CN102843718A - System and method for realizing data acquisition of terminal - Google Patents

Abstract

The invention relates to a system and a method for realizing data acquisition of a terminal. The system comprises an internet-of-things terminal used for collecting sensor detection data, wherein the internet-of-things terminal and an application system are connected in a matched form by network; the application system can send work mode coordination information to the internet-of-things terminal so as to enable the internet-of-things terminal to adjust to the work mode corresponding to the work mode coordination information after the work mode coordination information is received; the internet-of-things terminal correspondingly collects the data under the work mode and transmit the data to the application system. With the adoption of the system and the method, the flexible and effective mode application of the internet-of-things terminal is realized, so that the universality characteristic of the application is realized; the expandable mode application of the internet-of-things terminal is realized, so that the application scenario of the internet-of-things terminal is expanded and the application flexibility is improved; the data information collected by a periodic collection point is reported by an incremental mode, so that the transmission data amount of a internet-of-things terminal network interface can be significantly reduced, thereby reducing the power consumption thereof and improving the power consumption characteristic of the internet-of-things terminal.

Description

A kind of system and method for realizing the terminal image data

Technical field

The present invention relates to the system that a kind of internet-of-things terminal is gathered, especially a kind of system and method for realizing the terminal image data belongs to the technical field of Internet of Things.

Background technology

The power problems that connects the internet-of-things terminal/gateway (below be referred to as internet-of-things terminal) of transducer is the aspect that very is worth research and pays close attention to always; Because internet-of-things terminal possibly move time enough under no externally fed situation; Therefore the power problems of himself is extremely important, directly influences its service behaviour.

Simultaneously; Internet-of-things terminal may be applied under the different application scenes; This has proposed high requirement to the application flexibility of itself and the mode of operation of coupling different application scene, and prior art can't come to adapt to as best one can various abundant with complicated application scenarioss through the management to mode of operation.

As shown in Figure 1; Internet-of-things terminal 2 connects one or more transducers 1 on the one hand; Internet-of-things terminal 2 is connected with the 2G/3G cellular network on the other hand; The data that each transducer 1 is gathered in realization send to application system 4, and application system 4 realizes the corresponding service logic control according to the image data that internet-of-things terminal 2 reports.Therefore; For this internet-of-things terminal 2; To realize data acquisition on the one hand, need realize on the other hand institute's image data is sent to application system 4 through network 3, comprise mainly that promptly data acquisition and data transmit this two-part control and management function transducer 1.

At present, most of application of sensor is meant that mainly transducer need trigger object that carry out to gather accomplishing the action of data acquisition through instruction mode, the mode as the transducer of the overwhelming majority such as present environmental monitoring application also all is based on.

Different application scenes then needs internet-of-things terminal 2 to realize the information interaction with transducer 1 and application system 4 through the different working pattern.

Typical two kinds of mode of operations that internet-of-things terminal commonly used at present can be supported and the application scenarios of being supported are exemplified below:

As shown in Figure 2, first mode of operation is directed against following application scenarios 1: need realize the function through whole 2 ends of Internet of Things and related sensor 1 real-time image data and real-time report according to the acquisition instructions of application system 4;

As shown in Figure 3, second mode of operation is directed against following application scenarios 2: need be by the function of internet-of-things terminal 2 and related sensor reporting real-time image data 1 performance period;

Simultaneously, often when practical application, application system 4 need periodically be obtained the data message of being gathered (being referred to as: periodically gather reporting functions), so this just requires internet-of-things terminal 2 and transducer 1 need periodically gather and report related data information.

And present technical application all is when report cycle arrives, by internet-of-things terminal 2 with each acquisition time point gather the data message that acquires and report application system 4.

The application scenarios of internet-of-things terminal 2 is varied; Universal internet-of-things terminal 2 described in the prior art often is solidificated in internet-of-things terminal 2 itself because of itself to the support of mode of operation; Be that internet-of-things terminal 2 itself is only supported the support to fixing several kinds of mode of operations, and make that difficulty is deacclimatized the more actual demand of different application scene.Simultaneously, popularize along with what Internet of Things was used, described internet-of-things terminal 2 can obtain number of applications, therefore needs to promote the flexible tenability and the versatility thereof of 2 pairs of varied application scenarioss of internet-of-things terminal.

