CN105334813A - RFID intelligent monitoring system for deer cultivation based on the Internet of Things - Google Patents

Abstract

The invention relates to an RFID intelligent monitoring system for deer cultivation based on the Internet of Things, and belongs to the technical field of deer cultivation. The system comprises a plurality of wireless sensor network nodes, a ZigBee routing node, a ZigBee Ethernet gateway, a server, a client, and a video monitoring system. The plurality of wireless sensor network nodes is connected with the ZigBee Ethernet gateway through the ZigBee routing node. The ZigBee Ethernet gateway is connected to the server, and then is connected with the client, so as to transmit data. The video monitoring system comprises a camera, a switch, a hard disk video recorder and a display. The camera is connected with the hard disk video recorder through the switch, so as to receive video data of each deer enclosure, and to display data through the display. The wireless sensor network nodes comprises an electronic neck ring, a radio frequency reading and writing monitoring node, a drinking monitoring node, a feeding monitoring node, a spraying control node, and a sun exposure monitoring node. The system can achieve the intelligent regulation and control of the environment of a deer farm, the scientific feeding management and intelligent early warning for disease prevention, and improves the quality and productivity of deer products.

Description

Based on the RFID deer cultivation intelligent monitor system of Internet of Things

Technical field

The present invention relates to a kind of RFID deer based on Internet of Things cultivation intelligent monitor system, belong to Sika Deer Farming technical field.

Background technology

Shi Yang deer big country of China, existing hurdle sika deer about 600,000, ranks first in the world.Sika deer is the main medicinal economic animal in the world, and the fundamental purpose of propagating artificially of sika deer obtains pilose antler, and pilose antler has special efficacy, and secondary product kind is many, and purposes is wide, is the valuable cargo of the domestic and foreign export of China.As the township of Sika Deer In China, the sika deer population in Jilin Province is with the obvious advantage.

From 2011, a series of policies that government of Jilin Province issues, task-aware points out domestic sika deer to develop as Jilin Province's characteristic resources industrial emphases, under the prerequisite keeping deer wild nature, further construction criteria breeding scale, to breed and production base, improve product quality, lengthening manufacturing chain bar, form the development pattern of large input, large market, famous brand, large benefit, grow in " township of Sika Deer In China ".

Under the promotion of national policy guiding, through the development of nearly decades, family's deer cultivation has begun to take shape industrial system.Raising the fundamental purpose of deer is pilose antler for obtaining high yield and high quality and higher economic benefit.But in the production practices of foster deer, have many factors can have influence on the growth of pilose antler and the economic benefit of foster deer, wherein the speed of antler growth and weather conditions have close relationship.Weather conditions comprise many factors such as illumination, temperature, humidity, and they play a part combined influence jointly to the growth of pilose antler.Scientific experiment and facts have proved, light application time length can promote the growth of pilose antler, increases output of pilose antler.Temperature and humidity also has a significant impact growing of pilose antler.Early spring, temperature was low, and sunlight is weak, and humidity is little, and antler growth just slowly.Summer temperature is high, and epidemic disaster is suitable for, and antler growth is just fast.If drought in summer is short of rain, antler growth is just grown slowly; First feelings after rain, temperature is high, high humidity, antler growth just fast especially.So the weather conditions that warm moist, light application time are long are the optimal environment of antler growth.Meanwhile, facts have proved; Good feeding and management, is conducive to the growth of pilose antler, improves output of pilose antler; The health status of deer is better, and output of pilose antler is higher.

The problem long-term existence such as at present, deer farm still adopts traditional feeding manner, and the product quality caused due to human factor is unstable, yield poorly, of poor benefits, resource loss is serious.At present, the system of a set of maturation is not also had can to realize automatic monitoring man deer breeding environment.Although the technology based on the RFID of Internet of Things has been applied among the automatic monitoring of pig, milk cattle cultivating, but the life habit due to deer is different from the life habit of pig, milk cow, the wild environment of deer will be simulated by deer plant, so it is still not directly applied among deer cultivation.

