CN110260884A - A kind of biosurveillance method, terminal and server - Google Patents

Abstract

This application discloses a kind of biosurveillance methods, terminal and server, are related to field of computer technology, for carrying out accurate comprehensive monitoring to monitored object.This method comprises: terminal obtains the biology character of monitored object；The terminal obtains the behavioural characteristic of the monitored object；The terminal obtains the positioning change information of the monitored object；The terminal obtains the move mode of the monitored object according to the behavioural characteristic and the positioning change information；The terminal obtains environmental information；The terminal obtains the active state of the monitored object according to the biology character, the move mode, the environmental information and judgment models.The embodiment of the present application is applied to the monitoring of biology.

Description

A kind of biosurveillance method, terminal and server

Technical field

This application involves field of computer technology more particularly to a kind of biosurveillance methods, terminal and server.

Background technique

As that studies wild animal gos deep into, the monitoring location technology of wild animal is also rapidly developing, the prior art In generally by animal dress monitor terminal come to wild animal carry out information collection, monitoring and positioning, to reach tracking With the purpose to save the wild animals.

Wherein, it is more that positioning is carried out by global positioning system (global positioning system, GPS) Common mode, but GPS needs biggish electric current driving to reach the communication power requirement of satellite, and the battery of monitor terminal can only Maintain the shorter time.It can be to dynamic by Radio Frequency Identification Technology (radio frequency identification, RFID) The quantity of object group is counted, but administrator is needed to carry out short distance operation, all larger to the risk of animal and administrator.It is right Pass through the second generation (2nd generation, 2G) network or the as coming body temperature, breathing etc. in the biology character of acquisition animal In four generations (4th generation, 4G), network was sent to server, but 2G network has developed to latter stage at present, the number that can be carried It measures limited, it is difficult to support a large amount of monitor terminals to network, although 4G network transmission speed is fast, access amount is big, bandwidth availability ratio It is low, and more power consumption.Meanwhile existing monitor terminal only has basic information collection function, is unable to comprehensive monitoring, Er Qiehui Often there is wrong report situation, analysis processing is all created great difficulties, workload is significantly increased.

Summary of the invention

Embodiments herein provides a kind of biosurveillance method, terminal and server, supervises in the prior art for solving The problem for controlling object monitor difficulty carries out accurate comprehensive monitoring to monitored object.

In order to achieve the above objectives, embodiments herein adopts the following technical scheme that

In a first aspect, embodiments herein provides a kind of biosurveillance method, comprising:

The biology character of terminal acquisition monitored object；

The terminal obtains the behavioural characteristic of the monitored object；

The terminal obtains the positioning change information of the monitored object；

The terminal obtains the move mode of the monitored object according to the behavioural characteristic and the positioning change information；

The terminal obtains environmental information；

The terminal obtains described according to the biology character, the move mode, the environmental information and judgment models The active state of monitored object.

Second aspect, embodiments herein provide a kind of biosurveillance method, comprising:

Server receives biology character, move mode, environmental information and the active state of monitored object from terminal；

The server is according to the biology character, the move mode, the environmental information, the active state and original Judgment models obtain updated judgment models；

The server sends the updated judgment models to the terminal.

The third aspect, embodiments herein provide a kind of terminal, comprising:

Acquisition module, for obtaining the biology character of monitored object；

The acquisition module is also used to obtain the behavioural characteristic of the monitored object；

Communication module is also used to obtain the positioning change information of the monitored object；

Processing module, for obtaining the movement of the monitored object according to the behavioural characteristic and the positioning change information Mode；

The acquisition module is also used to obtain environmental information；

The processing module, the biology character for being also used to be obtained according to the acquisition module, the move mode, institute It states environmental information and judgment models obtains the active state of the monitored object.

Fourth aspect, embodiments herein provide a kind of server, comprising:

Communication module, for receiving biology character, move mode, environmental information and the moving type of monitored object from terminal State；

Processing module, for according to the biology character, the move mode, the environmental information, the active state Updated judgment models are obtained with former judgment models；

The communication module is also used to send the updated judgment models to the terminal.

