CN102487389A - Shared server and data integration method thereof, and bridger and data integration method thereof - Google Patents
Shared server and data integration method thereof, and bridger and data integration method thereof Download PDFInfo
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Abstract
The invention provides a shared server and a data integration method thereof, and abridger and a data integration method thereof. The bridger is connected with a sensor network system. The sensor network system uses the bridger to be connected with the shared server by a network. Different sensor network systems can carry out data conversion by bridgers that are connected with the sensor network systems, so that different data are in accord with a common parameter format. After a shared server receives data that are in accord with the common parameter format and are transmitted by the bridgers of the different sensor network systems, integration is carried out on the data and then the integrated data are transmitted to a back-end application program server, so that a subsequent data processing flow can be carried out conveniently.
Description
Technical field
The invention relates to a kind of common server, bridger and data integration method thereof.More specifically, common server of the present invention, bridger and data integration method thereof can be integrated the data of different sensor network system, so that back-end application server is carried out flow chart of data processing.
Background technology
Sensor network is a considerable ring in the modern network development, and because of having the low advantage that is set to this of building, sensor network just can carry out highdensity sensing in specific environment for use to be used.In view of the above, the sensor network of various application is development therefore, for example intelligent building (smart building) sensor network and advanced meter reading construction (advanced metering infrastructure) sensor network etc.
Yet because how relatively customized sensor network is, so its heterogeneity will cause Back end data to be integrated and the difficulty of application development significantly promotes.For example; When if desire is built intelligent building sensor network and advanced meter reading sensor network and is integrated into an Internet of Things; Because the data kenel that the two sensed has sizable difference, therefore just need different sensing servers to change to the dateout of the two respectively.And data are delivered to back-end application server again after conversion finishes, so that back-end application server is carried out using and handling of data.
Furthermore; The framework of above-mentioned Internet of Things; Except need are provided with the different sensing servers to different sensor networks; The apps server of rear end also need be provided with various network bridger interface to different sensing servers, can receive the data after different sensing servers transmit conversion.Thus, the efficient of elasticity that causes the Internet of Things setting and use is significantly reduced, and cause cost to promote simultaneously.
In sum, how to integrate various sensor network system in the Internet of Things, make it possess high resiliency, high efficiency and low cost, this is the target that industry is needed effort badly.
Summary of the invention
For solving the problem of aforementioned shortage conformability, the object of the present invention is to provide a kind of common server, bridger and data integration method thereof.Bridger is connected in the sensor network system, and the sensor network system links through network and shared server by bridger.Its main purpose is, different sensor network systems can be through carrying out the conversion of data with the bridger of its binding, makes the output of different sensor network system meet common parameter format.And after common server meets the various outputs of common parameter format in reception, just can integrate and be sent to back-end application server according to this, so that follow-up flow chart of data processing.
For reaching aforementioned purpose; The present invention provides a kind of data integration method that is used for common server; Common server is fitted can be through network and at least two sensor network systems and apps server line; At least two sensor network systems comprise the first sensor network system and the second sensor network system, and data integration method comprises: (a) make common server receive first shared data from first bridger of the first sensor network system, and receive second shared data from second bridger of the second sensor network system; Wherein, first shared data and second shared data meet the common parameter form; (b) first shared data and second shared data that make common server will meet the common parameter form are recorded in shared database; (c) make common server will be stored in the shared database, first shared data and second shared data that meet the common parameter form are sent to apps server.
For accomplishing aforementioned purpose, the present invention also provides a kind of common server that data are integrated that is used for, and it is through network and at least two sensor network systems and apps server line.At least two sensor network systems comprise the first sensor network system and the second sensor network system.Server comprises shared bridger module, Logic control module and observes service module.Shared bridger module is used for receiving one first shared data from first bridger of this first sensor network system; And second bridger of this second sensor network system receives one second shared data certainly; Wherein, this first shared data and this second shared data meet a shared parameter format.Logic control module is used for first shared data that meets the common parameter form and second shared data are recorded in shared database.Observe service (observation service) module and be used for being stored in shared database, first shared data and second shared data that meet the common parameter form are sent to apps server.
For accomplishing aforementioned purpose, the present invention provides a kind of data integration method that is used for bridger in addition, and bridger is connected in the sensor network system, and the sensor network system links through network and shared server by bridger.Data integration method comprises: (a) make bridger self-inductance measurement device network system acquisition sense data; (b) make bridger according to the common parameter form, convert sense data to shared data; (c) make bridger that shared data is sent to common server.