There is shortcomings in existing relevant livestock-raising technology, make it in promoting the use of, run into problems.As (one) animal electronic tag can only identify every deer, store the ID of deer, the quarantine data message such as time, age, memory space is little, function singleness, be two independently systems with the system of monitoring animal health situation, current animal electronic tag is still based on ear tag, and most raiser is based on peasant, most peasants is unwilling to select ear tag, is afraid of that it affects the growth of domestic animal.And in the present invention, the health condition of RFID identification technology with monitoring animal is combined, design have developed electron term ring.Electron term ring can not only realize all functions that animal electronic tag realizes, and its internal storage space is larger, is integrated with passometer, body temperature trans, can measure the amount of exercise of deer and relative shell temperature.

(2) the RFID radio-frequency recognition system in existing livestock farms and environmental monitoring system are two independently work systems, and each frequency read/write must arrange a network address, its data must be transferred to server by route, switch, wireless self-networking can not be realized by all converging information to after a bit, then upload onto the server.And radio frequency is read and write technology, sensor technology and wireless sensor network technology and is combined by patent of the present invention, and apply ZigBee technology and other working nodes form a wireless sensor network, can server be upload the data to by ZigBee ethernet gateway, greatly reduce wiring, cost-saving, installation is more convenient.

(3) the technology of regulating illumination intensity is applied not wherein at present in existing cattle-breeding system, monitor node at sunshine in the present invention, for the specific demand of antler growth to intensity of illumination, light application time, in conjunction with expert system, Intelligent adjustment is carried out to the equipment of deer field, improve deer product yield and quality.

Summary of the invention

Technical matters to be solved by this invention be to provide a kind of deployment operation simple, install convenient, with low cost, intelligent control can be carried out to deer field environment, disease be carried out to intelligent early-warning and diagnosis, nursings that deer is become more meticulous, monitoring deer animation the RFID deer based on Internet of Things cultivate intelligent monitor system.

The technical scheme that the present invention solves the problems of the technologies described above is as follows:

One, a kind of cultivation of the RFID deer based on Internet of Things intelligent monitor system comprises multiple wireless sensor network node, ZigBee routing node, ZigBee ethernet gateway, server, client and video monitoring system; Wherein said wireless sensor network node connects ZigBee ethernet gateway by ZigBee routing node, and ZigBee ethernet gateway access server connects client to transmit data; Wherein said video monitoring system comprises video camera, switch, DVR and display, and described video camera connects DVR to receive the data of each deer enclosure video information by switch, and shows data by display.

Preferred as technique scheme, described wireless sensor network node comprise electron term ring, radio frequency read-write monitoring node, drinking-water monitor node, feed monitor node, spray Controlling vertex and sunshine monitor node; Described wireless sensor network node and ZigBee routing node by MANET by converging information to ZigBee ethernet gateway.

Preferred as technique scheme, described client terminal is used for the identity information of real time inspection every deer, the growing state information of every deer, the ambient parameter information of deer enclosure, product quality analysis result queries and cultivation equipment management.

Preferred as technique scheme, described server comprises database and expert decision system;

Database, for the deer identity information of the above-mentioned record of store and management, the deer health information real-time monitored, deer enclosure ambient parameter information, deer drinking times information, deer feed number information, deer enclosure illumination intensity information, deer field video monitoring information, the deer field infrastructure device information of outside input, the deer enclosure suitable environment information of outside input, the best deer health status information of outside input and expert decision-making information;

Expert decision system, for comparing the deer enclosure ambient parameter information of Real-time Collection, deer health status information and optimal threshold; Start deer breeding environment digitizing regulator control system, disease intelligent early-warning and diagnostic system, digitized fine feeding system and animation monitoring traceability system, the standard information built-in according to expert decision system makes corresponding expert decision-making.