In addition; Application scenarios under a lot of situation needs internet-of-things terminal ability 2 enough to support power consumption characteristics preferably, is exemplified below: the above-mentioned internet-of-things terminal that uses in a lot of environment monitorings need not have under the externally fed situation in the open air to be realized using by the internal cell self-powered.This just needs to promote the power consumption characteristics of internet-of-things terminal.

The shortcoming of art methods is following:

1, internet-of-things terminal 2 self relatively solidifies the support of various mode of operations, can't be through self expanding effectively to support the application to different scenes;

2, internet-of-things terminal 2 can't be supported to realize the flexible support to the different application scene through working in coordination with the effective of application system 4.

3, internet-of-things terminal 2 carries out the full dose transmission to the data message of each collection point according to last time signal clock, and this can directly influence the power consumption characteristics of internet-of-things terminal.

From the application process of above-mentioned prior art, the difficult different application scenes that adapts to of present internet-of-things terminal 2, the versatility of internet-of-things terminal 2 is relatively poor, with application system 4 collaborative realize to the tenability of various application scenarioss a little less than; Internet-of-things terminal 2 lacks through realizing flexible management and conversion to multiple mode of operation with effectively working in coordination with of application system 4, and lack more neatly, expanded type ground mode of operation support function.Simultaneously, owing to report all according to the full dose transmission periodically gathering the data that report in the process each collection point, then can increase the data interaction amount of wave point, and directly reduce the power consumption ability of internet-of-things terminal.

Summary of the invention

The objective of the invention is to overcome the deficiency that exists in the prior art, a kind of system and method for realizing the terminal image data is provided, can reduce the power consumption of internet-of-things terminal, strengthen the adaptive capacity that it is applied to different scenes.

According to technical scheme provided by the invention, the system of said realization terminal image data comprises being used for the internet-of-things terminal that pick-up transducers detects data that said internet-of-things terminal is connected through the network coupling with application system; Application system can be sent the mode of operation cooperative information to internet-of-things terminal; So that internet-of-things terminal adjusts to after receiving the mode of operation cooperative information and the corresponding mode of operation of said mode of operation cooperative information, internet-of-things terminal under said mode of operation corresponding image data and with said transfer of data to application system.

The said network that coupling between internet-of-things terminal and application system is connected comprises wireless network or cable network.

Said wireless network is cellular network, WLAN or radio wide area network.

Said internet-of-things terminal is transferred to application system with the data of gathering with incremental mode.

Said mode of operation cooperative information comprises the control information of mode of operation, the identification information of transducer and the zero-time of collection.

Said internet-of-things terminal comprises sensor communication functional module, network side communication function module, acquisition clock, communication clock and pattern application module, and said pattern application module comprises schema management module, first operating mode module, second operating mode module, the 3rd operating mode module and the 4th operating mode module; First operating mode module, second operating mode module, the 3rd operating mode module and the 4th operating mode module all link to each other with the schema management module.

When the 3rd operating mode module in the said internet-of-things terminal or the 4th operating mode module are in effective operating state, the sensor data information that internet-of-things terminal can storage of collected; And the sensor data information of said storage is transferred to application system with incremental mode.

A kind of method that realizes the internet-of-things terminal image data, the method for said image data comprises the steps:

A, internet-of-things terminal are connected with the application system coupling, and application system is sent required mode of operation cooperative information to internet-of-things terminal;

B, internet-of-things terminal receive said mode of operation cooperative information, and according to the mode of operation of said mode of operation cooperative information adjustment internet-of-things terminal, so that the mode of operation of internet-of-things terminal is corresponding with the mode of operation cooperative information that receives;

C, internet-of-things terminal be according to the image data that requires of said mode of operation, and with said transfer of data to application system.

Said internet-of-things terminal arrives application system with incremental mode with transfer of data.

Said internet-of-things terminal comprises sensor communication functional module, network side communication function module, acquisition clock, communication clock and pattern application module, and said pattern application module comprises schema management module, first operating mode module, second operating mode module, the 3rd operating mode module and the 4th operating mode module; First operating mode module, second operating mode module, the 3rd operating mode module and the 4th operating mode module all link to each other with the schema management module.

Advantage of the present invention: realize internet-of-things terminal pattern application flexibly and effectively, realize the universal performance of its application; Realize the pattern application of internet-of-things terminal extensibility, expanded the application scenarios of internet-of-things terminal, strengthened application flexibility; Through the data message that gather incremental mode report cycle collection point, can significantly reduce the transmission data volume of internet-of-things terminal network interface, and and then reduce its power consumption, promote internet-of-things terminal power consumption performance.