5th aspect, provides a kind of computer readable storage medium for storing one or more programs, it is one or Multiple programs include instruction, and described instruction makes the computer execute such as first aspect or second aspect when executed by a computer The biosurveillance method.

6th aspect, provides a kind of computer program product comprising instruction, when described instruction is run on computers When, so that computer executes the biosurveillance method as described in first aspect or second aspect.

7th aspect, provides a kind of terminal, comprising: processor and memory, memory is for storing program, processor tune The program stored with memory, to execute biosurveillance method described in above-mentioned first aspect.

Eighth aspect provides a kind of server, comprising: processor and memory, memory is for storing program, processor The program of memory storage is called, to execute biosurveillance method described in above-mentioned second aspect.

Biosurveillance method, the terminal and server of embodiments herein offer pass through terminal and obtain monitored object Biology character, behavioural characteristic, positioning change information, move mode, environmental information, further according to biology character, move mode, environment Information and judgment models obtain the active state of monitored object.By a variety of related datas of terminal automatic collection monitored object, The overall monitor to monitored object information is realized, simultaneously, moreover it is possible to the moving type of monitored object is judged automatically according to related data State avoids and artificially carries out judging wasting time and not accurate enough problem.To solve monitored object prison in the prior art Difficult problem is controlled, accurate comprehensive monitoring is carried out to monitored object.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram for communication system that embodiments herein provides；

Fig. 2 is a kind of hardware structural diagram for terminal that embodiments herein provides；

Fig. 3 is a kind of hardware structural diagram for server that embodiments herein provides；

Fig. 4 is a kind of structural schematic diagram for terminal that embodiments herein provides；

Fig. 5 is a kind of structural schematic diagram for server that embodiments herein provides；

Fig. 6 is a kind of flow diagram for biosurveillance method that embodiments herein provides；

Fig. 7 is the flow diagram for another biosurveillance method that embodiments herein provides.

Specific embodiment

A specific embodiment of the invention is described in further detail with reference to the accompanying drawing.

As shown in Figure 1, embodiments herein provides a kind of communication system.The communication system includes terminal 10, service Device 20 and base station 30.Wherein, terminal 10 can be the wearable devices such as necklace, foot ring.

Wherein, terminal 10 can be by being wirelessly connected with base station, and base station 30 can be connected with server 20 by wired It connects.Terminal 10 can be placed on monitored object by way of wearing, and terminal 10 can obtain monitored object according to demand Biology character, behavioural characteristic, the positioning necessary informations such as change information and environmental information are to execute in the following embodiments of the application Biosurveillance method.

As shown in Fig. 2, embodiments herein provides a kind of hardware structural diagram of terminal.The terminal 10 can wrap Include the components such as processor 110, memory 120, onboard antenna 130, camera 140, sensor 150 and power supply 160.

Wherein, processor 110 is deposited using the various pieces of various interfaces and connection terminal 10 by running or executing The software program in memory 120 is stored up, and calls the data being stored in memory 120, executes the various function of terminal 10 It can and handle data.Memory 120 can be used for storing software program and data, and processor 110, which can be run, is stored in storage The software program or data of device 120.Onboard antenna 130 can be used for receiving and sending messages, and give after can receive the downlink data of base station The processing of processor 110, can be sent to base station for upstream data.Camera 140 can acquire the environment of picture or visual form Data are handled by processor 110.Terminal 10 may include multiple sensors 150, as Temperature Humidity Sensor 151, body temperature pass The other sensors such as sensor 152, heart rate sensor 153, gyroscope 154, acceleration transducer 155.Power supply 160 can pass through electricity Management system and processor 110 are logically contiguous, to realize management charging, electric discharge and power consumption etc. by power-supply management system Function.

As shown in figure 3, embodiments herein provides a kind of structural schematic diagram of server, which includes place Manage device 201, memory 202, communication interface 203 and communication bus 204.

Wherein, processor 201 is for executing the computer executed instructions stored in memory 202, to realize the application In following embodiments the step of biosurveillance method or movement.Memory 202 is used to store the computer for executing application scheme It executes instruction, and controls execution by processor 201.Communication interface 203 is used to carry out interacting message with base station 30.Communication bus 204 for transmitting information between each component of server 20.