Two, based on a RFID deer cultivation intelligent control method for Internet of Things, step is comprised:

(1) on the neck of every deer, wearing an electron term ring, distinguishing every deer, the amount of exercise of monitoring the every day of every deer and Temperature changing situation for identifying;

(2) desired location in deer field dispose radio frequency read-write monitoring node, drinking-water monitor node, feed monitor node, spray Controlling vertex, sunshine monitor node, form wireless sensor network;

Radio frequency read-write monitoring node, for reading the electron term ring entering sensing region, carries out identification location simultaneously, and monitors the breeding environment of deer enclosure;

Drinking-water monitor node carries out identification record to the drinking times of deer when being used for Real-time, and Real-Time Monitoring SEA LEVEL VARIATION, intelligent moisturizing simultaneously;

Feed monitor node is used for the feed number of times of Real-Time Monitoring every deer and meal situation and record, simultaneously intelligent supplementary feeding;

Spray Controlling vertex, when the deer enclosure temperature that radio frequency read-write monitoring node monitors exceedes the threshold value of setting, system starts spray Controlling vertex automatically, to deer enclosure spraying trickle, carries out cooling relieving summer-heat to deer enclosure;

The intensity of illumination of monitor node Real-Time Monitoring deer at sunshine field, when intensity of illumination is lower than optimum illumination intensity, this illumination monitoring node will start light-supplementing system, and science increases light application time;

(3) video monitoring system is disposed in deer field, for the animation of Real-Time Monitoring deer field situation and deer;

(4) building database, by the data information memory of above-mentioned each node Real-time Collection in this database; Described database is preset with the deer field infrastructure device information of outside input, the deer enclosure suitable environment information of outside input, the deer optimum health situation information of outside input and expert decision-making information;

(5) the deer enclosure ambient parameter information of Real-time Collection, deer health status information and optimal threshold are compared; Start deer breeding environment digitizing regulator control system, disease intelligent early-warning and diagnostic system, digitized fine feeding system, the standard information built-in according to expert decision system makes corresponding expert decision-making; Described expert data library information is the built-in standard information of expert decision system; Described standard information, adopts data mining technology, carries out intellectual analysis and regulation and control;

(6) based on described expert decision-making, auto-control is carried out according to the deer enclosure ambient parameter information of Real-time Collection, deer health status information; When needing the animation inquiring about deer, access described database by user's access terminal or portable mobile termianl in the mode of network.

Preferred as technique scheme, described radio frequency read-write monitoring node comprises wireless microprocessing unit, sensor unit, radio frequency read-write cell, data transmission unit, debugging unit and Power Management Unit; Described sensor unit, radio frequency read-write cell, data transmission unit, debugging unit are connected with wireless microprocessing unit respectively.

Preferred as technique scheme, described monitor node at sunshine comprise wireless microprocessing unit, illuminance collecting unit, day regulating and controlling illumination unit, data transmission unit, Power Management Unit and debugging unit; Described illuminance collecting unit, day regulating and controlling illumination unit, data transmission unit is connected with wireless microprocessing unit respectively with debugging unit.

Preferred as technique scheme, described sensor unit comprises Temperature Humidity Sensor, ammonia gas sensor and their related circuit interface, the temperature in Real-time Collection deer enclosure, humidity, ammonia concentration; Radio frequency read-write cell comprises RFID base station module, acousto-optic hint circuit, relay drive circuit; Data transmission unit enclosed mass 6DB2.4GHz antennal interface, RS232 communication interface, USB2.0 communication interface; Debugging unit enclosed mass reset circuit, LED indicating circuit, RS232 AccessPort circuit; Power Management Unit is electric power storage power supply, for wireless microprocessing unit, sensor unit, radio frequency read-write cell, data transmission unit, debugging unit are powered.

Preferred as technique scheme, described illuminance collecting unit adopts BH1750FVI digital light according to intensity of illumination in intensity sensor Real-time Collection deer enclosure house, is connected with wireless microprocessing unit by IIC serial communication interface.

Preferred as technique scheme, described wireless microprocessing unit is technical grade ZigBee module, and its effective wireless communication distance is up to 1km.

The invention has the beneficial effects as follows: on the basis of simulation deer wild environment, application RFID of Internet-of-things technology, establishes a set of deer cultivation intelligent monitor system integrating deer breeding environment digitizing regulation and control, disease intelligent early-warning and diagnosis, digitized fine and feed.Deficiency for existing livestock farms is improved, make cultivation equipment have more intelligent, install more convenient, keep in repair convenient, decrease wiring, greatly save cost, simultaneously for the specific demand of antler growth to environment, raising, prevention from suffering from the diseases, realize the intelligent control to deer field device, improve deer product quality and output.