Description of drawings

Fig. 1 is the structured flowchart of existing internet-of-things terminal image data system.

Fig. 2 is the workflow diagram of internet-of-things terminal under first kind of mode of operation.

Fig. 3 is the workflow diagram of internet-of-things terminal under second kind of mode of operation.

Fig. 4 is the workflow diagram of internet-of-things terminal under the third mode of operation of the present invention.

Fig. 5 is the workflow diagram of internet-of-things terminal under the 4th kind of mode of operation of the present invention.

Fig. 6 is the structured flowchart of internet-of-things terminal of the present invention.

Fig. 7 is a structured flowchart of the present invention.

Fig. 8 is a workflow diagram of the present invention.

Description of reference numerals: 1-transducer, 2-internet-of-things terminal, 3-network, 4-application system, 5-pattern application module, 6-schema management module, 7-first operating mode module, 8-second operating mode module, 9-the 3rd operating mode module, 10-the 4th operating mode module, 11-sensor communication functional module, 12-acquisition clock, 13-communication clock and 14-network side communication function module.

Embodiment

Below in conjunction with concrete accompanying drawing and embodiment the present invention is described further.

As shown in Figure 7: in order to make internet-of-things terminal 2 can adapt to different working environments; Satisfy the job requirement of varied application scenarios; The present invention realizes that the system of internet-of-things terminal 2 image data comprises the internet-of-things terminal 2 that is used for pick-up transducers 1 detection data, and said internet-of-things terminal 2 is connected through network 3 couplings with application system 4; Application system 4 can be sent the mode of operation cooperative information to internet-of-things terminal 2; So that internet-of-things terminal 2 adjusts to after receiving the mode of operation cooperative information and the corresponding mode of operation of said mode of operation cooperative information, internet-of-things terminal 2 under said mode of operation corresponding image data and with said transfer of data to application system 4.

Particularly, the system of application system 4 for carrying out corresponding operating control according to the image data of internet-of-things terminal 2 transmission, application system 4 can adopt the structure consistent with existing system; Internet-of-things terminal 2 comprises wireless mode or wired mode with the connected mode of application system 4, and said wireless network is cellular network, WLAN or radio wide area network; Particularly; Can be among 2G network, 2.5G network, 2.75G network, 3G network, 3.5G network, 3.9G network, GSM network, GPRS, EDGE (Enhanced Data Rate for GSM Evolution), UMTS (Universal Mobile Telecommunications System), HSDPA (High Speed Downlink Packet Access), HSUPA (high speed uplink packet access), HSPA+ (HSPA Evolution), CDMA-1X (Code Division Multiple Access 1 times Radio Transmission Technology), CDMA2000 (Code Division Multiple Access 2000), EVDO RevA (Evolution-Data Optimized Reversion A), EVDO RevB (Evolution-Data Optimized Reversion B), Wimax (Worldwide Interoperability for Microwave Access) or the WiFi (Wireless Fidelity) any one; Can certainly adopt other communication, enumerate no longer one by one here.Application system 4 can be according to the operational environment and the corresponding work requirement at internet-of-things terminal 2 places; Send the mode of operation cooperative information to internet-of-things terminal 2; Mode of operation with adjustment internet-of-things terminal 2; Comprise in the mode of operation of said internet-of-things terminal 2 that 2 pairs of transducers of internet-of-things terminal 1 detect the sampling zero-time of data, sampling termination time, sample frequency and internet-of-things terminal 2 send the information such as mode that detect data to application system 4.In order to reduce the power consumption of internet-of-things terminal 2 when application system 4 is transmitted image data, internet-of-things terminal 2 of the present invention adopts incremental modes to send data to application system 4.

As shown in Figure 6: as to be the structured flowchart of internet-of-things terminal 2 of the present invention; Said internet-of-things terminal 2 comprises sensor communication functional module 11, network side communication function module 14, acquisition clock 12, communication clock 13 and pattern application module 5, and said pattern application module 5 comprises schema management module 6, first operating mode module 7, second operating mode module 8, the 3rd operating mode module 9 and the 4th operating mode module 10; First operating mode module 7, second operating mode module 8, the 3rd operating mode module 9 and the 4th operating mode module 10 all link to each other with schema management module 6.The data that internet-of-things terminal 2 utilizes 11 pairs of transducers of sensor communication functional module 1 to detect are sampled; Utilize network side communication function module 14 to realize being connected with the communication of 4 of application systems; Regulate the frequency in when sampling etc. through sampling clock 12, utilize communication clock 13 and application system 4 to communicate and synchronously; Network side communication function module 14 is corresponding to the same according to the coupling connected mode of internet-of- things terminal 2 and 4 employings of application system.