It will appreciated by the skilled person that Fig. 2 and structure shown in Fig. 3 are only to illustrate, not to terminal 10 It causes to limit with the structure of server 20.For example, the processor 110 and onboard antenna 130 in terminal 10, which can integrate, to be had Built-in antenna, the built-in chip formula subscriber identification card (embedded-subscriber with unique encodings Identification module, e-SIM) and narrowband Internet of Things (narrow band internet of things, NB- IoT) in the NB-IoT module of chip, power supply 160 can be by the solar battery that can convert solar energy into electrical energy and store It is formed with the voltage conversion device that the voltage of solar battery is converted to normal voltage.

As shown in figure 4, embodiments herein provides a kind of structural schematic diagram of above-mentioned terminal, which includes: Acquisition module 11, processing module 12, communication module 13.

Specifically, acquisition module 11 can be acquired by camera 140 in terminal 10 shown in Fig. 2 and sensor 150 Data necessary to the biosurveillance method of the following embodiments of the application, processing module 12 can pass through terminal 10 shown in Fig. 2 In processor 110 call the computer executed instructions that store in memory 120 to realize the biology of the following embodiments of the application Monitoring method, communication module 13 can be realized by the onboard antenna 130 in terminal 10 shown in Fig. 2 sends and/or receives function Energy.

As shown in figure 5, embodiments herein provides a kind of structural schematic diagram of above-mentioned server, the server 20 packet It includes: communication module 21, processing module 22.

Specifically, communication module 21 can by the communication interface 203 of server 20 shown in Fig. 3 realize send and/or Receive capabilities, processing module 22 can be called in memory 202 by the processor 201 in server 20 shown in Fig. 3 and be stored Computer executed instructions realize the biosurveillance methods of the following embodiments of the application.

Embodiment 1,

Fig. 6 is a kind of flow diagram for biosurveillance method that embodiments herein provides, and is applied to as shown in Figure 1 Communication system in.The biosurveillance method specifically comprises the following steps:

S601, terminal obtain the biology character of monitored object.

Specifically, the acquisition module 11 of terminal 10 obtains the biology character of monitored object.

Wherein, monitored object can be animal, and biology character can be the elementary organisms such as body temperature, heart rate sign.

Terminal 10 is set to the body surface of monitored object by modes such as wearings, while passing through the sensor in terminal 10 The biology character of 150 acquisition monitored object, the body temperature of monitored object is such as acquired by body temperature transducer 152, passes through sensing heart rate The heart rate etc. of the acquisition monitored object of device 153.According to actual needs, a greater variety of sensors 150 can be used to acquire more Detailed biology character, to promote the accuracy of monitoring, the present invention is herein with no restrictions.

Optionally, terminal 10 can judge whether monitored object is according to the biology character and preset condition of monitored object Abnormal condition.When terminal 10 judges that monitored object is in abnormal condition, can be sent by base station 30 to server 20 Warning information and the biology character for transmitting the monitored object got.

S602, terminal obtain the behavioural characteristic of monitored object.

Specifically, the acquisition module 11 of terminal 10 obtains the behavioural characteristic of monitored object.

Wherein, behavioural characteristic can be rolling, acceleration, emergency stop etc..

Terminal 10 can obtain the angle change feelings of monitored object by sensor similar in gyroscope 154 or other function Condition, such as pitch angle detect the movement speed situation of change of monitored object by acceleration transducer 155, such as accelerate, slow down Deng thus judging the current behavioural characteristic of monitored object.

S603, terminal obtain the positioning change information of monitored object.

Specifically, the communication module 11 of terminal 10 obtains the positioning change information of monitored object.

Wherein, positioning change information can be moving direction, moving distance etc..

The communication module 11 of terminal 10 obtains the location information of at least one nearest base station and the instruction letter from base station Breath, instruction information are used to indicate received signal strength indicator (the received signal detected to terminal base station Strength indication, RSSI)；Terminal 10 is according to location information, instruction information and received signal strength (received Signal strength, RSS) algorithm for recognizing fingerprint obtains the location information of monitored object；Terminal 10 is according in the unit time Location information obtains positioning change information.