Accompanying drawing explanation

Fig. 1 is the RFID deer cultivation intelligent monitor system topological diagram based on Internet of Things;

Fig. 2 is electron term loops composition of the present invention;

Fig. 3 is radio frequency of the present invention read-write monitoring node structural drawing;

Fig. 4 is monitor node structural drawing at sunshine of the present invention.

Embodiment

Be described principle of the present invention and feature below in conjunction with accompanying drawing, example, only for explaining the present invention, is not intended to limit scope of the present invention.

As shown in Figure 1, The embodiment provides a kind of RFID deer based on Internet of Things cultivation intelligent monitor system, comprise multiple wireless sensor network node, ZigBee routing node, ZigBee ethernet gateway, server, client and video monitoring system; Wherein said wireless sensor network node connects ZigBee ethernet gateway by ZigBee routing node, and ZigBee ethernet gateway access server connects client to transmit data; Wherein said video monitoring system comprises video camera, switch, DVR and display, and described video camera connects DVR to receive the data of each deer enclosure video information by switch, and shows data by display.

Described wireless sensor network node comprise electron term ring, radio frequency read-write monitoring node, drinking-water monitor node, feed monitor node, spray Controlling vertex and sunshine monitor node; Described wireless sensor network node and ZigBee routing node by MANET by converging information to ZigBee ethernet gateway.

Described client terminal is used for the identity information of real time inspection every deer, the growing state information of every deer, the ambient parameter information of deer enclosure, product quality analysis result queries and cultivation equipment management.

Described server comprises database and expert decision system;

Database, for the deer identity information of the above-mentioned record of store and management, the deer health information real-time monitored, deer enclosure ambient parameter information, deer drinking times information, deer feed number information, deer enclosure illumination intensity information, deer field video monitoring information, the deer field infrastructure device information of outside input, the deer enclosure suitable environment information of outside input, the best deer health status information of outside input and expert decision-making information;

Expert decision system, for comparing the deer enclosure ambient parameter information of Real-time Collection, deer health status information and optimal threshold; Start deer breeding environment digitizing regulator control system, disease intelligent early-warning and diagnostic system, digitized fine feeding system and animation monitoring traceability system, the standard information built-in according to expert decision system makes corresponding expert decision-making.

Based on a RFID deer cultivation intelligent control method for Internet of Things, comprise step:

(1) on the neck of every deer, an electron term ring is worn, for recording deer identity information and Real-Time Monitoring deer health status; ;

(2) desired location in deer field dispose radio frequency read-write monitoring node, drinking-water monitor node, feed monitor node, spray Controlling vertex, sunshine monitor node, form wireless sensor network;

Radio frequency read-write monitoring node is for reading electron term ring information and the environmental information of Real-Time Monitoring plant deer enclosure;

Drinking-water monitor node is used for the drinking times of Real-Time Monitoring deer, intelligent moisturizing;

Feed monitor node is used for feed number of times, the intelligent supplementary feeding of Real-Time Monitoring deer;

Spray Controlling vertex is for regulating temperature and the humidity of deer enclosure;

Sunshine, monitor node was used for monitoring, regulation and control deer enclosure optimum intensity of illumination and light application time;

(3) video monitoring system is disposed in deer field, for the animation of Real-Time Monitoring deer field situation and deer;

(4) building database, by the data information memory of above-mentioned each node Real-time Collection in this database; Described database is preset with the deer field infrastructure device information of outside input, the deer enclosure suitable environment information of outside input, the deer optimum health situation information of outside input and expert decision-making information;

(5) the deer enclosure ambient parameter information of Real-time Collection, deer health status information and optimal threshold are compared; Start deer breeding environment digitizing regulator control system, disease intelligent early-warning and diagnostic system, digitized fine feeding system, the standard information built-in according to expert decision system makes corresponding expert decision-making; Described expert data library information is the built-in standard information of expert decision system; Described standard information, adopts data mining technology, carries out intellectual analysis and regulation and control;

(6) based on described expert decision-making, auto-control is carried out according to the deer enclosure ambient parameter information of Real-time Collection, deer health status information; When needing the animation inquiring about deer, access described database by user's access terminal or portable mobile termianl in the mode of network.

