frequency identification technology, the database may be written to the host computer via radio signals and data identifying livestock, the animal identification system different from the traditional livestock identification system, without establishing a livestock animal identification system and mechanical or optical contacts between poultry, simplify the system also avoids damage to the livestock and poultry.

[0060] 所述的环境信息检测系统包括分别于畜禽场畜禽舍内外形成所述的实时环境信息的传感器以及通过接口与传感器相连并将所述实时环境信息写入所述数据库的环境信息检测单元。 Environmental Information [0060] The environmental information detecting system includes a real-time sensor environment information respectively in the inner and outer fields of livestock and poultry house is formed by an interface associated with the sensor and the real-time information is written to the database environment detection means. 猪舍的环境信息具体包括猪舍内的温度、湿度、气压、co2、nh3、h2s、光照强度等信息以及猪舍外的气候信息(即温度、湿度、太阳辐射、雨量、风向风速等信息)。 Piggery environment information comprises information on the temperature inside the piggery, humidity, pressure, co2, nh3, h2s, light intensity outside the pig and climate information (i.e., information on the temperature, humidity, solar radiation, rain, wind direction and speed, etc.) . 相应地,传感器包括温度传感器、湿度传感器、气压传感器、CO2传感器、NH3传感器、H2S传感器、光照强度传感器等。 Accordingly, the sensor comprises a temperature sensor, a humidity sensor, atmospheric pressure sensor, CO2 sensor, NH3 sensors, H2S sensors, light intensity sensors.

[0061] 每个猪舍设置若干个环境信息检测单元(即IMU)。 [0061] Each pig is provided a plurality of environment information detecting means (i.e. IMU). 如图2为普通猪舍IMU的分布图。 2 illustrates the distribution of the IMU ordinary pig. 图中,猪舍长约60米,宽约20米,中间为过道,两边为猪圈。 FIG, pig about 60 meters, 20 meters wide, the middle aisle, on both sides of the pigsty. 猪舍内两排各布置3个頂U采集猪舍内信息,室外布置I个MU检测环境信息,即图中①-⑥为布置在室内的IMU, Two rows of the pig is arranged within the three top U pig collected information, the I MU detection arrangement outdoor environment information, i.e., ①-⑥ in FIG chamber is disposed in an IMU,

⑦为布置在室外的IMU。 ⑦ is arranged outside the IMU. 图中⑧为通讯节点,用于收集本单元猪舍IMU的信息。 FIG ⑧ is a communication node for the information collecting unit of the present pig the IMU.

[0062] MU单元是一个以单片机为核心的信息检测系统,如图3所示。 [0062] MU unit is a microcontroller as the core of the information detecting system, as shown in FIG. MU通过接口与温度、湿度、NH3等传感器相连。 MU is connected via an interface to the temperature, humidity, NH3 and other sensors. 系统配置了键盘、IXD液晶显示器、大容量N0VRAM、电源稳压器、时钟电路等部件。 The system is configured with a keyboard, a liquid crystal display member IXD, bulk N0VRAM, power regulator, clock circuit. IMU通过RS-232C、RS-485或无线通讯等方式与IOT节点⑧通讯。 ⑧ IMU node communication via RS-232C, RS-485 or wireless communication etc. and IOT. 单片机选用美国SiliconLabs公司高性能单片机C8051F410,软件开发平台为KEIL环境,使用C51语言开发应用程序,实现多路信息的采集、数据处理、数据显示及存储、数据通讯等功能。 SCM companies use the United States SiliconLabs high-performance microcontroller C8051F410, KEIL software development platform for the environment, the use of C51 language to develop applications to achieve multi-channel information collection, data processing, and data storage, data communications and other functions.

[0063] 所述的畜禽行为检测系统,包括形成实时畜禽行为信息的视频监控器与红外行为传感器以及采集该将该实时畜禽行为信息并将该信息写入所述数据库的畜禽行为检测单 [0063] The livestock behavior detection system, comprising forming a real-time video surveillance information Animal behavior with the behavior of the infrared sensors and the acquisition of the real-time behavior information Animal Animal Behavior and write the information to the database detection of single