For accomplishing aforementioned purpose, the present invention provides a kind of bridger that data are integrated that is used for again, and bridger is connected in the sensor network system.The sensor network system links through network and shared server by bridger.Bridger comprises coding module and Executive Module.Coding module captures sense data in order to self-inductance measurement device network system, and converts sense data to shared data according to the common parameter form.Executive Module is in order to be sent to common server with shared data.
Useful technique effect of the present invention is: adopt the above-mentioned technical scheme of the present invention that discloses; Common server of the present invention, bridger and data integration method thereof can pass through common parameter setting; Carry out the integration of data, so that back-end application server is carried out the processing of data.
Behind the execution mode of consulting accompanying drawing and describing subsequently, this technical field has common knowledge the knowledgeable just can understand other purpose of the present invention, and technological means of the present invention and enforcement aspect.
Description of drawings
Figure 1A is the sketch map of the Internet of Things of the first embodiment of the present invention;
Figure 1B is the sketch map of first bridger of the first embodiment of the present invention;
Fig. 1 C is the sketch map of second bridger of the first embodiment of the present invention;
Fig. 1 D is the sketch map of the common server of the first embodiment of the present invention;
Fig. 1 E is the sketch map of the common parameter form of the first embodiment of the present invention;
Fig. 2 A is the sketch map of the Internet of Things of the second embodiment of the present invention;
Fig. 2 B is the sketch map of the 3rd bridger of the second embodiment of the present invention;
Fig. 3 is the flow chart of the data integration method of the third embodiment of the present invention; And
Fig. 4 is the flow chart of the data integration method of the fourth embodiment of the present invention.
Embodiment
Below will explain content of the present invention through embodiment.Yet embodiments of the invention are not to need can implement like the described any environment of embodiment, application or mode in order to restriction the present invention.Therefore, be merely explaination the object of the invention about the explanation of embodiment, but not in order to direct restriction the present invention.What need explanation is in following examples and the icon, to omit and do not illustrate with the non-directly related element of the present invention.
At first, please refer to Figure 1A, it is the sketch map of an Internet of Things (internet ofthings) 1 of first embodiment of the invention.Internet of Things 1 comprises at least two sensor network systems, a shared server 15, an apps server 17 and a shared database 19.Wherein, this at least two sensor networks system comprises one first sensor network system 11 and one second sensor network system 13.Must benly be; At least two sensor network systems can be various enforcement aspect; For example wireless sensor device network (wireless sensor network, WSN), existing various sensor networks such as intelligent building (smart building) sensor network or advanced meter reading construction (advanced metering infrastructure) sensor network; And shared database 19 in first embodiment for outside build the formula database, so in other implemented aspect, shared database 19 also can be common server 15 in-building type databases.
Then, please in the lump with reference to figure 1B-Fig. 1 D, it describes the hardware structure of first bridger 111, second bridger 131 and common server 15 respectively.Wherein, illustrate like Figure 1B, first bridger 111 comprises coding (decoder/encoder) module 113 and and carries out (transaction) module 115; Illustrate like Fig. 1 C, second bridger 131 comprises a coding module 133 and an Executive Module 135; Illustrate like Fig. 1 D, common server 15 comprises a shared bridger module 151, a Logic control module 153, is observed service (observation service) module 155 and planning service (planning service) module 157.And the function of each hardware module and interaction will specify in following content.
Please continue with reference to Figure 1A, as shown in the figure, in first embodiment, common server 15 is through network and the first sensor network system 11, the second sensor network system 13 and apps server 17 lines.Wherein, the first sensor network system 11 is through first bridger 111 and shared server 15 lines, and the second sensor network system 13 is through second bridger 131 and shared server 15 lines.
Please be simultaneously with reference to figure 1E, it describes the sketch map of a shared parameter format 100 of first embodiment of the invention.Wherein, What must specify is; In first embodiment; Common parameter form 100 definition one literal field, boolean's field (boolean), are enumerated field (category), a numeric field (quantity), a time field, a data record field (data record) and a data array field (data array), yet being merely, it is convenient to understand, and be not in order to limit common parameter formatted data of the present invention in set form.
