KR100758097B1 - System and method for managing sensor network based on snmp - Google Patents

Abstract

The present invention relates to an SNMP-based sensor network management system and a method thereof, and more particularly, to the system of the present invention, a network manager connected to the Internet and receiving a request for management information of the sensor network and receiving sensor network information, and connected to the Internet. The base station unit receives sensor network information by wireless communication to the sensor network in response to the management information request of the network manager, and transmits the sensor network information to the network manager. It includes a sensor network for transmitting in the station portion by wireless communication. Therefore, the present invention can centrally manage the sensor network for different applications without changing the sensor network and the SNMP-based network manager system already installed in one network manager.

SNMP, Sensor Network, Network Manager

Description

SNMP-based sensor network management system and its method {SYSTEM AND METHOD FOR MANAGING SENSOR NETWORK BASED ON SNMP}

1 is a configuration diagram schematically showing a system for managing an SNMP-based sensor network according to the present invention;

2 is a diagram illustrating an internal configuration of a base station unit in a system for managing an SNMP-based sensor network according to the present invention;

3 is a flowchart sequentially illustrating a method for managing an SNMP-based sensor network according to the present invention.

<Description of the code | symbol about the principal part of drawing>

10: network manager

20: base station

30: sensor network

The present invention relates to a network management system, and more particularly, to a method for managing a network based on a simple network management protocol (SNMP) that can centrally manage different types of sensor networks.

Early Internet network management in the TCP / IP environment used the Internet Control Message Protocol (ICMP) through ping, which we usually use, to grasp the connection status between end-to-end devices. It simply provided information such as measuring the response time or information on whether the other host was working.

However, as the number of hosts connected to the Internet has increased significantly and the network configuration has become complicated, new standardized protocols are needed. Accordingly, the Internet Architecture Board (IAB) began to standardize protocols, and until then, protocols such as High Level Entity Management System (HIMS), Simple Gateway Monitoring (SGMP), and Common Management Information Protocol / Services (CMIP / CMIS) have been developed.

Currently, SNMP, which developed SGMIP among these protocols, is an application layer protocol that is designed to exchange management information between network devices, and uses management information base (MIB) as a management information. SNMP is a protocol that constitutes the TCP / IP protocol suite, which allows network administrators to manage information about network performance, help them find and resolve problems when they occur on the network, and To help plan growth. SNMP is widely used as a network management protocol standard because it is easy and simple to implement for network management.

On the other hand, a sensor network refers to a network of equipment that uses sensors to obtain and use information such as temperature, humidity, pressure, vibration, and noise for a given region. Veterinary equipment is installed. However, this feature is sensitive to power consumption and limits computation speed and network bandwidth.

However, SNMP is primarily used for networks with a TCP / IP layer, and for devices that are relatively resource-rich in terms of power or memory, so it is not possible to directly use them in sensor networks with no TCP / IP layer and extremely limited resources. There is a problem.

In addition, it is difficult to apply SNMP to the sensor network because the address system of each node constituting the sensor network does not have a standard defined differently from the existing network using SNMP and has a different form depending on the application. That is, SNMP can manage one type of local sensor network, but there is a problem that it is impossible to manage different sensor networks of different types as a whole.

SNMP is also an unsuitable protocol for sensor devices that need to minimize power consumption because of the polling mechanism.

Therefore, SNMP cannot be applied to a sensor network as it is, and a research and technology development on a new network management architecture for managing a sensor network is required, such as the need to change a system of an administrator for a new network management architecture.

SUMMARY OF THE INVENTION An object of the present invention is to solve the problems of the prior art, and provides an SNMP-based sensor network management system that allows an administrator to centrally manage a plurality of sensor networks having different forms using SNMP. It is.

Another object of the present invention is to provide an SNMP-based sensor network management method capable of centrally managing information of a sensor network.

