KR20140010643A - Method for collecting sensing data using portable terminal and apparatus for collecting sensing data - Google Patents

Abstract

Disclosed are a method for collecting sensing data using a portable terminal and an apparatus for collecting sensing data. The method for collecting sensing data using a portable terminal authenticates with a sensing application server, if succeeds in authentication, activates at least one sensor node, transmits to the sensing application server sensing data received from at least one activated sensor node, and deactivates at least one activated sensor node. Thus, a sensor network service can be provided even in areas impossible to install internet due to geological or environmental reasons, and the power consumption of sensor nodes can be reduced. [Reference numerals] (100) Sensor node; (200) mobile terminal; (300) Base station; (400) Internet; (500) Sensing application server

Description

METHOD FOR COLLECTING SENSING DATA USING PORTABLE TERMINAL AND APPARATUS FOR COLLECTING SENSING DATA}

The present invention relates to sensor network technology, and more particularly, to a sensing data collection method and a sensing data collection device using a portable terminal.

The sensor network is a communication network where sensor nodes and sink nodes interact with each other. Sensor nodes frequently detect changes in conditions or situations occurring in the installed environment and convert them into information. The sink node transmits the information to the sink node located above the network, and the sink node transmits the information to the gateway (or coordinator) which is connected to the Internet and located above the sink node.

Sensor nodes or tags are installed at various locations to recognize people, objects, and environment information, integrate and process the recognized information, and then transmit them through the network. The sent sensing information is used for environmental management, energy saving, It is used in various fields such as growth management, disaster and disaster prevention, and logistics tracking.

For example, the use of sensor networks in industry-wide production processes, such as raw material management, production automation and product history management, can increase productivity and efficiency, as well as environmental, meteorological, ecosystem, disaster prediction and disaster prevention, facility control, and traffic information. And the application of sensor networks in a wide range of areas such as control, logistics, home or office automation, healthcare, welfare, education, methods and security can significantly improve the welfare of the people.

Ubiquitous sensor network (USN) is composed of sensor network, middleware and service platform, network operation and security, and application service technology. IEEE 802.15.4x version Uses various wireless personal area network (WPAN) wireless communication methods such as ZigBee, Wi-Fi, Infrared, Bluetooth, Ultra Wide Band (UWB) Data is transmitted and received using a broadband integrated network such as Ethernet, Asymmetric Digital Subscriber Line (ADSL), communication, and a mobile communication network such as 2G, 3G, and 4G.

The data type used for the USN consists of sensing and control data and an identifier assigned to the sensor. In addition, USN is a network of all existing networks such as star, mesh, peer-to-peer, cluster, linear, ad-hoc, and cellular. Topologies can be used.

Meanwhile, in the Zigbee network, one of the sensor networks constituting the USN, a sensor node is configured as an end device, and a star and a mesh are connected by connecting each sensor node using a router and a coordinator. And / or hierarchical topology may be configured in a tree structure. Here, the coordinator is connected to the Internet and transmits the sensing data received from the plurality of sensor nodes to the sensor application server through the IP-based network.

Therefore, in order to transmit sensing data transmitted from the plurality of sensor nodes to the application server, the sensor network must be configured in an environment where the Internet can be connected at all times.

However, it is difficult to construct the Internet in all areas and there is a problem in that the sensor network cannot be configured in an environment in which the Internet is not established.

For example, if you want to use the sensor network for specific purposes, such as environmental pollution monitoring in rivers, seas, or oceans, as described above, it is difficult to construct the sensor network because it is difficult to establish the Internet in a wide range of regions. none.

In addition, in the sensor network, a large number of battery-operated sensor nodes are distributed and used in a wide range of environments, so frequent replacement of the battery of the sensor nodes is time and economically inefficient. Therefore, the sensor node can operate at low power, and it is essential to be small and light, and thus a method for operating the sensor node at low power according to an application of the sensor network is required.

An object of the present invention for solving the above problems is to provide a sensing data collection method using a portable terminal that can dynamically configure the sensor network, and can minimize the power consumption of the sensor node.

In addition, another object of the present invention is to provide a sensing data collection device for executing the sensing data collection method.

According to the sensing data collection method using the portable terminal according to an aspect of the present invention for achieving the above object, the step of performing authentication with the sensing application server, and if the authentication is successful, activate at least one sensor node And transmitting sensing data received from the activated at least one sensor node to the sensing application server, and deactivating the activated at least one sensor node.

The authenticating with the sensing application server may include transmitting an authentication request to the sensing application server through a mobile communication network and receiving an authentication approval from the sensing application server through a mobile communication network.

Here, when the authentication is successful, activating the at least one sensor node comprises: transmitting an activation request to the at least one sensor node through a sensor network and at least one sensor node in response to the activation request. And receiving an activation report from the sensor node.

The deactivating of the at least one sensor node may include transmitting a termination request indicating termination of collection of sensing data to the sensing application server, and confirming termination of the at least one sensor node in response to the termination request from the sensing application server. And receiving a deactivation request to the activated at least one sensor node, and receiving a deactivation report in response to the deactivation request from the activated at least one sensor node.

The deactivating of the activated at least one sensor node may include receiving a termination request indicating termination of sensing data collection from the sensing application server, and transmitting a deactivation request to the activated at least one sensor node. And receiving a deactivation report from the activated at least one sensor node in response to the deactivation request, and transmitting a termination report to the sensing application server in response to the received deactivation report. have.

