KR100916317B1 - Apparatus and method for managing network - Google Patents

Abstract

The present invention relates to an apparatus and method for managing a network, the apparatus for managing a network comprising a plurality of logical sensor networks each outputting at least one query and a plurality of physical sensors sensing a peripheral information corresponding to each input query and generating a report. Mappings that selectively connect networks. Therefore, according to the present invention, a plurality of sensor networks can be arranged in various ways according to a user's purpose of using a service business, and autonomy between the network operator and the service provider is ensured using the same. As autonomy between the network operator and the service provider is guaranteed, a more systematic ubiquitous sensor network business direction can be provided.

Logical Sensor Networks, Physical Sensor Networks, Network Managers, Mapping Tables, Queries, Reports

Description

Network management apparatus and method {APPARATUS AND METHOD FOR MANAGING NETWORK}

The present invention relates to a network management apparatus and method.

The present invention is derived from the research conducted as part of the IT growth engine technology development project of the Ministry of Information and Communication and the Ministry of Information and Communication Research and Development (Task Management Number: 2006-S-022-02, Task name: USN middleware platform technology development).

Recently, ubiquitous computerization technology and ubiquitous sensor network (USN) technology are in the spotlight as the next generation technology due to the development and popularization of computer networking technology. USN is not a concept of a single physical sensor network, but a network concept of a service unit in which nodes having various sensing functions communicate with each other by forming a network.

More specifically, the ubiquitous sensor network (USN) system is a ubiquitous concept of attaching RFID tags or sensor nodes to all necessary objects, and based on the recognition information of the objects through the sensor nodes, the surrounding environment. It is a system that combines the concept of sensing the information, such as temperature, humidity, pollution information, crack information, and the concept of a network that manages the information by connecting the environmental information obtained from the sensing to the network in real time. It refers to a system that implements an environment that can communicate anytime, anywhere, anything by providing computering and communication functions.

The ubiquitous sensor network system currently used is a sensor network specialized in application services, and application services and sensor networks have been developed one-to-one. However, a network operator who develops and deploys a sensor network and a provider that provides various services using the sensor network may be the same or different. Therefore, the service provider provides a service only in a network arranged for a purpose, and has a limitation in that it cannot use a network of a third party vendor.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a network management apparatus and method capable of variously arranging a plurality of sensor networks according to a purpose of use.

According to one aspect of the invention, a network management apparatus is provided. The management apparatus includes a plurality of logical sensor networks each outputting at least one query, a mapper selectively connecting a plurality of physical sensor networks generating a report by sensing peripheral information corresponding to each input query; A query regenerator that regenerates a first query received from at least one logical sensor network of logical sensor networks into a second query for transmitting to a corresponding physical sensor network of the plurality of physical sensor networks, of the plurality of physical sensor networks And a report assembler regenerating a first report received from at least one physical sensor network into a second report for transmitting to a corresponding logical sensor network of the plurality of logical sensor networks.

According to another aspect of the present invention, there is provided a network management method including a plurality of logical sensor networks each outputting at least one query and a plurality of physical sensor networks generating a report by sensing peripheral information corresponding to each input query. Is provided. The management method may further include selectively connecting the plurality of logical sensor networks and the plurality of physical sensor networks, and receiving a first query received from at least one logical sensor network of the plurality of logical sensor networks. Regenerating with a second query for transmission to a corresponding physical sensor network of the sensor network, wherein the physical sensor network senses peripheral information corresponding to the second query to form a first report, wherein the plurality of physical sensors Regenerating a first report received from at least one physical sensor network of the networks into a second report for transmitting to a corresponding logical sensor network of the plurality of logical sensor networks.

According to an embodiment of the present invention, a plurality of physical sensor networks may be arranged in various ways according to a service provider use purpose, thereby providing a more systematic ubiquitous sensing network business direction.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

Now, a network management apparatus and method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a sensor network system according to an exemplary embodiment of the present invention, and FIG. 2 is a diagram illustrating a mapping table of a sensor network according to an exemplary embodiment of the present invention.

As shown in FIG. 1, the sensor network system includes a plurality of physical sensor networks (P_SN # 1 to P_SN # N) 100, an adapter 200, a user application unit 300, and a network manager 400. ).