Terminal 10 determines at least one nearest base station 30 of distance by communication module 11, and Xiang Jizhan 30 sends request, obtains The location information of the base station 30 is taken and RSSI that terminal 10 is detected in base station 30, in conjunction with RSS location fingerprint algorithm The equation group of one group of position solution is obtained, onrecurrent operation is carried out by Chan algorithm, initial alignment coordinate is obtained, by initial alignment Coordinate carries out Taylor series (taylor series) expansion as initial value, calculates error amount, last basis by successive ignition Initial alignment coordinate and error amount are finally positioned.By obtaining the final positioning in the unit time, to judge monitoring pair As the positioning change information within the unit time.According to the actual situation, the location information of the available multiple base stations 30 of terminal 10 Promote the accuracy of positioning with RSSI, the present invention is herein with no restrictions.

S604, terminal obtain the move mode of monitored object according to behavioural characteristic and positioning change information.

Specifically, the processing module 12 of terminal 10 obtains the movement of monitored object according to behavioural characteristic and positioning change information Mode.

Illustratively, such as the behavioural characteristic of acquisition to accelerate, positioning change information is north about 500 meters of movement, then recognizes 500 meters are north being fast moved for monitored object.

S605, terminal obtain environmental information.

Specifically, the acquisition module 11 of terminal 10 obtains environmental information.

Environmental information can be what terminal 10 was analyzed according to the environmental data that acquisition module 11 obtains, wherein Environmental data includes picture or video information, temperature, humidity of ambient enviroment etc..

The environmental data that picture or visual form can be acquired by the camera 140 in terminal 10, is passed by temperature and humidity Sensor 151 obtains the temperature and humidity of surrounding, extracts the image feature data in image, and according to preset algorithm to image spy It levies data and carries out characteristic matching, combination temperature and humidity obtain environmental information, carry out to the environment around monitored object accurate Identification.

It illustratively, is flame according to preset algorithmic match when the image feature data in image, temperature is higher than normal Temperature, when humidity is lower, it can be deduced that environmental information is fire.

Optionally, security level around can be obtained according to environmental information and preset condition, as environmental information be fire when, Surrounding security level is low.

S606, terminal obtain the moving type of monitored object according to biology character, move mode, environmental information and judgment models State.

Specifically, the processing module 12 of terminal 10 is obtained according to biology character, move mode, environmental information and judgment models The active state of monitored object.

Wherein, active state can be the states such as run, is injured, is dead, resting.

In conjunction with the biology character of monitored object, move mode, environmental information and judgment models with accurate judgement monitoring pair The active state of elephant saves and artificially carries out judging according to the collected data wasting time and not accurate enough problem.

Illustratively, when the body temperature of monitored object and heart rate are in normal condition, move mode be it is static, environmental information is When cave, according to judgment models, then available object is in resting state.

Biosurveillance method provided by the embodiments of the present application obtains biology character, the behavior spy of monitored object by terminal Sign, positioning change information, move mode, environmental information, further according to biology character, move mode, environmental information and judgment models Obtain the active state of monitored object.By a variety of related datas of terminal automatic collection monitored object, realize to monitoring pair The overall monitor of image information, simultaneously, moreover it is possible to the active state that monitored object is judged automatically according to related data, avoid artificially into Row judgement wastes time and not accurate enough problem.It is right to solve the problems, such as that monitored object monitoring is difficult in the prior art Monitored object carries out accurate comprehensive monitoring.

Optionally, as shown in fig. 7, further including S607-S611 after S606, for being updated to judgment models, with More accurately judge the active state of monitored object:

S607, in active state that this is obtained and the preceding active state difference once obtained, send and give birth to server Object sign, move mode, environmental information and active state.

Specifically, active state and the preceding active state once obtained that the communication module 13 of terminal 10 is obtained at this are not Meanwhile biology character, move mode, environmental information and active state are sent to server 20.

Optionally, terminal 10, can be to biology character, move mode, environmental information and moving type before being uploaded The data of state are handled, and to reduce bandwidth pressure, such as reduce the code rate of video, can be straight when video content is still picture Connecing output is image etc..

S608, server receive biology character, move mode, environmental information and the active state of monitored object from terminal.