In order to achieve the above object, the present invention provides a system for managing a sensor network, comprising: a network manager connected to the Internet and receiving management information of the sensor network and receiving sensor network information; and a management information of the network manager connected to the Internet. The base station unit receives sensor network information by wireless communication to the sensor network in response to a request, and transmits the sensor network information to the network manager, and sensor devices having different forms. And a sensor network for transmitting, wherein the base station unit includes a TCP / IP for communicating with a network manager through the Internet, an RF module for wirelessly communicating with a sensor network using a wireless signal, and a cache for storing information transmitted from the sensor network. And SNMP related from TCP / IP Cache manager for transmitting the retrieved information to the network manager through TCP / IP if the retrieved network manager's information is retrieved from the cache and from the cache manager for transmitting the network manager's information to the sensor network if it is not retrieved from the cache. It further includes a SNMP engine for transmitting the information of the network manager to the cache manager and converts the information of the sensor network to SNMP, and a local protocol conversion unit for converting the information of the network manager to the local protocol of the sensor network and transmits the information to the RF module. .
In addition, in order to achieve the above object, the present invention provides a system for managing a sensor network, a network manager connected to the Internet and receiving the management information of the sensor network and receiving sensor network information, and a network manager connected to the Internet. The base station unit receives sensor network information through wireless communication to the sensor network in response to the management information request of the sensor and transmits the sensor network information to the network manager. It includes a sensor network for transmitting by wireless communication, the base station unit, TCP / IP to communicate with the network manager via the Internet, RF module for wireless communication with the sensor network using a wireless signal, and information transmitted from the sensor network A cache to store and incoming from TCP / IP If the network manager's information related to SNMP is retrieved from the cache, the searched information is transmitted to the network manager via TCP / IP. If the network manager's information is not retrieved from the cache, the cache manager is used to transmit the network manager's information to the sensor network. It further includes a SNMP engine for transmitting the information of the network manager transmitted from the network manager to the cache manager and converts the information of the sensor network to SNMP, and a local protocol conversion unit for converting the information of the network manager to the local protocol of the sensor network and transmits it to the RF module. do.

In order to achieve the above object, the present invention relates to a method for managing a sensor network, wherein information required by a network manager is pre-stored when management information of an SNMP-related sensor network is requested from a manager of a sensor network through the Internet. Determining, if the information requested by the network manager is not stored in advance, converting the SNMP-related information of the network manager into a local protocol of wireless communication, transmitting the local protocol to the sensor network; Receiving sensor network information from the sensor network, converting the sensor network information to SNMP, and transmitting the information to the network manager through the Internet.

DETAILED DESCRIPTION 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.

1 is a configuration diagram schematically showing a system for managing an SNMP-based sensor network according to the present invention.

As shown in FIG. 1, the SNMP-based sensor network management system according to the present invention includes a sensor network 40 composed of sensor devices (sensor nodes) having different forms and a sensor network 40 using SNMP. The network manager 10 for monitoring the status of the sensor network and managing the characteristics of each sensor node of the sensor network 40, and collecting and storing data of the sensor network 40, and a base station unit that functions as an SNMP agent. 30). Here, reference numeral 20 denotes the Internet for transmitting information between the network manager 10 and the base station unit 30 through the TCP / IP protocol.

The network manager 10 is a computer of an administrator who manages the sensor network 40. The network manager 10 requests management information of the sensor network 40 from the base station unit 30 via the Internet 20, and then requests the base station unit 30. Receives sensor network information from) and stores and manages it.

The base station unit 30 includes an SNMP constituting a TCP / IP protocol suite for exchanging management information between network equipment.

The base station unit 30 finds sensor network information among previously stored information in response to a management information (MIB) request of the network manager 10 through the Internet 20, and transmits the sensor network information to the network manager 10.

The base station unit 30 transmits a management information (MIB) request to the sensor network 40 when there is no sensor network information for the management information (MIB) request of the network manager 10 among the previously stored information. The sensor network information from the network 40 is received and transmitted to the network manager 10 through the Internet 20.

In addition, the base station unit 30 includes a cash memory for storing sensor network information collected in the sensor network 40.

The sensor network unit 40 is composed of sensor equipment (sensor nodes) having different forms. Such sensor devices may include a sensor for obtaining respective sensor information such as temperature, humidity, pressure, vibration, and noise for a corresponding region, and a micro for calculating information obtained from the sensor in response to an information request of the base station unit 30. And a radio transmitter / receiver for receiving a signal from the controller and the base station unit 30, and transmitting sensor information calculated by the microcontroller to the base station unit 30 as the sensor network information.

Therefore, the SNMP-based sensor network management system according to the present invention centralizes the sensor network 40 having different types of sensor equipment through the base station unit 30 in one place of the network manager 10 using SNMP. Can manage

2 is a diagram illustrating an internal configuration of a base station unit in a system for managing an SNMP-based sensor network according to the present invention.

As shown in FIG. 2, the base station unit 30 includes a MIB cache 301, a cache manager 303, an SNMP engine 305, a TCP / IP 306, and a local protocol conversion unit ( 307, and an RF module 309.

The base station unit 30 of the present invention includes a TCP / IP 306 capable of communicating with a network manager via the Internet, and an RF module 309 capable of wirelessly communicating with a sensor network using a radio signal (RF). It has a dual stack structure comprising.

The MIB cache 301 stores management information (MIB) and sensor network information stored by the cache manager 303.

The cache manager 303 may search the MIB cache 301 according to the type of network manager command (ie, management information (MIB)) transmitted through the SNMP engine 305 or the local protocol converter 307 and the RF module ( In step 309, it is determined whether to send a command of the network manager to the sensor network.