Then, please continue with reference to Figure 1A.Particularly, when the first sensor network system 11 detects, just can produce one first sense data 110 in its residing environment, immediately, the coding module 113 of first bridger 111 is just from first sensor network, 11 acquisitions, first sense data 110.Because the data structure of the form of first sense data 110 for ordering certainly; And for the ease of follow-up integration processing; The coding module 113 of first bridger 111 just according to the content of common parameter form 100, converts first sense data 110 into one first shared data 112 that meets common parameter form 100.And after data transaction, the Executive Module 115 of first bridger 111 just is sent to common server 15 with first shared data 112.
Likewise, when the second sensor network system 13 detects, just can produce one second sense data 130 in its residing environment, immediately, the coding module 133 of second bridger 131 is just from second sensor network, 13 acquisitions, second sense data 130.Similarly; Because the data structure of the form of second sense data 130 for ordering certainly; And for the ease of follow-up integration processing; The coding module 133 of second bridger 131 just according to the content of common parameter form 100, converts second sense data 130 into one second shared data 132 that meets common parameter form 100.And after data transaction, the Executive Module 135 of second bridger 131 just is sent to common server 15 with second shared data 132.
In other words; The shared bridger module 151 of common server 15 receives first shared data 112 that meets common parameter form 100 from first bridger 111 of first sensor network 11, and receives second shared data 132 that meets common parameter form 100 from second bridger 131 of second sensor network 13.Immediately, first shared data 112 and second shared data 132 that the Logic control module 153 of common server 15 just will meet common parameter format 100 are recorded in the shared database 19, so that the follow-up data handling process.
Because from 13 first shared datas 112 that transmit respectively of the first different sensor network system 11 and the second sensor network system and the process integration of second shared data 132; Therefore; When common server 15 when data being sent to back-end application server 17 Treatment Analysis, can be directly accomplish and transmit with fixing interface.Particularly; When first shared data 112 and second shared data 132 that will be stored in shared database 19 when common server 15 desires is sent to apps server 17; Common server 15 only need be utilized single face, promptly observes service module 155, will meet first shared data 112 and second shared data 132 of common parameter form 100; Be sent to apps server 17 from shared database 19, so that it handles the measured data of sensor network system.
On the other hand, through the network architecture of the present invention, apps server 17 also can be controlled the sensor network system.Particularly, when apps server 17 desires were operated to this two sensor networks system at least, apps server 17 just was sent to an application program control signal 170 the planning service module 157 of common server 15 earlier.In other words, after the planning service module of common server 15 157 receives application program control signals 170, common server 15 convenient with shared bridger module with the application program control signal be sent to this at least two sensor networks system one of them.
With the first sensor network system 11 is example; When if apps server 17 desires are controlled to the sensor of the first sensor network system 11, just can application program control signal 170 be sent to first bridger 111 of the first sensor network system 11 through above-mentioned step.And after the Executive Module 115 of first bridger 111 receives application program control signal 170; The coding module 113 of first bridger 111 is just in order to convert application program control signal 170 to one first sensor network control signal; So that follow-uply be sent to the first sensor network system 11, and control the first sensor network system 11.
The setting of first bridger 111, first bridger 131 and common server 15 through above-mentioned first embodiment; The heterogeneous sense data that the first sensor network system 11 and the second sensor network system 13 will be detected; Integrate further, so that subsequent applications procedure service device 17 analyzing and processing.And apps server 17 also can be under the network architecture of first embodiment, and system controls to sensor network.
Then, please with reference to Fig. 2 A, it is the sketch map of second embodiment of the invention.Earlier explanation is, the mode in order to integral data among second embodiment is identical with the described mode of first embodiment, and the also identical effect of tool of the element with same-sign, so the details that will repeat no more.Below the content of second embodiment enforcement aspect of newly-increased sensor network system to Internet of Things 1 among the present invention will be described.
Particularly; Desire admixtures when one the 3rd sensor network system 21 and network 1 the time, it needs earlier to the measured data format of its sensor, the action of upgrading synchronously with common server 15; More detailed; Please in the lump with reference to figure 2B, at first, an Executive Module 213 of one the 3rd bridger 211 is earlier from the 3rd sensor network system 21 acquisitions, one initial format data 210.Then; The Executive Module 213 of the 3rd bridger 211 just carries out an initial line 212 (being represented by dotted lines initial line) with shared server 15; In other words, the shared bridger module 151 of common server 15 is set up initial line 212 through the 3rd bridger 211 and the 3rd sensor network system 21.