The plurality of physical sensor networks P_SN # 1 to P_SN # N 100 include a plurality of sensors (not shown) for acquiring peripheral information and are connected to these sensors. Here, the surrounding information is information such as things, environment, traffic and logistics / distribution, and one physical sensor network is one network unit in which the network operator installs, deploys, and operates the network according to the purpose of use. The physical sensor network senses peripheral information about the input query and generates a report corresponding to the query.

The adapter 200 performs protocol conversion between the plurality of physical sensor networks 100 and the network manager 400 defined by different protocols. The adapter 100 may include a plurality of adapters (Adaptor # 1 to Adapter # N), and one adapter may connect one or more physical sensor networks, or one or more adapters may connect one physical sensor network.

The user application unit 300 includes a plurality of logical sensor networks L_SN # 1 to L_SN # N. One logical sensor network is a network unit in which a user having a service business accesses / operates a plurality of physical sensor networks according to a purpose of use. More specifically, the logical sensor network is to access and operate the physical sensor network to provide a user with various services such as water and sewage management, medical services, building management using a variety of physical sensor network.

The network manager 400 calculates a query input from the logical sensor network and delivers the report to the physical sensor network capable of sensing a report about the query. Then, the report inputted from the physical sensor network is calculated and delivered to the logical sensor network that requested the report.

As shown in FIG. 1, the network manager 400 includes an ID mapper 410, a query regenerator 420, an adapter input / output 430, a report assembler. (Report Assembler) 440, Report Output 450, Error Reporter 460, and Network Self-Healing Manager 470.

The ID mapper 410 uses the mapping table shown in FIG. 2 to map the identifier (ID) of the logical sensor network in which the query is input to the identifier (ID) of the physical sensor network and the identifier (ID) of the adapter. In FIG. 2, the identifier of the logical sensor network is represented by L_SN # 1 to L_SN # N, the identifier of the physical sensor network is represented by P_SN # 1 to P_SN # N, and the identifier of the adapter is Adaptor # 1 to Adapro # N. Indicated by. As illustrated in FIG. 2, the ID mapper 410 may variously map an identifier of a logical sensor network and a physical sensor network identifier to 1: 1, 1: N, M: 1, or M: N. In addition, the ID mapper 410 may variously map the identifier of the logical sensor network and the identifier of the adapter to 1: 1, 1: N, M: 1 or M: N. At this time, N and M are integers larger than one. As described above, the ID mapper indicates the connection relationship between the networks using the identifier of the sensor network, but the identifier of the sensor network will be described as a sensor network and described below.

The query regenerator 420 regenerates the query to suit the number of mapped physical sensor networks and adapters. For example, if one or more physical sensor networks are mapped to one logical sensor network or one or more adapters are mapped, query regenerator 420 may respond to one or more physical sensor networks or one or more adapters, respectively. Regenerate with multiple queries.

The adapter input / output unit 430 outputs the query generated by the query regenerator 420 to the adapter, and receives a report on the query through the adapter.

The report assembler 440 uses the mapping table to map the identifier of the physical sensor network that entered the report with the identifier of the logical sensor network. The report assembler 440 then regenerates the report to correspond to the identifier of the logical sensor network that will receive the report. For example, when one or more logical sensor networks are mapped to one physical sensor network identifier according to the mapping table, the report assembler 440 may generate a plurality of reports so that one report corresponds to each of the one or more logical sensor networks. Reorganize into a report. Similarly, when more than one logical sensor network is mapped to one adapter, the report assembler 440 regenerates one report into a plurality of reports such that one report corresponds to each of the one or more logical sensor networks.

The report writer 450 outputs the report output from the report assembler 440 to the corresponding logical sensor network.

The error reporter 460 detects whether an error occurs in the report assembler 440 or not. In this case, an error may occur because the report itself is incorrect, and may occur in the process of regenerating the report. If an error occurs in the report assembler 440, the error reporter 460 notifies the user application 300 of the error and also notifies the error to the network operator managing the physical sensor network. The network operator may know the error through the alarm function of the error reporter 460.

The network self-healing manager 470 searches for a physical sensor network capable of sensing the correct report in response to an existing query when an error occurs because the report is not correct. The network self-healing manager 470 modifies the mapping table such that the physical sensor network to be searched and the logical sensor network which transmitted the existing query are mapped.