The cache manager 303 transmits the sensor network information retrieved from the MIB cache 301 to the network manager through the SNMP engine 305 and TCP / IP, or transmits the local protocol converter 307 and the RF module 309. The sensor network information received from the sensor network is transmitted to the network manager.

Here, the management information MIB includes network configuration information indicating whether a sensor node survives and a topology of a network, an update value periodically sent from a sensor, a real-time measurement value by the sensor (that is, sensor network information), and an actuator control command. And the like. At this time, if the management information (MIB) transmitted from the cache manager 303 is the network configuration information and the periodic data update value, and stores it in the MIB cache 301 of the base station unit 30, the sensor measurement value and the actuator control command Instead of storing it in the MIB cache 301, it is transmitted to the network manager and the sensor network, respectively.

Also, if the information stored in the MIB cache 301 has a time-to-live (TTL), and the network manager does not request the information for a predetermined time, the cache manager 303 deletes the information stored in the MIB cache 301. This saves memory.

The SNMP engine 305 sends the command of the SNMP related network manager from the TCP / IP 306 to the cache manager 303.

The local protocol converter 307 converts the SNMP-related network manager's command from the cache manager 303 to the local protocol of the radio signal RF and transmits the command to the sensor network to the RF module 309. The local protocol of the radio signal (RF) transmitted from the sensor network through the RF module 309 is converted into an SNMP protocol and sent to the cache manager 303.

Therefore, the base station unit 30 requests management information (MIB) by converting to a local protocol of a radio signal (RF) for each sensor network without any change in the network manager and SNMP-based TCP / IP communication. And because it is transmitted, it is possible to centrally manage different types of sensor networks from one network manager.

In addition, since the base station unit 30 has a MIB cache 301 to store network manager commands (i.e., management information (MIB)) and sensor network information (i.e., sensor measurement values) transmitted from the sensor network. Since the sensor network information stored in the MIB cache 301 is searched and transmitted without requesting information from the sensor network each time, power consumption of the sensor network can be minimized.

3 is a flowchart sequentially illustrating a method for managing an SNMP-based sensor network according to the present invention.

1 to 3, the SNMP-based sensor network management system according to the present invention operates as follows.

First, a command (i.e., management information MIB) transmitted from the network manager 10 is transmitted to the base station unit 30 serving as an SNMP agent. (S10)

At this time, the management information MIB is classified into network configuration information indicating whether a sensor node survives and a topology of a network, an update value periodically sent from a sensor, a real-time measurement value by a sensor, an actuator control command, and the like. At this time, the network configuration information and the periodic update value are stored in the MIB cache 301 of the base station unit 30, and the sensor measurement value and the actuator control command are not stored in the MIB cache 301.

The cache manager 303 of the base station unit 30 determines whether the management information MIB is information that can be stored (that is, cached) in the MIB cache 301. (S12)

As a result of the S12 determination, when the non-storable management information MIB is transmitted, the base station 30 transmits the management information MIB through the local protocol converter 307 and the RF module 309. (S28) For example, when the management information (MIB) is a sensor measurement or actuator control command, the SNMP management information (MIB) is directly transmitted to a wireless signal. It transmits to the sensor network 40 as a local protocol of (RF).

If it is determined in S12 that the management information MIB transmitted from the network manager 10 is the storeable management information MIB, the cache manager 303 of the base station unit 30 transmits the management information MIB. It is searched whether it is in the MIB cache 301 (S14).

As a result of the S14 search, when the management information MIB is in the MIB cache 301 of the base station unit 30, the cache manager 303 finds it and the network manager 10 via the SNMP engine 305 and TCP / IP. At this time, since no management information (MIB) request is transmitted to the sensor network 40, power consumption for transmitting information from the sensor equipment to the base station unit 30 occurs. I never do that.

If it is determined in S16 that the corresponding management information MIB is not in the MIB cache 301 of the base station unit 30, the cache manager 303 may request the SNMP management information MIB request transmitted from the network manager 10. The local protocol converter 307 and the RF module 309 convert the radio protocol (RF) into a local protocol and transmit it to the sensor network 40. (S20) Accordingly, the sensor through the base station unit 30 Since the command (that is, management information (MIB) request) transmitted to the network unit 40 uses a local protocol according to each sensor network rather than SNMP, the sensor devices of the network manager 10 do not need to use TCP / IP. The request can be delivered.

The cache manager 303 of the base station unit 30 determines whether the sensor network information for the management information (MIB) request is transmitted from the sensor network 40 through the local protocol converter 307 and the RF module 309. (S22)

As a result of the determination in S22, when the sensor network information for the management information (MIB) request is transmitted, the cache manager 303 of the base station unit 30 is transmitted through the RF module 309 and the regional protocol converter 307. In operation S24, when the sensor network topology is changed in the sensor network due to the management information (MIB) request, the sensor network 40 bases the changed topology information. The base station 30 stores the sensor network topology (or updates) in the MIB cache 301.