J Li ο J Li ο

[0064] 在本实施例中,红外行为传感器为热释电红外传感器。 [0064] In the present embodiment, the infrared sensor is a pyroelectric behavior infrared sensor. 畜禽行为检测单元还包括单片机及通讯接口。 Animal behavior detecting unit further comprises a microcontroller and a communication interface. 当畜禽在所述的热释电红外传感器前移动时,热释电红外传感器发出脉冲信号,信号频率与畜禽移动速度相关;所述的单片机对热释电红外传感器的信号进行监测,并将监测结果(即畜禽行为信息)实时传输给所述的主控计算机,即所述的主控计算机与畜禽行为检测单元进行畜禽行为信息的交互。 When the poultry is moved in front of the pyroelectric infrared sensor, a pyroelectric infrared sensor sends a pulse signal, the signal frequency associated with the moving speed of livestock; microcontroller signals the pyroelectric infrared sensor is monitored, and the monitoring results (i.e. Animal behavior information) transmitted in real time to the host computer, i.e., the master computer interaction activity information and Animal Animal behavior detection unit. 专家决策系统检测到畜禽行为异常时,可触发报警系统发出预警信号。 When the system detects a livestock expert decision abnormal behavior, it can trigger the alarm system sends out warning signals.

[0065] 所述的畜禽场设有若干通信节点,所述的动物身份检测单元、环境信息检测单元以及畜禽行为检测单元与所述的通信节点进行交互,所述的通信节点与主控计算机之间通过无线网络进行交互,如图4所示。 [0065] The livestock field with several communication nodes, the identity of said animal detection unit, detecting unit, and a communication environment information node behavior detecting means interacting with said livestock, according to the communication with the master node interaction between computers over the wireless network, as shown in FIG.

[0066] 所述的动物身份检测单元、环境信息检测单元以及畜禽行为检测单元由包括通信接口以及单片机电路。 [0066] The identity of the animal the detection means, and the environmental information detecting means poultry behavior detection unit, and a communication interface comprises a microcontroller circuit.

[0067] 在专家决策系统中: [0067] In the expert decision-making system:

[0068] 猪舍环境智能调控专家决策系统根据动物学家提供畜禽生长需要的环境条件,由畜禽养殖环境工程学家提供经认证可行的畜禽环境自动调控技术与设备,兼顾环境与节能减排的需要,实现猪舍环境的智能管理; [0068] barn environment intelligent control system provides animal growth expert decision required environmental conditions according to zoologists, provided by the livestock and poultry breeding certified environmental engineering scientist viable livestock environment automatic control technology and equipment, taking into account the environment and energy saving emission reduction needed to achieve the intelligent management barn environment;

[0069] 畜禽饲料/水/防疫药品供应的畜禽精细养殖管理专家系统根据畜禽种类及其生长阶段,由动物营养与兽医专家提供生长需要的饲料、水、药的供应量与供应时间,以实现畜禽精细养殖,降低生产成本,保障畜禽健康; [0069] Animal feed / water / fine breeding livestock epidemic prevention medicine supply management expert system based on the type and stage of growth of livestock and poultry, providing supplies of feed, water, medicine and the growing needs of animal nutrition and is served by the veterinary experts in order to achieve fine livestock and poultry breeding, reduce production costs, protect the health of livestock and poultry;

[0070] 畜禽废弃物资源化处理专家系统根据畜禽环境工程师、有机肥专家、沼气工程专家提供经认证可行的畜禽三废(粪便、污水、废气)资源化处理技术与装备,通过检测三废排放量及其主要理化指标,建立畜禽废弃物管理与风险评估系统,实现畜牧业的废弃物的风险评估化、处理资源化或达标化。 [0070] Animal Waste treatment resources expert system provides certified viable livestock waste (manure, sewage, waste gas) resource processing technology and equipment in accordance with environmental engineer livestock, organic fertilizer expert, biogas engineering experts, by detecting waste emissions and its main physical and chemical indicators, the establishment of livestock waste management and risk assessment system, the risk assessment of animal waste, processing resources or the standard of.

[0071] 主控计算机实质上为本实施例养猪场场物联网的中心服务器,具体地动物身份识别系统、环境信息检测系统以及畜禽行为检测系统与主控计算机的信息交互的方式为: [0071] Example master computer substantially central server farm operators IOT the present embodiment, particularly an animal identification system embodiment, the environmental information and detecting system information interaction Animal behavior detection system with the host computer is:

[0072] 本实施例的物联网系统在每个猪舍均设有通讯节点⑧,上述系统通过该通讯节点⑧与主控计算机进行交互。 [0072] Example embodiments of the present system of things in each pig has ⑧ communication node, said system interact through the communication with the host computer node ⑧. 更为具体地,通讯节点接收所述的动物身份信息、环境信息或畜禽行为信息,并将上述信息传输至主控计算机。 More specifically, the communication node receiving the animal identification information, environmental information, or livestock behavior information, and transmit this information to the host computer. 在本实施例中,通讯节点为IOT节点。 In the present embodiment, the communication node is a node IOT.