Internet-of-things terminal 2 comprises four mode of operations in the embodiment of the invention, is respectively first mode of operation, second mode of operation, the 3rd mode of operation and the 4th mode of operation, and internet-of-things terminal 2 also can adopt the more work pattern according to the needs of reality.After internet-of-things terminal 2 received the mode of operation cooperative information through network side communication function module 14, schema management module 6 confirmed that according to the control information in the mode of operation cooperative information application system 4 requires internet-of-things terminal 2 to be operated in corresponding mode state; Schema management module 6 is according to the control information in the mode of operation cooperative information being made internet-of-things terminal 2 get into corresponding mode state then.After getting into corresponding mode state, internet-of-things terminal 2 carries out work according to the information such as sampling that require in the mode state of place.When being in the 3rd mode of operation or the 4th mode of operation, the data that internet-of-things terminal 2 can storage of collected arrives are so that send to application system 4 with data; At this moment, internet-of-things terminal 2 need be provided with memory.

In the embodiment of the invention, the mode of operation cooperative information form of four operational mode state that application system 4 is sent is respectively:

When requiring to get into first mode of operation, the mode of operation cooperative information is C1:Sn:Ts; When requiring to get into second mode of operation, the mode of operation cooperative information is C2:Sn:Ts:Tp:Te; When requiring to get into the 3rd mode of operation, the mode of operation cooperative information is C3:Sn:Ts:Tp:Tn; When requiring to get into the 4th mode of operation, the mode of operation cooperative information is C4:Sn:Ts:Tp:Tn:Te.

Need to prove that wherein C1 is the control information of first mode of operation, C2 is the control information of second mode of operation; C3 is the control information of the 3rd mode of operation; C4 is the control information of the 4th mode of operation; Sn is the sensor identification information that is connected with internet-of-things terminal 2; The zero-time of Ts for gathering, ' 1 ' expression begins from current time; Tp is a collection period; Te is for gathering the termination time, and ' 0 ' expression does not stop; Tn is the time of report network.The mechanism of the above-mentioned cooperative information of foundation can realize through the support of internet-of-things terminal 2 realizations to all kinds application model, thereby can support the application universal performance of said internet-of-things terminal 2.

As shown in Figure 2: as when internet-of-things terminal 2 is in first mode of operation, need to realize through the function of internet-of-things terminal 2 according to the acquisition instructions of application system 4 with related sensor 1 real-time image data and real-time report.Particularly, the job step of internet-of-things terminal 2 is: step s10, internet-of-things terminal 2 start starts working; The data of step s11, internet-of-things terminal 2 pick-up transducers 1; Step s12, internet-of-things terminal 2 in application system 4, finish the transfer of data of gathering until step s13, accomplish the work of one-period.

As shown in Figure 3, when internet-of-things terminal 2 is in second mode of operation, need be by the function of internet-of-things terminal 2 and related sensor reporting real-time image data 1 performance period.Particularly: the job step of internet-of-things terminal 2 is: step s20, internet-of-things terminal 2 start starts working; The data of step s21, internet-of-things terminal 2 pick-up transducers 1; Step s22, internet-of-things terminal 2 in application system 4, above-mentioned collection, report the step of transmission periodically to carry out the transfer of data of gathering.

As shown in Figure 4: as when internet-of-things terminal 2 is in the 3rd mode of operation, need to realize gathering the data in the certain hour section in real time and reporting by internet-of-things terminal 2 and related sensor 1 according to the instruction of application system 4; Wherein need internet-of-things terminal 2 that transducer 1 is gathered the data that send and carry out this locality storage, in order to when clock arrives, sending to application system 4 in the lump.Particularly, the job step of internet-of-things terminal 2 is: step s30, internet-of-things terminal 2 start starts working; The data of step s31, internet-of-things terminal 2 pick-up transducers 1 and storage; Step s32, step s33 data and storage, step s34, internet-of-things terminal 2 for gathering different transducers 1 constantly with the data upload of gathering in application system 4, step s35, end-of-job.