Fig. 2 is electron term loops composition of the present invention, in this example, described RFID electron term ring is a kind of RFID be worn on the neck of deer, this electron term ring can not only identify every deer, store the ID of deer, the quarantine data message such as time, age, and its inside is integrated with passometer, body temperature trans, the amount of exercise of deer and relative shell temperature can be measured.

RFID electron term ring inner structure comprises radio frequency interface part 11, control section 12 and Sensor section 13;

Radio frequency interface part 11 forms primarily of receiving unit 14, transmitting portion 15 and omnibus circuit part 16; The main function of receiving unit 14 is that the ASK am signals that antenna receives is carried out demodulation, recovers digital baseband signal, then delivers to control section and carry out decoding process; The major function of transmitting portion 15 is that the digitally encoded signal handled well by control section carries out ASK amplitude modulation(PAM), after amplifying, delivers to the radio frequency read-write cell 26 that antenna end issues radio frequency read-write monitoring node; Omnibus circuit part 16 to refer in radio frequency interface part except transmission and reception unit divides remaining circuit, comprises power generation circuit, amplitude limiter circuit, clock recovery circuitry, reset circuit etc.;

Control section 12 comprises microprocessor 18, storer 19 and coding-decoding circuit 17;

Fig. 3 is radio frequency of the present invention read-write monitoring node structural drawing, in this example, described radio frequency read-write monitoring node comprises wireless microprocessing unit 25, sensor unit 23, radio frequency read-write cell 26, data transmission unit 22, debugging unit 24 and Power Management Unit 30; Described sensor unit 23, radio frequency read-write cell 26, data transmission unit 22, debugging unit 24 are connected with wireless microprocessing unit 25 respectively;

External 1 ~ 4 omnidirectional antenna of radio frequency read-write monitoring node realizes the comprehensive covering to deer enclosure;

Wireless microprocessing unit 25 adopts the JN5148-001-M04 module of technical grade 32bit super low-power consumption, and its acp chip is a kind of high-power ZigBee chip, i.e. JN5148, and its effective wireless communication distance is up to 1km;

Sensor unit 23 comprises Temperature Humidity Sensor, ammonia gas sensor and their related circuit interface, and it can temperature, humidity, ammonia concentration in Real-time Collection deer enclosure; Radio frequency read-write cell 26 comprises RFID base station module, acousto-optic hint circuit, relay drive circuit; Data transmission unit 22 enclosed mass 6DB2.4GHz antennal interface, RS232 communication interface, USB2.0 communication interface; Debugging unit 24 enclosed mass reset circuit, LED indicating circuit, RS232 AccessPort circuit; Power Management Unit 30 is electric power storage power supply, for wireless microprocessing unit 25, sensor unit 23, radio frequency read-write cell 26, data transmission unit 22, debugging unit power 24, the civil power of AC220V is converted to DC12V, DC5V, DC3.3V, DC3V and DC-3V power supply; DC12V and DC5V is that radio frequency read-write cell 26 is powered, DC3V and DC-3V is that sensor unit 23 is powered, and DC3.3V is that wireless microprocessing unit 25, data transmission unit 22 and debugging unit 24 are powered;

Fig. 4 is monitor node structural drawing at sunshine of the present invention, in this example, described monitor node at sunshine comprise wireless microprocessing unit 33, illuminance collecting unit 34, day regulating and controlling illumination unit 35, data transmission unit 31, Power Management Unit 36 and debugging unit 32; Described illuminance collecting unit 34, day regulating and controlling illumination unit 35, data transmission unit 31 is connected with wireless microprocessing unit 33 respectively with debugging unit 32;

Wireless microprocessing unit 33 adopts the JN5148-001-M04 module of technical grade 32bit super low-power consumption, and its acp chip is a kind of high-power ZigBee chip, i.e. JN5148, and its effective wireless communication distance is up to 1km;

Illuminance collecting unit 34 utilizes BH1750FVI digital light according to intensity of illumination in intensity sensor Real-time Collection deer enclosure house, is connected by the DIO of IIC serial communication interface with wireless microcontroller JN5148;