Specifically, the communication module 21 of server 20 receives the biology character of monitored object, move mode, ring from terminal 10 Border information and active state.

The biology character for the different monitored object that server 20 can upload multiple terminals 10, move mode, environment Information and active state are stored in different regions, for user to population quantity, habit of multiple monitored object etc. into Row analysis.

S609, server obtain more according to biology character, move mode, environmental information, active state and former judgment models Judgment models after new.

Specifically, the processing module 22 of server 20 according to biology character, move mode, environmental information, active state and Former judgment models obtain updated judgment models.

Wherein, according to the difference of monitored object, there may be multiple and different judgment models.

It, can after server 20 receives biology character, move mode, environmental information and the active state of the transmission of terminal 10 It, can be with after accumulating a certain number of data to be analyzed according to the corresponding former judgment models of monitored object these data Former judgment models are iterated by supervised learning, optimizing to former judgment models keeps it more accurate.

Optionally, when the activity that server 20 is obtained according to biology character, move mode, environmental information and former judgment models When the active state difference that state and terminal 10 are sent, server 20, which can send to rejudge to terminal 10, instructs instruction to carry out Terminal 10 rejudges the preceding information once sent, to avoid the misjudgment of terminal 10.

S610, server send updated judgment models to terminal.

Specifically, the communication module 21 of server 20 sends updated judgment models to terminal 10.

After completing the update of model of judgement, server 20 can pass through over the air (over-the-air Technology, OTA) updated judgment models are sent to terminal 10.

S611, terminal receive updated judgment models from server.

Specifically, the communication module of terminal 10 receives updated judgment models from server 20.

Updated judgment models are that server 20 is obtained according to biology character, move mode, environmental information and active state It arrives.

After the judgment models of terminal 10 upon a reception of an updated, original judgment models are replaced, use updated judgement Model judges the active state of monitored object.

Embodiments herein provides a kind of computer readable storage medium for storing one or more programs, one Or multiple programs include instruction, described instruction makes computer execute the biology as described in Fig. 6-Fig. 7 when executed by a computer Monitoring method.

Embodiments herein provides a kind of computer program product comprising instruction, when instruction is run on computers When, so that computer executes the biosurveillance method as described in Fig. 6-Fig. 7.

Embodiments herein provides a kind of terminal, comprising: processor and memory, memory are located for storing program The program that device calls memory storage is managed, in the biosurveillance method as described in Fig. 6-Fig. 7 of execution.

Embodiments herein provides a kind of server, comprising: and processor and memory, memory are used to store program, Processor calls the program of memory storage, in the biosurveillance method as described in Fig. 6-Fig. 7 of execution.

By biosurveillance device, computer readable storage medium, computer program product in the case of this application It can be applied to above-mentioned biosurveillance method, therefore, can be obtained technical effect see also above method embodiment, originally Details are not described herein for the embodiment of application.

It should be noted that above-mentioned each unit can be the processor individually set up, also can integrate controller certain It is realized in one processor, in addition it is also possible to be stored in the form of program code in the memory of controller, by controller Some processor calls and executes the function of the above each unit.Processor described here can be a central processing unit (Central Processing Unit, CPU) or specific integrated circuit (Application Specific Integrated Circuit, ASIC), or be arranged to implement one or more integrated circuits of the embodiment of the present application.

It should be understood that magnitude of the sequence numbers of the above procedures are not meant to execute suitable in the various embodiments of the application Sequence it is successive, the execution of each process sequence should be determined by its function and internal logic, the implementation without coping with the embodiment of the present application Process constitutes any restriction.

Those of ordinary skill in the art may be aware that list described in conjunction with the examples disclosed in the embodiments of the present disclosure Member and algorithm steps can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually It is implemented in hardware or software, the specific application and design constraint depending on technical solution.Professional technician Each specific application can be used different methods to achieve the described function, but this realization is it is not considered that exceed Scope of the present application.

It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.

In several embodiments provided herein, it should be understood that disclosed system, apparatus and method, it can be with It realizes by another way.For example, apparatus embodiments described above are merely indicative, for example, the unit It divides, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or The mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, the indirect coupling of equipment or unit It closes or communicates to connect, can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, each functional unit in each embodiment of the application can integrate in one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.