In initial line 212 set up finish after, the 3rd bridger 211 is just through initial line 212, and the initial format data 210 of the 3rd sensor network system 21 are sent to common server 15.In other words, the shared bridger module 151 of common server 15 receives initial format data 210 through initial line 212 from the 3rd bridger 211.Immediately, the Logic control module 153 of common server 15 upgrades common parameter form 100 just according to initial format data 210.
Through upgrading the mode of common parameter form, the data format that can make the 21 follow-up transmission of the 3rd sensor network system can be accepted by common server 15, so that the handling process of subsequent applications procedure service device 17.Please refer to Fig. 2 C, after it is the 3rd sensor network system 21 admixtures networking 1, transmit the sketch map of data.Similarly, when the 3rd sensor network system 21 detects, just can produce one the 3rd sense data 214 in its residing environment, immediately, the coding module 213 of the 3rd bridger 211 is just from the 3rd sensor network system 21 acquisitions the 3rd sense data 214.Since the data of the 3rd sensor network system 21 with common parameter form 100 synchronous mistakes, therefore the form of the 3rd sense data 214 can carry out follow-up integration processing.Further, the coding module 213 of the 3rd bridger 211 just according to the content of common parameter form 100, converts the 3rd sense data 214 into one the 3rd shared data 216 that meets common parameter form 100.And after data transaction, the Executive Module 215 of the 3rd bridger 211 just is sent to common server 15 with the 3rd shared data 216.
In other words, the shared bridger module 151 of common server 15 receives the 3rd shared data 216 that meets common parameter form 100 from the 3rd bridger 211 of the 3rd sensor network system 21.Immediately, the 3rd shared data 216 that the Logic control module 153 of common server 15 just will meet common parameter format 100 is recorded in the shared database 19, so that the follow-up data handling process.
Because the 3rd shared data 216 is through integrating, therefore, when common server 15 when data being sent to back-end application server 17 Treatment Analysis, can directly accomplish transmission with fixing interface.Particularly; When the 3rd shared data 216 that will be stored in shared database 19 when common server 15 desires is sent to apps server 17; Common server 15 only need be utilized single face, promptly observes service module 155, will meet the 3rd shared data 216 of common parameter form 100; Be sent to apps server 17 from shared database 19, so that it handles the measured data of sensor network system.
Thus, through the mode of above-mentioned second embodiment, Internet of Things 1 can flexiblely add any heterogeneous sensor network system at any time, like the 3rd sensor network system 21, and guarantee the correctness of Internet of Things 1 running simultaneously.
One the 3rd embodiment of the present invention is a data integration method, and its flow chart please refer to Fig. 3.The method of the 3rd embodiment is used for a shared server of an Internet of Things and the bridger of at least two sensor network systems.This common server is through network and at least two sensor network systems and an apps server line; This at least two sensor networks system comprises one first sensor network system with one first bridger, and one second sensor network system with one second bridger.Wherein, this first bridger, this second bridger and this common server can be first bridger 111, second bridger 131 and the common server 15 of previous embodiment.The detailed step of the 3rd embodiment is described below.
Execution in step 301a makes this first bridger capture one first sense data from this first sensor network system.Execution in step 302a makes this first bridger according to a shared parameter format, converts this first sense data to one first shared data.Execution in step 303a makes this first bridger that this first shared data is sent to this common server.Side by side, execution in step 301b makes this second bridger capture one second sense data from this second sensor network system.Execution in step 302b makes this second bridger according to this common parameter form, converts this second sense data to one second shared data.Execution in step 303b makes this second bridger that this second shared data is sent to this common server.
Then, execution in step 304 make this common server receive this first shared data from first bridger of this first sensor network system, and second bridger of this second sensor network system receives this second shared data certainly.Wherein, this first shared data and this second shared data have met this common parameter form.Execution in step 305, this first shared data and this second shared data that make this common server will meet this common parameter form are recorded in a shared database.Execution in step 306 makes this common server will be stored in this shared database, and this first shared data and this second shared data that meet this common parameter form are sent to this apps server.
Immediately, execution in step 307 makes this common server receive an application program control signal from this apps server.Execution in step 308 makes this common server that this application program control signal is sent to one of them bridger of this at least two sensor networks system, in other words, promptly be sent to this first sensor network system or this second sensor network system one of them.In the 3rd embodiment, the application program control signal is this first bridger that is sent to this first sensor network system, yet, be not in order to restriction the present invention.Execution in step 309 makes this first bridger convert this application program control signal to one first sensor network control signal.Execution in step 310 makes this first bridger that this first sensor network control signal is sent to this first sensor network system, so that this first sensor network system carries out the operation of sensor.