As such, the network manager 400 may map the logical sensor network and the physical sensor network at various ratios such as 1: 1, 1: N, M: 1, or M: N, as defined in the mapping table. Therefore, by modifying the mapping table according to the business purpose, the user can arrange and operate the actual physically arranged sensor network as a desired sensor network (logical sensor network) group. Hereinafter, a method for managing a network in which a user arranges a plurality of sensor networks as desired using a mapping table will be described with reference to FIGS. 3 to 6.

3 to 6 are diagrams illustrating a network management method according to an exemplary embodiment of the present invention. In FIG. 3 to FIG. 6, the logical sensor network and the physical sensor network are mapped according to the mapping table shown in FIG. 2.

As shown in FIGS. 3A and 3B, the network manager 400 manages a network by mapping a logical sensor network and a physical sensor network 1: 1. As shown in FIG. 3A, the network manager 400 sends a query Q1 of the logical sensor network L_SN # 1 to the physical sensor network P_SN # 1 through the adapter Adapter # 1 with reference to the mapping table. do. The physical sensor network P_SN # 1 senses the report R1 corresponding to the query Q1 and transmits it to the network manager 400 through the adapter Adapter # 1. The network manager 400 regenerates the report R1 and sends it to the logical sensor network L_SN # 1.

In general, a physical sensor network (P_SN) is a single physical sensor network deployed in physical or wide area. In this case, when the physical sensor network is wide area or physically separated, but operated as one physical sensor network, as shown in FIG. 3B, a plurality of adapters (Adaptor # 2 and Adapter # 3) are connected to one physical sensor network P_SN # 2. Can be connected.

As shown in FIG. 3B, the network manager 400 sends a query Q2 of the logical sensor network L_SN # 2 to the physical sensor network P_SN # 2 through the adapter Adapter # 2 with reference to the mapping table. do. The physical sensor network P_SN # 2 senses the report R2 corresponding to the query Q2 and transmits it to the network manager 400 through the adapter Adapter # 3. The network manager 400 regenerates and transmits the report R1 to the logical sensor network L_SN # 2 so that the report R1 joins the query Q2. In this case, the network manager 400 may select the adapter such that the query Q2 is transmitted only through one of the adapter Adapter # 2 and the adapter # 3. In addition, the network manager 400 may regenerate the query Q2 so that the query Q2 is transmitted through both the adapter Adapter # 2 and the adapter # 3. The physical sensor network (P_SN # 2) sends a report (R2) through one of the adapters (Adaptor # 2) and adapter (Adaptor # 3), or both adapters (Adaptor # 2) and adapter (Adaptor # 3). Report R2 can be transmitted via.

As shown in FIGS. 4A and 4B, when a plurality of logical sensor networks share one physical sensor network, the network manager 400 manages the network by mapping the logical sensor network and the physical sensor network to M: 1. . As shown in FIG. 4A, the network manager 400 refers to the mapping table to query the queries Q3 and Q4 of the two logical sensor networks L_SN # 3 and L_SN # 4, respectively, with the adapter Adapter # 4 and the adapter ( The data is transmitted to the physical sensor network P_SN # 3 through the adapter # 5. Referring to the mapping table of FIG. 2, the query Q3 of the logical sensor network L_SN # 3 is transmitted to the physical sensor network P_SN # 3 through the adapter Adapter # 4, and the query Q4 is transmitted to the adapter (Adaptor). # 5) to the physical sensor network P_SN # 3. However, the network manager 400 modifies the mapping table according to the situation to map the logical sensor network L_SN # 3 and the adapter Adaptor # 5, and map the logical sensor network L_SN # 4 and the adapter Adaptor # 4. Can be mapped. The physical sensor network P_SN # 3 senses the reports R3 and R4 corresponding to the queries Q3 and Q4 and transmits them to the network manager 400 through the adapters Adapter # 4 and Adapter # 5. The network manager 400 regenerates the reports R3 and R4 and sends them to the logical sensor networks L_SN # 3 and L_SN # 4.

As shown in FIG. 4B, the network manager 400 physically queries the queries Q5 and Q6 of the two sensor networks L_SN # 5 and L_SN # 6 by referring to the mapping table through one adapter Adapter # 6. Transmit to sensor network P_SN # 4. The physical sensor network P_SN # 4 senses a report corresponding to the queries Q5 and Q6 of different logical sensor networks L_SN # 5 and L_SN # 6 to detect the report Q5 and Q6 through the adapter Adapter # 6. To send. The network manager 400 regenerates the report input from the physical sensor network P_SN # 4 into the reports R5 and R6 so as to correspond to the queries Q5 and Q6, and the corresponding logical sensor networks L_SN # 5 and L_SN # 6. Send the report (R5, R6).