[0073] IOT节点采用ARM嵌入式系统,处理器为SamSung公司的S3C2440,配置64MBSDRAM和2G内存,分辨率为800*480的6. 8英寸TFT彩色LCD及触摸屏,具有R3-232C串行口和USB通讯接口,采用WIND0EWCE嵌入式操作系统。 [0073] IOT node using ARM embedded system processor's SamSung S3C2440, 2G, and memory configuration 64MBSDRAM, 6.8 inches with a resolution of 800 x 480 TFT color LCD and touch screen, a serial port and having R3-232C USB communication interface, using WIND0EWCE embedded operating system. 应用软件在VS2008环境下开发,使用VB. NET编程语言。 Application software development environment in VS2008, using VB. NET programming language.

[0074] IOT节点与动物身份检测单元、环境信息检测单元以及畜禽行为检测单元之间采用串行总线进行通讯,对于距离较近的猪舍采用RS-232C总线,对于距离较远的猪舍采用RS-485远距离通讯总线,也可使用无线通讯方式进行数据的传送,构成了主-从多机通讯网络;Ι0Τ为通讯主机,上述单元为从机,每个单元分配了唯一的通讯地址,主机通过轮流呼叫从机地址分别与各单元建立通讯。 [0074] The identity of the animal between the node and the IOT detection means, detecting means and the environmental information detection means conduct poultry serial communication bus, are closer to the RS-232C bus using pig, pig for distant long-distance communication using RS-485 bus, wireless communications can also be used for data transmission, constitutes a master - slave multi-machine communication network; Ι0Τ of communicating hosts the slave unit, each unit is assigned a unique communication address , host establishes a call communication by polling each slave unit addresses, respectively. IOT节点与主控计算机通过ZIGBEE无线网络进行数据的传输。 IOT node for data transmission with the host computer via wireless ZIGBEE network. 主控计算机通过USB接口连接无线通讯模块,使用ZIGBEE协议访问IOT节点,对于分布较远的节点,可设置少量中继IOT节点,实现远距离的数据无线通讯。 The host computer via the USB interface wireless communication module, the protocol used to access IOT ZIGBEE node, distribution node for far, a small number may be provided IOT relay node, data wireless communication distance.

[0075] 此外,主控计算机采用SQL Server建立数据库,用SQL语言对数据库进行维护;专家决策系统的各个专家系统可单独应用。 [0075] In addition, the establishment of the host computer using SQL Server database, the database maintained by the SQL language; each expert system expert decision system can be used alone. 信息发布单元的信息发布功能主要采用.NET技术,通过网络方式访问畜禽场现场的实时信息及专家数据库信息。 Information dissemination of information publishing unit mainly uses .NET technology, real-time information and expert database information visit the scene of the poultry farm through the network.

Claims (10)