Through the method flow of above-mentioned the 3rd embodiment, the heterogeneous sense data that can the sensor network system detected is integrated further, so that subsequent applications procedure service device analyzing and processing.And apps server also can be controlled to the sensor network system.
One the 4th embodiment of the present invention is a data integration method, and its flow chart please refer to Fig. 4.What must specify is that among the 4th embodiment, flow process and element that data are integrated are said identical with the 3rd embodiment, so the details that will repeat no more.Fourth embodiment of the invention will be explained the flow process aspect of newly-increased sensor network system.
Particularly, this Internet of Things also comprises initiate one the 3rd sensor network system of desire, and the 3rd network system has one the 3rd bridger.Execution in step 311 makes the 3rd bridger capture initial format data from the 3rd sensor network system.Execution in step 312 makes the 3rd bridger and this common server carry out an initial line.In other words, execution in step 313 makes the 3rd bridger of this common server and the 3rd sensor network system carry out this initial line.
Execution in step 314 makes the 3rd bridger through this initial line, and these initial format data are sent to this common server.In other words, execution in step 315 makes this common server through this initial line, and the 3rd bridger of the 3rd sensor network system receives these initial format data certainly.Execution in step 316 makes this common server according to this common parameter form of this initial format Data Update.
Through above-mentioned flow process, the 3rd sensor network system can carry out the transmission of data in this Internet of Things.Particularly, then execution in step 317 makes this common server receive one the 3rd shared data from the 3rd bridger of the 3rd sensor network system, and wherein, the 3rd shared data meets this common parameter form.Execution in step 318, the 3rd shared data that makes this common server will meet this common parameter form is recorded in this shared database.
Thus, through the method flow of above-mentioned the 3rd embodiment, this Internet of Things can flexiblely add any heterogeneous sensor network system at any time, like the 3rd sensor network system, and guarantee the correctness of this Internet of Things running simultaneously.
In sum; Common server of the present invention, bridger and data integration method thereof can pass through common parameter setting; Carry out the integration of data efficiently, and flexiblely add more heterogeneous sensor network systems, so that back-end application server is carried out the processing of data.
Claims (18)
1. one kind is used for a shared data in server integration method; This common server is through network and at least two sensor network systems and an apps server line; This at least two sensor networks system comprises one first sensor network system and one second sensor network system; It is characterized in that this data integration method comprises:
(a) make this common server receive one first shared data from first bridger of this first sensor network system; And second bridger of this second sensor network system receives one second shared data certainly; Wherein, this first shared data and this second shared data meet a shared parameter format;
(b) this first shared data and this second shared data that make this common server will meet this common parameter form are recorded in a shared database;
(c) make this common server will be stored in this shared database, this first shared data and this second shared data that meet this common parameter form are sent to this apps server.
2. data integration method according to claim 1 is characterized in that, also comprises the following step:
(d) make this common server receive an application program control signal from this apps server;
(e) make this common server with this application program control signal be sent to this at least two sensings sensor network system one of them.
3. data integration method according to claim 1 is characterized in that, also comprises the following step:
(d) make the 3rd bridger of this common server and one the 3rd sensor network system carry out an initial line;
(e) make this common server through this initial line, the 3rd bridger of the 3rd sensor network system receives initial format data certainly;
(f) make this common server according to this common parameter form of this initial format Data Update.
4. data integration method according to claim 3 is characterized in that, also comprises the following step afterwards in step (f):
(g) make this common server receive one the 3rd shared data from the 3rd bridger of the 3rd sensor network system, wherein, the 3rd shared data meets this common parameter form;
(h) the 3rd shared data that makes this common server will meet this common parameter form is recorded in this shared database;
(i) make this common server will be stored in this shared database, the 3rd shared data that meets this common parameter form is sent to this apps server.
5. data integration method according to claim 1 is characterized in that,, this common parameter formal definition one literal field, boolean's field, are enumerated field, a numeric field, a time field, a data record field and a data array field.
6. one kind is used for the common server that data are integrated; Through network and at least two sensor network systems and an apps server line; This at least two sensor networks system comprises one first sensor network system and one second sensor network system; It is characterized in that this common server comprises:
One shared bridger module; Be used for receiving one first shared data from first bridger of this first sensor network system; And second bridger of this second sensor network system receives one second shared data certainly; Wherein, this first shared data and this second shared data meet a shared parameter format;
One Logic control module is used for this first shared data that meets this common parameter form and this second shared data are recorded in a shared database;
One observes service module, is used for being stored in this shared database, and this first shared data and this second shared data that meet this common parameter form are sent to this apps server.