5A and 5B, when one logical sensor network shares a plurality of physical sensor networks, the network manager 400 manages the network by mapping the logical sensor network and the physical sensor network to 1: N. . As shown in FIG. 5A, the network manager 400 refers to the mapping table and transmits a query Q7 of one logical sensor network L_SN # 7 through the adapter Adapter # 7 and the adapter Adapter8 respectively. The data is transmitted to the physical sensor network P_SN # 5 and the physical sensor network P_SN # 6. The query regenerator 420 of the network manager 400 regenerates the query Q7 such that the query Q7 corresponds to the physical sensor network P_SN # 5 and the physical sensor network P_SM # 6. The network manager 400 transmits the regenerated query Q7_1 to the physical sensor network P_SN # 5 through the adapter Adapter # 7 and sends the regenerated query Q7_2 to the physical sensor through the adapter Adapter # 8. Transmit to network P_SN # 6. The physical sensor network P_SN # 5 senses the report R7_1 corresponding to the query Q7_1 and transmits it to the network manager 400 through the adapter Adapter # 7. The physical sensor network P_SN # 6 senses a report R7_2 corresponding to the query Q7_2 and transmits it to the network manager 400 through the adapter Adapter # 8. The report assembler 440 of the network manager 400 calculates the report R7_1 and the report R7_2 to regenerate the report Q7, and sends the regenerated report Q7 to the corresponding logical sensor network L_SN # 7. do.

As shown in FIG. 5B, the network manager 400 refers to the mapping table to query the query Q8 of the logical sensor network L_SN # 8 through one adapter Adapter # 9 through the physical sensor network P_SN # 7. And physical sensor network (P_SN # 8). In general, since an adapter performs message conversion for one type of sensor network, two physical sensor networks P_SN # 7 and P_SN # 8 sharing one adapter are homogeneous sensor networks. The query regenerator 420 of the network manager 400 regenerates the query Q8 such that the query Q8 corresponds to the physical sensor network P_SN # 7 and the physical sensor network P_SN # 8. The network manager 400 transmits the regenerated query Q8_1 to the physical sensor network P_SN # 7 through the adapter Adapter # 9 and sends the regenerated query Q8_2 to the physical sensor through the adapter Adapter # 9. Transmit to network P_SN # 8. The physical sensor network P_SN # 7 senses a report R8_1 corresponding to the query Q8_1 and transmits it to the network manager 400 through the adapter Adapter # 9. The physical sensor network P_SN # 8 senses the report R8_2 corresponding to the query Q8_2 and transmits it to the network manager 400 through the adapter Adapter # 9. Then, the report assembler 440 of the network manager 400 calculates the report R8_1 and the report R8_2 to regenerate the report R8, and regenerates the regenerated report Q8 to the corresponding logical sensor network L_SN # 8. To send.

6A and 6B, the network manager 400 manages a network by mapping logical sensor networks and physical sensor networks to M: N. As shown in FIG. 6A, the network manager 400 refers to the mapping table and transmits the queries Q9 and Q10 of the two logical sensor networks L_SN # 9 and L_SN # 10 to the adapters Adaptor # 10 and Adaptor # 11 respectively. ) To the physical sensor networks P_SN # 9 and P_SN # 10. The physical sensor network P_SN # 9 senses a report R9 corresponding to the query Q9 and transmits it to the network manager 400 through the adapter Adapter # 10. The physical sensor network P_SN # 10 senses the report R10 corresponding to the query Q10 and transmits it to the network manager 400 through the adapter Adapter # 11. The network manager 400 transmits the reports R9 and R10 to the corresponding logical sensor networks L_SN # 9 and L_SN # 10, respectively.