As shown in Figure 5: as when internet-of-things terminal 2 is in the 4th mode of operation, need to realize gathering data and periodic report in the certain hour section in real time by internet-of-things terminal 2 and related sensor 1 according to the instruction of application system 4.Wherein need internet-of-things terminal 2 that transducer 1 is gathered the data that send and carry out this locality storage, in order to when cycle clock arrives, sending to application system 4 in the lump.Particularly: the job step of internet-of-things terminal 2 is: step s40, internet-of-things terminal 2 start starts working; Step s41, step s42, step s43 are the data of internet-of-things terminal 2 pick-up transducers 1 and carry out this locality storage; Step s44, be internet-of-things terminal 2 with the transfer of data of this locality storage in application system 4; Wherein, internet-of-things terminal 2 is for periodically gathering and reporting.

As shown in Figure 8: the method for realization internet-of-things terminal 2 image data of said structure comprises the steps:

A, internet-of-things terminal 2 are connected with application system 4 couplings, and application system 4 is sent required mode of operation cooperative information to internet-of-things terminal 2;

B, internet-of-things terminal 2 receives said mode of operation cooperative information, and according to the mode of operation of said mode of operation cooperative information adjustment internet-of-things terminal 2, so that the mode of operation of internet-of-things terminal 2 is corresponding with the mode of operation cooperative information that receives;

C, internet-of-things terminal 2 be according to the image data that requires of said mode of operation, and with said transfer of data to application system 4.

Concrete steps are: step s100, internet-of-things terminal 2 and application system 4 unlatching work; Step s110, internet-of-things terminal 2 receive the mode of operation cooperative information that application system 4 is used about mode of operation; When internet-of-things terminal 2 is applied to a new scene, according to new application demand, need initialization or adjust its application model attribute, application system 4 need be adjusted internet-of-things terminal 2 to a certain new mode of operation according to different application scenes and demand; Therefore internet-of-things terminal 2 is with the relevant mode of operation cooperative information of at first receiving by application system transmission 4;

Step s120, internet-of-things terminal 2 are resolved the mode of operation cooperative information of receiving, get into which kind of mode of operation according to mode of operation cooperative information judgement needs; Internet-of-things terminal 2 is correctly resolved the mode of operation command request that it is received according to the mode of operation cooperative information of aforementioned definitions; According to command request, internet-of-things terminal 2 enters into each operational mode state, and realizes corresponding acquisition controlling and information reporting function according to each identification information of being resolved under this pattern that obtains.

Step s130, internet-of-things terminal 2 get into first mode of operation according to the mode of operation cooperative information of resolving;

Step s140, internet-of-things terminal 2 get into second mode of operation according to the mode of operation cooperative information of resolving;

Step s150, after internet-of-things terminal 2 gets into first mode of operation, confirm corresponding sensor 1 and the zero-time of gathering;

Step s160, internet-of-things terminal 2 get into the 3rd mode of operation according to the mode of operation cooperative information of resolving;

Step s170, internet-of-things terminal 2 get into the 4th mode of operation according to the mode of operation cooperative information of resolving;

Step s180, after internet-of-things terminal 2 gets into second mode of operation, confirm corresponding sensor 1 and gather initial sum termination time, collection period;

Step s190, after internet-of-things terminal 2 gets into the 3rd mode of operation, confirm corresponding sensor 1 and gather zero-time, collection period and on application system 4, call time;

Step s200, after internet-of-things terminal 2 gets into the 4th mode of operation, confirm corresponding sensor 1 and gather initial sum termination time, collection period and on application system 4, call time;

Step s210, internet-of-things terminal 2 are gathered according to the mode of operation cooperative information and are reported.

The course of work of step s220, internet-of-things terminal 2 finishes.

Here need to prove for the 3rd mode of operation and the 4th mode of operation, wherein need internet-of-things terminal 2 that transducer 1 is gathered the data that send and carry out this locality storage, in order to when clock arrives, sending to application system 4 in the lump.

To said process, the present invention adopts the increment send mode to realize the process that above-mentioned storage is sent, and specifies to be exemplified below:

Because the 3rd mode of operation and the 4th mode of operation all are data that each cycle collection point has been stored in this locality, the data message of interior each a collection point collection of report cycle comprises D1, D2 ..., Dn;

Wherein D1 is the data message of gathering in Ts moment collection point for the first time; Dn is last data of gathering before the moment of network reported data Tn arrives.