Claims (14)

1. a kind of biosurveillance method characterized by comprising

The biology character of terminal acquisition monitored object；

The terminal obtains the behavioural characteristic of the monitored object；

The terminal obtains the positioning change information of the monitored object；

The terminal obtains the move mode of the monitored object according to the behavioural characteristic and the positioning change information；

The terminal obtains environmental information；

The terminal obtains the monitoring according to the biology character, the move mode, the environmental information and judgment models The active state of object.

2. the method according to claim 1, wherein the terminal obtains the positioning variation letter of the monitored object Breath, comprising:

The terminal obtains the location information of at least one nearest base station and the instruction information from the base station, the instruction Information is used to indicate the received signal strength indicator RSSI that the terminal is detected in the base station；

The terminal according to the positional information, the instruction information and received signal strength RSS algorithm for recognizing fingerprint obtain institute State the location information of monitored object；

The terminal obtains positioning change information according to the location information in the unit time.

3. the method according to claim 1, wherein in the terminal according to the biology character, the movement Mode and the environmental information obtain after the active state of the monitored object, further includes:

In the active state and the preceding active state difference once obtained that this is obtained, the organism is sent to server Sign, the move mode, the environmental information and the active state.

4. according to the method described in claim 3, it is characterized in that, sending the biology character, described to server described After move mode, the environmental information and the active state, further includes:

Updated judgment models are received from the server, the updated judgment models are the server according to Biology character, the move mode, the environmental information and the active state obtain.

5. a kind of biosurveillance method characterized by comprising

Server receives biology character, move mode, environmental information and the active state of monitored object from terminal；

The server is disconnected according to the biology character, the move mode, the environmental information, the active state and original sentence Model obtains updated judgment models；

The server sends the updated judgment models to the terminal.

6. a kind of terminal characterized by comprising

Acquisition module, for obtaining the biology character of monitored object；

The acquisition module is also used to obtain the behavioural characteristic of the monitored object；

Communication module is also used to obtain the positioning change information of the monitored object；

Processing module, for obtaining the mobile side of the monitored object according to the behavioural characteristic and the positioning change information Formula；

The acquisition module is also used to obtain environmental information；

The processing module, the biology character for being also used to be obtained according to the acquisition module, the move mode, the ring Border information and judgment models obtain the active state of the monitored object.

7. terminal according to claim 6, which is characterized in that the communication module is specifically used for:

The location information of at least one nearest base station and the instruction information from the base station are obtained, the instruction information is used for Indicate the received signal strength indicator RSSI that the terminal is detected in the base station；

According to the positional information, the instruction information and received signal strength RSS algorithm for recognizing fingerprint obtain the monitoring pair The location information of elephant；

Positioning change information is obtained according to the location information in the unit time.

8. terminal according to claim 6, which is characterized in that the communication module is also used to:

In the active state and the preceding active state difference once obtained that this is obtained, the organism is sent to server Sign, the move mode, the environmental information and the active state.

9. terminal according to claim 8, which is characterized in that the communication module is also used to:

Updated judgment models are received from the server, the updated judgment models are the server according to Biology character, the move mode, the environmental information and the active state obtain.

10. a kind of server characterized by comprising

Communication module, for receiving biology character, move mode, environmental information and the active state of monitored object from terminal；

Processing module, for according to the biology character, the move mode, the environmental information, the active state and original Judgment models obtain updated judgment models；

The communication module is also used to send the updated judgment models to the terminal.

11. a kind of computer readable storage medium for storing one or more programs, which is characterized in that one or more of journeys Sequence includes instruction, and described instruction executes the computer as described in claim 1-4 or 5 any one Biosurveillance method.

12. a kind of computer program product comprising instruction, which is characterized in that when described instruction is run on computers, make It obtains the computer and executes such as the described in any item biosurveillance methods of claim 1-4 or 5.

13. a kind of terminal characterized by comprising processor and memory, memory are called for storing program, processor The program of memory storage, to execute biosurveillance method according to any one of claims 1-4.

14. a kind of server characterized by comprising processor and memory, memory is for storing program, processor tune The program stored with memory, to execute biosurveillance method as claimed in claim 5.