1. 一种畜禽场智能化物联网系统,包括用于形成动物身份信息的动物身份识别系统、用于检测畜禽舍实时环境信息的环境信息检测系统以及用于检测实时畜禽行为信息的畜禽行为检测系统,其特征在于,还包括: 用于存储和管理上述信息并做出专家决策的主控计算机,该主控计算机与所述的动物身份识别系统、环境信息检测系统以及畜禽行为检测系统进行交互; 基于所述的专家决策并根据实时环境信息以及实时畜禽行为信息对畜禽舍的饲养环境进行自动调控的调控系统;以及, 用于访问所述主控计算机的信息发布单元。 A poultry farm was intelligent network system, comprising an animal identification system for forming an animal identity information, environmental information detecting system for real-time environmental information detection for detecting a real animal building livestock and animal behavior information avian behavior detection system, characterized by further comprising: means for storing and managing said information and make decisions host computer experts, the animal identification system and said host computer, and the environmental information detecting system animal behavior detection systems interact; and automatic control system for the regulation of feeding poultry house environment based on real-time environmental information and real-time information based on livestock behavior of the expert decision; and, for information distribution unit to access the host computer .
2.如权利要求I所述的物联网系统,其特征在于,还包括与所述主控计算机相连的报警系统。 2. The system of things according to claim I, characterized by further comprising an alarm system connected to the host computer.
3.如权利要求I所述的物联网系统,其特征在于,所述的动物身份识别系统包括对动物身份进行标记并形成所述动物身份信息的RFID标签以及采集该动物身份信息并将该信息写入所述数据库的动物身份检测单元。 3. The system of things according to claim I, characterized in that the animal identification system comprises an animal identification RFID tag marking the animal and forming identity information and the acquired identification information and the animal information animal identification detecting means is written to the database.
4.如权利要求3所述的物联网系统,其特征在于,所述的动物身份检测单元包括用于接入RFID标签中动物身份信息的第一通信接口以及用于采集该动物身份信息的第一单片机电路。 4. The system of things according to claim 3, wherein said detecting means comprises a first animal identification communication interface for accessing the RFID tag information, and an animal identification of the animal for acquiring second identification information a microcontroller circuit.
5.如权利要求I所述的物联网系统,其特征在于,所述的环境信息检测系统包括分别于畜禽场畜禽舍内外形成所述的实时环境信息的传感器以及通过接口与传感器相连并将所述实时环境信息写入所述数据库的环境信息检测单元。 5. The system of things according to claim I, wherein said environmental information detection system comprises a sensor formed according to the environmental information in real time in livestock and poultry house and outside the field with the sensor and is connected via an interface writing the real-time environment information detecting means of the environment information database.
6.如权利要求5所述的物联网系统,其特征在于,所述的环境信息检测单元包括用于接入传感器中实时环境信息的第二通信接口以及用于采集该实时环境信息的第二单片机电路。 6. The system of things according to claim 5, wherein said environmental information detection means comprises a sensor for real-time access environment information, and a second communication interface for acquiring the second real environment information microcontroller circuit.
7.如权利要求I所述的物联网系统,其特征在于,所述的畜禽行为检测系统,包括形成实时畜禽行为信息的视频监控器与红外行为传感器以及采集该实时畜禽行为信息并将该信息写入所述数据库的畜禽行为检测单元。 7. The system of things according to claim I, wherein said poultry behavior detection system, comprising forming a video monitor in real time the behavior of Animal Behavior infrared sensor information and the acquisition and real-time behavior information Animal Animal behavior database to write the information of the detection means.
8.如权利要求7所述的物联网系统,其特征在于,所述的红外行为传感器为热释电红外传感器。 8. The system of things according to claim 7, wherein said infrared sensor behavior pyroelectric infrared sensor.
9.如权利要求7所述的物联网系统,其特征在于,所述的畜禽行为检测单元包括用于接入视频监控器与红外行为传感器中实时畜禽行为信息的第三通信接口以及用于采集该实时畜禽行为信息的第三单片机电路。 9. The system of things according to claim 7, wherein said detecting means includes a third poultry conduct a communication interface for accessing information in a video monitor behavior and infrared sensor and a real-time behavior of livestock to capture the real-time behavior of livestock and poultry third microcontroller circuit information.
10.如权利要求I所述的物联网系统,其特征在于,还包括设于畜禽场的若干通信节点,所述的通信节点与所述的动物身份识别系统、环境信息检测系统以及畜禽行为检测系统进行交互;所述的通信节点通过无线网络与主控计算机之间进行交互。 10. The system of things according to claim I, characterized by further comprising a plurality of communication nodes provided in the field of livestock, the animal identification system and the communication node, livestock and environmental information detection system behavior detection system interaction; the nodes interact through a communication between the wireless network and the host computer.
CN 201220164846 2012-04-18 2012-04-18 Intelligent things network system for livestock and poultry farm CN202694093U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220164846 CN202694093U (en) 2012-04-18 2012-04-18 Intelligent things network system for livestock and poultry farm

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220164846 CN202694093U (en) 2012-04-18 2012-04-18 Intelligent things network system for livestock and poultry farm

Publications (1)

Publication Number Publication Date
CN202694093U true CN202694093U (en) 2013-01-23

Family

ID=47549681

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201220164846 CN202694093U (en) 2012-04-18 2012-04-18 Intelligent things network system for livestock and poultry farm

Country Status (1)

Country Link
CN (1) CN202694093U (en)

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103235540A (en) * 2013-05-07 2013-08-07 东北农业大学 Multi-source information sensing equipment for animal house environment
CN103583402A (en) * 2013-11-16 2014-02-19 大连岭前农业专业合作社 Temperature adjusting system for quail brooding house
CN103809564A (en) * 2014-01-28 2014-05-21 洛阳理工学院 Intelligent pasture system based on Zigbee technology
CN103828728A (en) * 2013-03-03 2014-06-04 中南林业科技大学 Intelligent breeding method
CN103885401A (en) * 2014-02-26 2014-06-25 淮安信息职业技术学院 Intelligent management and control system for livestock breeding environment
CN104360651A (en) * 2014-10-20 2015-02-18 成都世纪智慧科技有限公司 Captive environment monitoring system
CN104750043A (en) * 2013-12-30 2015-07-01 南京理工大学常熟研究院有限公司 Intensive pig farm bio-safety perception system
CN105334813A (en) * 2014-08-13 2016-02-17 吉林农业大学 RFID intelligent monitoring system for deer cultivation based on the Internet of Things
CN106226836A (en) * 2016-08-29 2016-12-14 北京农业信息技术研究中心 Chip acquisition device and method in poultry body based on Terahertz Technology
CN106444925A (en) * 2016-08-08 2017-02-22 南通大学 Livestock and poultry house environment monitoring system based on Internet of Things technology and working method thereof
CN106530651A (en) * 2015-09-14 2017-03-22 范石军 Intelligent detection and elimination device of livestock and poultry house
CN107168418A (en) * 2017-05-03 2017-09-15 合肥岭牧农产品有限公司 Raise pigs automatically-monitored equipment