According to above-mentioned information, to the information that network reports then be at Tn moment internet-of-things terminal 2: D1, D2-D1 ..., Dn-D1.Wherein except initial amount, other numerical value are as being that the first place representes that then increment is a negative value with ' 0 ', as with ' 1 ' be the first place then represent increment be on the occasion of.

Therefore data acquisition amount in one period cycle time does not often have very big variation, adopts said method can significantly reduce the transmission data volume of internet-of-things terminal 2 network interfaces, and and then reduces its power consumption, bring to power service efficiency.

The present invention realizes internet-of-things terminal 2 pattern application flexibly and effectively, realizes the universal performance of its application; Realize the pattern application of internet-of-things terminal 2 extensibilities, expanded the application scenarios of internet-of-things terminal 2, strengthened application flexibility; Through the data message that gather incremental mode report cycle collection point, can significantly reduce the transmission data volume of internet-of-things terminal 2 network interfaces, and and then reduce its power consumption, promote internet-of-things terminal 2 power consumption characteristics.

Claims (10)

1. a system that realizes the terminal image data is characterized in that: comprise being used for the internet-of-things terminal (2) that pick-up transducers (1) detects data that said internet-of-things terminal (2) is connected through network (3) coupling with application system (4); Application system (4) can be sent the mode of operation cooperative information to internet-of-things terminal (2); So that internet-of-things terminal (2) adjusts to after receiving the mode of operation cooperative information and the corresponding mode of operation of said mode of operation cooperative information, internet-of-things terminal (2) under said mode of operation corresponding image data and with said transfer of data to application system (4).

2. the system of realization according to claim 1 terminal image data is characterized in that: the said network (3) that coupling between internet-of-things terminal (2) and application system (4) is connected comprises wireless network or cable network.

3. the system of realization according to claim 2 terminal image data is characterized in that: said wireless network is cellular network, WLAN or radio wide area network.

4. the system of realization according to claim 1 terminal image data is characterized in that: said internet-of-things terminal (2) is transferred to application system (4) with the data of gathering with incremental mode.

5. the system of realization according to claim 1 terminal image data is characterized in that: said mode of operation cooperative information comprises the control information of mode of operation, the identification information of transducer and the zero-time of collection.

6. the system of realization according to claim 1 terminal image data; It is characterized in that: said internet-of-things terminal (2) comprises sensor communication functional module (11), network side communication function module (14), acquisition clock (12), communication clock (13) and pattern application module (5), and said pattern application module (5) comprises schema management module (6), first operating mode module (7), second operating mode module (8), the 3rd operating mode module (9) and the 4th operating mode module (10); First operating mode module (7), second operating mode module (8), the 3rd operating mode module (9) and the 4th operating mode module (10) all link to each other with schema management module (6).

7. the system of realization according to claim 6 terminal image data; It is characterized in that: when the 3rd operating mode module (9) in the said internet-of-things terminal (2) or the 4th operating mode module (10) are in effective operating state, the sensor data information that internet-of-things terminal (2) can storage of collected; And the sensor data information of said storage is transferred to application system (4) with incremental mode.

8. a method that realizes the terminal image data is characterized in that, the method for said image data comprises the steps:

(a), internet-of-things terminal (2) and application system (4) coupling is connected, application system (4) is to the required mode of operation cooperative information of internet-of-things terminal (2) transmission;

(b), internet-of-things terminal (2) receives said mode of operation cooperative information; And according to the mode of operation of said mode of operation cooperative information adjustment internet-of-things terminal (2), so that the mode of operation of internet-of-things terminal (2) is corresponding with the mode of operation cooperative information that receives;

(c), internet-of-things terminal (2) is according to the image data that requires of said mode of operation, and with said transfer of data to application system (4).

9. the method for said according to Claim 8 realization terminal image data is characterized in that: said internet-of-things terminal (2) arrives application system (4) with incremental mode with transfer of data.

10. the method for said according to Claim 8 realization terminal image data; It is characterized in that: said internet-of-things terminal (2) comprises sensor communication functional module (11), network side communication function module (14), acquisition clock (12), communication clock (13) and pattern application module (5), and said pattern application module (5) comprises schema management module (6), first operating mode module (7), second operating mode module (8), the 3rd operating mode module (9) and the 4th operating mode module (10); First operating mode module (7), second operating mode module (8), the 3rd operating mode module (9) and the 4th operating mode module (10) all link to each other with schema management module (6).

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