7. common server according to claim 6 is characterized in that, also comprises:
One planning service module, be used for receiving a sensor network control signal from this apps server, and through this shared bridger module with this sensor network control signal be sent to this at least two sensor networks system one of them.
8. common server according to claim 6; It is characterized in that; This shared bridger module is also in order to carry out an initial line with one the 3rd sensor network system; And through this initial line, the 3rd bridger of the 3rd sensor network system receives initial format data certainly, and this Logic control module is also in order to according to this common parameter form of this initial format Data Update.
9. common server according to claim 8; It is characterized in that; This shared bridger module also receives one the 3rd data in order to the 3rd bridger of the 3rd sensor network system certainly; The 3rd data symbols is should the common parameter form; This Logic control module also in order to the 3rd data record that will meet this common parameter form in this shared database, and this observation service module be also in order to will be stored in this shared database, the 3rd data that meet this common parameter form are sent to this apps server.
10. common server according to claim 6 is characterized in that, this common parameter formal definition one literal field, boolean's field, are enumerated field, a numeric field, a time field, a data record field and a data array field.
11. a data integration method that is used for a bridger, this bridger are connected in a sensor network system, this sensor network system links through a network and a shared server by this bridger, it is characterized in that this data integration method comprises:
(a) make this bridger capture a sense data from this sensor network system;
(b) make this bridger according to a shared parameter format, convert this sense data to shared data;
(c) make this bridger that this shared data is sent to this common server.
12. data integration method according to claim 11 is characterized in that, also comprises the following step:
(d) make this bridger receive the application program control signal that an apps server is transmitted from this common server;
(e) make this bridger convert this application program control signal to a sensor network control signal;
(f) make this bridger that this sensor network control signal is sent to this sensor network system.
13. data integration method according to claim 11 is characterized in that, also comprises the following step before in step (a):
(a1) make this bridger capture initial format data from this sensor network system;
(a2) make this bridger and this common server carry out an initial line;
(a3) make this bridger through this initial line, these initial format data are sent to this common server, so that this common server is according to this common parameter form of this initial format Data Update.
14. data integration method according to claim 11 is characterized in that, this common parameter formal definition one literal field, boolean's field, are enumerated field, a numeric field, a time field, a data record field and a data array field.
15. one kind is used for the bridger that data are integrated, this bridger is connected in a sensor network system, and this sensor network system links through a network and a shared server by this bridger, it is characterized in that this bridger comprises:
One coding module captures a sense data in order to this sensor network system certainly, and converts this sense data to shared data according to a shared parameter format;
One Executive Module is in order to be sent to this common server with this shared data.
16. bridger according to claim 15; It is characterized in that; This Executive Module also receives the application program control signal that an apps server is transmitted in order to this common server certainly; This coding module is also in order to converting this application program control signal to a sensor network control signal, and is sent to this sensor network system.
17. bridger according to claim 15; It is characterized in that; This Executive Module also captures initial format data in order to this sensor network system certainly, and carries out an initial line with this common server, and through this initial line; These initial format data are sent to this common server, so that this common server is according to this common parameter form of this initial format Data Update.
18. bridger according to claim 15 is characterized in that, this common parameter formal definition one literal field, boolean's field, are enumerated field, a numeric field, a time field, a data record field and a data array field.
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| CN103957146A (en) * | 2014-01-29 | 2014-07-30 | 昆山三泰新电子科技有限公司 | Network control device, and network control system and control method for far-end device |
| CN103957146B (en) * | 2014-01-29 | 2018-06-19 | 昆山三泰新电子科技有限公司 | The network control system of remote equipment |
| CN105431848A (en) * | 2014-07-14 | 2016-03-23 | 三菱电机株式会社 | Common parameter interface-generating program and parameter readout program |
| CN105450596A (en) * | 2014-08-12 | 2016-03-30 | 阿里巴巴集团控股有限公司 | Data processing method and device |
| CN105450596B (en) * | 2014-08-12 | 2018-12-14 | 阿里巴巴集团控股有限公司 | A kind of data processing method and equipment |
| TWI805349B (en) * | 2022-05-05 | 2023-06-11 | 財團法人國家實驗研究院 | Data integration system and method on programmable switch network |
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Application publication date: 20120606 |