Day regulating and controlling illumination unit 35 comprise relay control module, current regulation module, steer mode commutation circuit and day illuminator; Relay control module, for isolating day regulating and controlling illumination unit and wireless microprocessing unit and illuminance collecting unit, controls lighting and closedown of day illuminator simultaneously; Current regulation module controls the working current of day illuminator, thus the brightness of regulation and control day illuminator; Steer mode commutation circuit is used for the switching of auto-control pattern and manual regulation and control model; Day, illuminator was used for deer enclosure light filling, and the extended day is according to duration;

Data transmission unit 31 enclosed mass 6DB2.4GHz antennal interface, RS232 communication interface, USB2.0 communication interface; 2.4GHz antennal interface is used for radio frequency read-write monitoring node and intercoms mutually with other radio nodes in wireless sensor network, and RS232 communication interface, USB2.0 communication interface are for node and the communication of host computer immediate data or on-line debugging;

Debugging unit 32 enclosed mass reset circuit, LED indicating circuit, RS232 AccessPort circuit; Reset circuit is for the running status of the radio frequency read-write monitoring node that resets; LED indicating circuit comprises the light emitting diode of red, green, yellow three different colours, green light is power light, amber light bright expression node startup optimization is normal, red colored lamp instructs node networking state, when red represents that this node successfully adds wireless sensor network, can normally to host computer transmitting data information;

Power Management Unit 36 is electric power storage power supply, for wireless microprocessing unit 33, illuminance collecting unit 34, day regulating and controlling illumination unit 35, data transmission unit 31, debugging unit 32 power, and the civil power of AC220V is converted to DC12V, DC5V, DC3.3V power supply; DC12V, DC5V be day regulating and controlling illumination unit 35 to power, DC3.3V is that wireless microprocessing unit 33, data transmission unit 31, illuminance collecting unit 34 and debugging unit 32 are powered;

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (11)

1., based on a RFID deer cultivation intelligent monitor system for Internet of Things, comprise multiple wireless sensor network node, ZigBee routing node, ZigBee ethernet gateway, server, client and video monitoring system; Wherein said wireless sensor network node connects ZigBee ethernet gateway by ZigBee routing node, and ZigBee ethernet gateway access server connects client to transmit data; Wherein said video monitoring system comprises video camera, switch, DVR and display, and described video camera connects DVR to receive the data of each deer enclosure video information by switch, and shows data by display.

2. a kind of RFID deer based on Internet of Things cultivation intelligent monitor system according to claim 1, is characterized in that: described wireless sensor network node comprise electron term ring, radio frequency read-write monitoring node, drinking-water monitor node, feed monitor node, spray Controlling vertex and sunshine monitor node; Described wireless sensor network node and ZigBee routing node by MANET by converging information to ZigBee ethernet gateway.

3. a kind of RFID deer based on Internet of Things cultivation intelligent monitor system according to claim 1, is characterized in that: described client terminal is used for the identity information of real time inspection every deer, the growing state information of every deer, the ambient parameter information of deer enclosure, product quality analysis result queries and cultivation equipment management.

4. a kind of RFID deer based on Internet of Things cultivates intelligent monitor system according to claim 1, and its feature exists

In: described server software system comprises database and expert decision system;

Database, for deer identity information, the deer health status that real-time monitors of the above-mentioned record of store and management

Information, deer enclosure ambient parameter information, deer drinking times information, deer feed number information, deer enclosure illumination intensity information, deer enclosure video monitoring information, the deer field infrastructure device information of outside input, the deer enclosure suitable environment information of outside input, the best deer health status information of outside input and expert decision-making information;

Expert decision system, for comparing each deer enclosure ambient parameter information of Real-time Collection, deer health status information and optimal threshold; Start deer breeding environment digitizing regulator control system, disease intelligent early-warning and diagnostic system, digitized fine feeding system and animation monitoring traceability system, the standard information built-in according to expert decision system makes corresponding expert decision-making.