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103828728A (en) * 2013-03-03 2014-06-04 中南林业科技大学 Intelligent breeding method
CN103828728B (en) * 2013-03-03 2015-05-13 中南林业科技大学 Intelligent breeding method
CN103235540A (en) * 2013-05-07 2013-08-07 东北农业大学 Multi-source information sensing equipment for animal house environment
CN103583402A (en) * 2013-11-16 2014-02-19 大连岭前农业专业合作社 Temperature adjusting system for quail brooding house
CN104750043A (en) * 2013-12-30 2015-07-01 南京理工大学常熟研究院有限公司 Intensive pig farm bio-safety perception system
CN103809564A (en) * 2014-01-28 2014-05-21 洛阳理工学院 Intelligent pasture system based on Zigbee technology
CN103885401A (en) * 2014-02-26 2014-06-25 淮安信息职业技术学院 Intelligent management and control system for livestock breeding environment
CN105334813A (en) * 2014-08-13 2016-02-17 吉林农业大学 RFID intelligent monitoring system for deer cultivation based on the Internet of Things
CN104360651A (en) * 2014-10-20 2015-02-18 成都世纪智慧科技有限公司 Captive environment monitoring system
CN106530651A (en) * 2015-09-14 2017-03-22 范石军 Intelligent detection and elimination device of livestock and poultry house
CN106444925A (en) * 2016-08-08 2017-02-22 南通大学 Livestock and poultry house environment monitoring system based on Internet of Things technology and working method thereof
CN106226836A (en) * 2016-08-29 2016-12-14 北京农业信息技术研究中心 Chip acquisition device and method in poultry body based on Terahertz Technology
CN107168418A (en) * 2017-05-03 2017-09-15 合肥岭牧农产品有限公司 Raise pigs automatically-monitored equipment

Similar Documents

Publication Publication Date Title
Patel et al. Internet of things-IOT: definition, characteristics, architecture, enabling technologies, application & future challenges
Jawad et al. Energy-efficient wireless sensor networks for precision agriculture: A review
US20070008150A1 (en) Long-range cattle identification system
CN202886979U (en) Agricultural production remote monitoring and intelligent decision making system based on Internet of Things
US8643495B2 (en) Internet of things based farm greenhouse monitor and alarm management system
Ray Internet of things for smart agriculture: Technologies, practices and future direction
Simbeye et al. Design and deployment of wireless sensor networks for aquaculture monitoring and control based on virtual instruments
CN101236410A (en) Intelligent irrigation fertilizing decision-making control system
CN102324203A (en) Comprehensive practical training device for Internet of things
CN102981484B (en) Greenhouse intelligent control system based on internet of things
CN100493212C (en) Intelligent early warning system for field crop pest and disease disasters
CN102868749A (en) Agricultural planting and breeding-based Internet of things cloud service system and service flow method
CN102880156A (en) Intelligent monitoring method and system for fish tank
CN102289920A (en) An energy-saving wireless multi-hop remote intelligent monitoring and early warning system of agriculture
CN102789222A (en) Intelligent measurement and control system of greenhouse based on internet of things
Hwang et al. Study of the ubiquitous hog farm system using wireless sensor networks for environmental monitoring and facilities control
CN101894220A (en) Livestock/poultry health condition data acquisition system
CN102014165A (en) Remote agricultural information intelligent analysis system and agricultural environment regulation and control method
CN204347593U (en) A kind of intelligent greenhouse supervisory system based on technology of Internet of things
CN102647475B (en) A kind of intelligentized Internet of things system of livestock and poultry farm and Internet of Things method
CN104396865B (en) Oestrus of sow multi-antenna and method
Hwang et al. A wireless sensor network-based ubiquitous paprika growth management system
CN102395221A (en) Museum environmental monitoring system based on wireless sensing network
Ibayashi et al. A reliable wireless control system for tomato hydroponics
CN201897728U (en) Intelligent monitoring system

Legal Events

Date Code Title Description
C14 Granted