The cache manager 303 of the base station unit 30 converts sensor network information (for example, sensor network topology) stored in the MIB cache 301 into SNMP through the SNMP engine 305, and converts it to SNMP via TCP / IP. It transmits to the network manager 10 via 306. (S18).

If, as a result of S22 determination, sensor network information for a corresponding management information (MIB) request is not transmitted, the cache manager 303 of the base station unit 30 may use the SNMP engine 305 and the TCP / IP 306. Send an error message to the network manager 10 (S26).

Therefore, the method for managing the SNMP-based sensor network according to the present invention, the base station 30 to each sensor network 40 without any change in the SNMP-based TCP / IP communication of the network manager 10 By converting into a local protocol of a suitable radio signal (RF) and requesting management information (MIB) to the sensor network 40 and receiving it, the centralized network of sensor networks 40 in one place are provided. Can focus management.

In addition, the present invention stores the instructions of the network manager 10 (ie, management information (MIB)) and sensor network information (ie, sensor measurement values) transmitted from the sensor network in the base station unit 30. Since it stores the information in the sensor network information stored in the MIB cache 301 without transmitting the information from the sensor network every time it can be transmitted to the network manager 10 can minimize the power consumption of the sensor network.

Meanwhile, the present invention is not limited to the above-described embodiments, but various modifications are possible by those skilled in the art within the spirit and scope of the present invention described in the claims below.

As described above, the present invention uses the base station unit to apply SNMP, which is already widely used, to a sensor network, thereby making it possible for different applications without changing the already installed sensor network and the SNMP-based network manager system. Centralized management of the sensor network from one network manager is efficient for network management.

In addition, the present invention can minimize the power consumption of the sensor network by storing the sensor network information in the cache of the base station, so that the stored information can be retrieved and transmitted without requiring the sensor network for each request of the network manager.

Claims (7)

delete A system for managing sensor networks, A network manager connected to the Internet and requesting management information of the sensor network and receiving the sensor network information; A base station unit connected to the Internet and receiving the sensor network information through wireless communication to the sensor network in response to a management information request of the network manager, and transmitting the sensor network information to the network manager; The sensor network is composed of different types of sensor equipment and transmits the information of the sensor equipment to the base station by wireless communication. Including; The base station unit includes a TCP / IP for communicating with the network manager through the Internet, an RF module for wirelessly communicating with the sensor network using the radio signal, and the command of the network manager related to SNMP coming from the TCP / IP. A cache manager for transmitting the data to the sensor network and transmitting the information transmitted from the sensor network to the network manager through the TCP / IP, and the network manager information transmitted from the TCP / IP to the cache manager. And an SNMP engine for converting information of the sensor network into the SNMP, and a local protocol converter for converting the information of the network manager into a local protocol of the sensor network and transmitting the information to the RF module. system. delete A system for managing sensor networks, A network manager connected to the Internet and requesting management information of the sensor network and receiving the sensor network information; A base station unit connected to the Internet and receiving the sensor network information through wireless communication to the sensor network in response to a management information request of the network manager, and transmitting the sensor network information to the network manager; The sensor network is composed of different types of sensor equipment and transmits the information of the sensor equipment to the base station by wireless communication. Including; The base station unit includes a TCP / IP for communicating with the network manager through the Internet, an RF module for wirelessly communicating with the sensor network using the radio signal, a cache for storing information transmitted from the sensor network; When the information of the network manager related to SNMP coming from the TCP / IP is retrieved from the cache, the retrieved information is transmitted to the network manager through the TCP / IP, and if the information of the network manager is not retrieved from the cache, A cache manager for transmitting to the sensor network, an SNMP engine for transmitting the information of the network manager transmitted from the TCP / IP to the cache manager and converting information of the sensor network into the SNMP, and information of the network manager To the local protocol of the sensor network SNMP-based sensor network management system further comprising a local protocol conversion unit for transmitting to the RF module. In the method of managing the sensor network, Determining whether the information requested by the network manager is pre-stored when receiving management information of the SNMP-related sensor network from the manager of the sensor network through the Internet; As a result of the determination, when the information requested by the network manager is not stored in advance, converting the SNMP related information of the network manager into a local protocol of wireless communication; Sending the local protocol to the sensor network; Receiving the sensor network information from the sensor network, converting the sensor network information into SNMP, and transmitting the information to the network manager through the Internet; SNMP-based sensor network management method comprising a. The method of claim 5, The method, As a result of the determination, if the information requested by the network manager is pre-stored, the SNMP-based sensor network management method further comprises converting the stored information into SNMP and transmitting the information to the network manager through the Internet. . The method according to claim 5 or 6, After receiving the information of the sensor network, SNMP-based sensor network management method further comprising the step of storing the information of the sensor network.

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