5., based on a RFID deer cultivation intelligent control method for Internet of Things, it is characterized in that, comprise step:

The neck of every deer is worn an electron term ring, for recording deer identity information and Real-Time Monitoring deer health status;

Desired location in deer field dispose radio frequency read-write monitoring node, drinking-water monitor node, feed monitor node, spray Controlling vertex, sunshine monitor node, form wireless sensor network;

Radio frequency read-write monitoring node is for reading electron term ring information and the environmental information of Real-Time Monitoring plant deer enclosure;

Drinking-water monitor node is used for the drinking times of Real-Time Monitoring deer, intelligent moisturizing;

Feed monitor node is used for feed number of times, the intelligent supplementary feeding of Real-Time Monitoring deer;

Spray Controlling vertex is for regulating temperature and the humidity of deer enclosure;

Sunshine, monitor node was used for monitoring, regulation and control deer deer enclosure optimum intensity of illumination and light application time;

Video monitoring system is disposed, for the animation of Real-Time Monitoring deer field situation and deer in deer field;

Building database, by the data information memory of above-mentioned each node Real-time Collection in this database; Described database is preset with the deer field infrastructure device information of outside input, the deer enclosure suitable environment information of outside input, the deer optimum health situation information of outside input and expert decision-making information;

Each deer enclosure ambient parameter information of Real-time Collection, deer health status information and optimal threshold are compared; Start deer breeding environment digitizing regulator control system, disease intelligent early-warning and diagnostic system, digitized fine feeding system, the standard information built-in according to expert decision system makes corresponding expert decision-making; Described expert data library information is the built-in standard information of expert decision system; Described standard information, adopts data mining technology, carries out intellectual analysis and regulation and control;

Based on described expert decision-making, carry out auto-control according to the deer enclosure ambient parameter information of Real-time Collection, deer health status information; When needing the animation inquiring about deer, access described database by user's access terminal or portable mobile termianl in the mode of network.

6. a kind of RFID deer based on Internet of Things cultivates intelligent monitor system according to claim 2, it is characterized in that: described electron term ring comprises radio frequency interface part (11), control section (12) and Sensor section (13); Radio frequency interface part (11) comprises receiving unit (14), transmitting portion (15) and omnibus circuit part (16); Control section (12) comprises microprocessor (18), storer (19) and coding-decoding circuit (17); Sensor section (13) comprises body temperature trans (20) and passometer (21).

7. a kind of RFID deer based on Internet of Things cultivates intelligent monitor system according to claim 2, it is characterized in that, described radio frequency read-write monitoring node comprises wireless microprocessing unit (25), sensor unit (23), radio frequency read-write cell (26), data transmission unit (22), debugging unit (24) and Power Management Unit (30); Described sensor unit (23), radio frequency read-write cell (26), data transmission unit (22), debugging unit (24) are connected with wireless microprocessing unit (25) respectively.

8. a kind of RFID deer based on Internet of Things cultivates intelligent monitor system according to claim 2, it is characterized in that, described monitor node at sunshine comprises wireless microprocessing unit (33), illuminance collecting unit (34), day regulating and controlling illumination unit (35), data transmission unit (31), Power Management Unit (36) and debugging unit (32); Described illuminance collecting unit (34), day regulating and controlling illumination unit (35), data transmission unit (31) are connected with wireless microprocessing unit (33) respectively with debugging unit (32).

9. a kind of deer cultivation intelligent monitor system according to claim 7, it is characterized in that, described sensor unit (23) comprises Temperature Humidity Sensor, ammonia gas sensor and their related circuit interface, the temperature in Real-time Collection deer enclosure, humidity, ammonia concentration; Radio frequency read-write cell (26) comprises RFID base station module (28), acousto-optic hint circuit (27), relay drive circuit (29); Data transmission unit (22) enclosed mass 6DB2.4GHz antennal interface, RS232 communication interface, USB2.0 communication interface; Debugging unit (24) enclosed mass reset circuit, LED indicating circuit, RS232 AccessPort circuit; Power Management Unit (30) is electric power storage power supply, is wireless microprocessing unit (25), sensor unit (23), radio frequency read-write cell (26), data transmission unit (22), debugging unit (24) power supply.

10. a kind of deer cultivation intelligent monitor system according to claim 8, it is characterized in that, described illuminance collecting unit (34) adopts BH1750FVI digital light according to intensity of illumination in intensity sensor Real-time Collection deer enclosure house, is connected with wireless microprocessing unit (33) by IIC serial communication interface.

11. a kind of deer cultivation intelligent monitor systems according to claim 7,8, it is characterized in that, described wireless microprocessing unit (25) and wireless microprocessing unit (33) are technical grade ZigBee module.