As shown in FIG. 6B, the network manager 400 refers to the mapping table to query the queries Q11 and Q12 of the two logical sensor networks L_SN # 11 and L_SN # 12 through one adapter Adapter # 12. The data is transmitted to the physical sensor networks P_SN # 11 and P_SN # 12. At this time, the query regenerator 420 of the network manager 400 regenerates the queries Q11 and Q12 such that the queries Q11 and Q12 correspond to the physical sensor network P_SN # 11 and the physical sensor network P_SN # 12. do. The network manager 400 transmits the regenerated query Q11_1 to the physical sensor network P_SN # 11 through the adapter Adapter # 12 and sends the regenerated query Q12-1 through the adapter Adapter # 12. Transmit to physical sensor network (P_SN # 12). The physical sensor network P_SN # 11 senses a report R11_1 corresponding to the query Q11_1 and transmits it to the network manager 400 through the adapter Adapter # 12. The physical sensor network P_SN # 12 senses a report R12_1 corresponding to the query Q12_1 and transmits it to the network manager 400 through the adapter Adapter # 12.

5 and 6 illustrate that the network manager 400 regenerates the queries Q7, Q8, Q11, and Q12 into two queries according to the number of physical sensor networks. Q8, Q11, and Q12) can only be transmitted to one of the two physical sensor networks. When the queries Q7, Q8, Q11, and Q12 are transmitted to any one physical sensor network, the network manager 400 does not operate the physical sensor network to which the queries Q7, Q8, Q11, and Q12 are not transmitted. By selectively operating the physical sensor network, the network manager 400 can increase the reliability of the logical sensor network. (Ask the inventor in detail.) The network arrangements of FIGS. 5B and 6B are similar in physical size. It can be applied to sensor networks, and it is difficult to connect adapters for each physical sensor network, so it can be applied when a plurality of physical sensor networks are to be operated through one adapter.

7 is a flowchart illustrating a network management method according to an embodiment of the present invention.

When the query is input from the user application unit 300 (S10), the ID mapper 410 of the network manager 400 may identify an identifier of the logical sensor network that inputs the query according to the mapping table, and an identifier of the physical sensor network and an identifier of the adapter. (S20). At this time, the ID mapper 410 may be variously mapped so that the logical sensor network and the physical sensor network are connected to 1: 1, 1: N, M: 1 or M: N (S30). When the logical sensor network and the physical sensor network are connected 1: 1, the query regenerator 420 transmits the query to the physical sensor network through the adapter input / output unit 430 (S40). When the logical sensor network and the physical sensor network are connected by 1: N, M: 1 or M: N, the query regenerator 420 regenerates the query to be suitable for the physical sensor network to which the query is mapped (S50). For example, if one or more physical sensor networks are mapped to one logical sensor network (1: N), the query regenerator 420 regenerates one query into a plurality of queries corresponding to each of the one or more physical sensor networks. do. In contrast, if one physical sensor network is mapped to one or more logical sensor networks (M: 1), the query regenerator 420 regenerates one or more queries into one query. The query regenerator 420 transmits the regenerated query to the physical sensor network through the adapter input / output unit 430 (S40). The physical sensor network senses surrounding information corresponding to the input query to generate a report (S60). The physical sensor network transmits the report generated through the connected adapter to the report network manager 400 (S70). The report assembler 440 maps the identifier of the physical sensor network into which the report is input and the identifier of the logical sensor network using the mapping table (S80). In this case, the report assembler 440 may map variously so that the physical sensor network and the logical sensor network are connected to 1: 1, N: 1, 1: M or N: M (S90). When the physical sensor network and the logical sensor network are connected 1: 1, the report assembler 440 transmits the report to the logical sensor network through the report outputter 450 (S100). When the physical sensor network and the logical sensor network are connected by N: 1, 1: M or N: M, the report assembler 440 regenerates the report to be suitable for the logical sensor network to which the report is mapped (S110). For example, if one or more logical sensor networks are mapped to one physical sensor network (1: M), the report assembler 440 may generate a plurality of reports such that one report corresponds to each of the one or more logical sensor networks. Regenerate as a report. In contrast, when one logical sensor network is connected to one or more physical sensor networks (N: 1), the report assembler 440 regenerates one or more reports into one report. The report assembler 440 transmits the regenerated report to the logical sensor network through the report outputter 450 (S100). The error reporter 460 detects the report assembler 440 to detect whether the report is an error or whether an error occurs in the process of regenerating the report (S120). If there is an error in the report itself (S130), the network self-healing manager modifies the mapping table so that another physical sensor network generates a report corresponding to the query (S140). If an error occurs in the process of regenerating the report (S130), the error reporter 460 notifies the network operator of the error using the error alarm function (S150).

As described above, according to an exemplary embodiment of the present invention, a plurality of sensor networks may be arranged in various ways according to a user's purpose of using a service business, and the autonomy between the network operator and the service provider is guaranteed using the sensor network. As autonomy between the network operator and the service provider is guaranteed, a more systematic ubiquitous sensor network business direction can be provided.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a block diagram of a sensor network system according to an embodiment of the present invention.

2 is a diagram illustrating a mapping table of a sensor network according to an exemplary embodiment of the present invention.

3 to 6 are diagrams illustrating a network management method according to an exemplary embodiment of the present invention.

7 is a flowchart illustrating a network management method according to an embodiment of the present invention.

Claims (11)

A mapper for selectively connecting a plurality of logical sensor networks each outputting at least one query and a plurality of physical sensor networks generating a report by sensing peripheral information corresponding to each input query; A query regenerator that regenerates a first query received from at least one logical sensor network of the plurality of logical sensor networks into a second query for transmitting to a corresponding physical sensor network of the plurality of physical sensor networks; And a report assembler for regenerating a first report received from at least one physical sensor network of the plurality of physical sensor networks into a second report for transmitting to a corresponding logical sensor network of the plurality of logical sensor networks. . The method of claim 1, The mapper maps the plurality of logical sensor networks and the plurality of physical sensor networks to 1: 1, 1: N, M: 1 or M: N, And N and M are integers greater than one. The method of claim 1, The mapper is, The identifier corresponding to the first query, the identifier of the logical sensor network that inputs the first query using a mapping table in which a mapping relationship between the identifiers of the plurality of logical sensor networks and the identifiers of the plurality of physical sensor networks is defined; A network management device that maps to an identifier of a physical sensor network. The method of claim 3, The report assembler, And an identifier of the physical sensor network that has input the first report to an identifier of the logical sensor network corresponding to the first report by using the mapping table. The method of claim 1, The regenerator of the query, A network that regenerates the first query from the logical sensor network with the same number of second queries as the at least one physical sensor network when at least one physical sensor network is mapped to one logical sensor network; Management device. The method of claim 1, The report assembler, A network that regenerates the first report from the physical sensor network with the same number of second reports as the at least one logical sensor network when at least one logical sensor network is mapped to one physical sensor network; Management device. The method of claim 1, An error reporter that detects whether there is an error in the first report and whether an error occurs in the process of regenerating the second report, and A network self-healing manager that modifies the mapping table included in the mapper such that a physical sensor network other than the physical sensor network generating the first report generates the first report if there is an error in the first report or the second report. More, And the mapping table indicates a mapping relationship between identifiers of the plurality of logical sensor networks and identifiers of the plurality of physical sensor networks. The method of claim 1, Converting a protocol between the plurality of physical sensor networks and the network management apparatus and outputting the second query through a plurality of adapters connecting the plurality of physical sensor networks defined by different protocols and the network management apparatus; And an adapter input / output unit for receiving the first report. A network management method comprising a plurality of logical sensor networks each outputting at least one query and a plurality of physical sensor networks generating a report by sensing peripheral information corresponding to each input query, Selectively connecting the plurality of logical sensor networks and the plurality of physical sensor networks, Regenerating a first query received from at least one logical sensor network of the plurality of logical sensor networks into a second query for transmitting to a corresponding physical sensor network of the plurality of physical sensor networks; Sensing, by the physical sensor network, surrounding information corresponding to the second query to form a first report; and Regenerating a first report received from at least one physical sensor network of the plurality of physical sensor networks into a second report for transmitting to a corresponding logical sensor network of the plurality of logical sensor networks. . The method of claim 9, The selectively connecting step, 1: 1, 1: N, and the plurality of logical sensor networks and the plurality of physical sensor networks using a mapping table defining a mapping relationship between the identifiers of the plurality of logical sensor networks and the identifiers of the plurality of physical sensor networks. Maps to M: 1 or M: N, And N and M are integers greater than one. The method of claim 9, Detecting whether there is an error in the first report and detecting whether an error occurs in regenerating the second report; If there is an error in the first report, a mapping relationship between the plurality of logical sensor networks and the plurality of physical sensor networks is generated so that a physical sensor network other than the physical sensor network generating the first report generates the first report. To change, and If an error occurs in the step of regenerating the second report, notifying an error to a network operator managing the plurality of physical sensor networks.

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