In addition, according to the sensing data collection device according to an aspect of the present invention for achieving another object of the present invention, a coordinator application for receiving the sensing data from at least one sensor node and transmitting the received sensing data to the sensing application server And a sensor network module configured to execute a processor and a UICC, and communicate with the at least one sensor node through a sensor network according to the control of the coordinator application.

Here, the coordinator application performs authentication with the sensing application server, and if authentication is successful, transmits an activation request to the at least one sensor node through the sensor network module, and at least one activated through the sensor network module. After receiving the sensing data from the sensor node, the received sensing data may be transmitted to the sensing application server through a mobile communication network.

In this case, when the coordinator application transmits a termination request to the sensing application server and receives a termination approval from the sensing application server, the coordinator application may transmit a deactivation request to the activated at least one sensor node through the sensor network module.

In this case, when the coordinator application receives the termination request from the sensing application server, the coordinator application transmits a deactivation request to the activated at least one sensor node through the sensor network module, and receives a deactivation report from the activated at least one sensor node. The termination report may be transmitted to the sensing application server.

Here, the sensor network module may be configured as a module for performing Zigbee communication.

According to the sensing data collection method and the sensing data collection apparatus using the portable terminal as described above, it is possible to provide a sensor network service by constructing a sensor network even in an environment in which it is difficult to collect sensing information because the Internet cannot be installed geographically or environmentally. have. For example, even in an environment in which it is difficult to install the Internet, such as a river, the sensor network may be configured to collect sensing data to provide sensor network application services such as water quality inspection of the river and environmental pollution check.

In addition, the sensing data collection method using the portable terminal according to the present invention may activate the sensor nodes to collect the sensing data only when the sensing data needs to be collected, and the sensor nodes may operate in the inactive mode, which is a low power mode. Therefore, when applied to a sensor network application service that collects sensing data intermittently without the need for continuous monitoring, the power consumption of sensor nodes can be significantly reduced.

In addition, when the sensing data collection method using the portable terminal according to the present invention is applied to the u-Health application field, a sensor node equipped with a sensor such as respiration detection, body temperature, blood pressure, etc. is attached to the user's body and By using the portable terminal to transmit the measured data to the medical system can provide medical support services anytime and anywhere.

1 is a conceptual diagram illustrating an environment in which a sensing data collection method is executed using a portable terminal according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a portable terminal according to an embodiment of the present invention.
3 is a flowchart illustrating a sensing data collection method according to an embodiment of the present invention.
4 is a flowchart illustrating a sensing data collection method according to another embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail.

It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be interpreted in an ideal or overly formal sense unless explicitly defined in the present application Do not.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In order to facilitate the understanding of the present invention, the same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted.

Hereinafter, in the sensing data collection method using the portable terminal according to an embodiment of the present invention, a UICC (Universal Integrated Circuit Card) equipped with a sensor network module is mounted on a portable terminal such as a smartphone or a tablet PC and sensed by the portable terminal. By executing the coordinator application, the portable terminal can be used as the coordinator of the sensor network so that the sensing data can be transmitted to the sensing application server through the mobile communication network even in an environment in which the Internet is difficult to construct.

1 is a conceptual diagram illustrating an environment in which a sensing data collection method is executed using a portable terminal according to an embodiment of the present invention.

Referring to FIG. 1, in the sensing data collection method according to an embodiment of the present invention, a plurality of sensor nodes 100 are interspersed in an area to collect sensing data, and the portable terminal 200 uses a wireless interface. Through the sensing data from the plurality of sensor nodes 100 or through communication with the plurality of sensor nodes 100 to control the activation and deactivation operation of the plurality of sensor nodes 100. Here, the portable terminal 200 may be equipped with a Zigbee module as a sensor network module capable of communicating with a plurality of sensor nodes 100 through a wireless interface, the Zigbee module is a UICC (or smart card) form Is configured to be mounted on or removed from the portable terminal 200.

The portable terminal 200 may communicate with the plurality of sensor nodes 100 through a Zigbee communication scheme. However, the communication method between the portable terminal 200 and the plurality of sensor nodes 100 is not limited to Zigbee communication, and the present invention does not exclude the application of various wireless communication technologies.

In addition, the portable terminal 200 may transmit data collected from the plurality of sensor nodes 100 to the sensing application server 500 through a mobile communication network.

That is, the portable terminal 200 transmits the sensing data collected from the plurality of sensor nodes 100 to the base station 300 of the mobile communication network, and the base station 300 is the sensing application server 500 connected to the Internet 400. The sensing data received from the portable terminal 200 may be transmitted.

The sensing application server 500 is connected to the Internet 400, collects sensing data transmitted from the base station 300 of the mobile communication network, and processes and processes the sensing data.

2 is a block diagram showing the configuration of a portable terminal according to an embodiment of the present invention.

Referring to FIG. 2, the portable terminal 200 according to an embodiment of the present invention forms a coordinator 210 and a UICC 230 for communicating with a plurality of sensor nodes 100 and transferring data accordingly. It may include a Zigbee module 231 provided with.

The coordinator 210 may include a user interface unit 211, a control command processor 213, a sensing data processor 215, and a socket interface unit 217.

The user interface 211 provides a user interface of the coordinator 210 that performs Zigbee communication with the plurality of sensor nodes 100. For example, the user interface unit 211 provides a user interface to receive a command for Zigbee communication from the user, and provides a command provided from the user to the control command processor 213. In addition, the user interface unit 211 receives a predetermined processing result from the control command processing unit 213 and outputs the processing result in various forms (sound, image, vibration, image, etc.) according to the user to recognize the processing result. Do it.

The user interface unit 211 may provide a user interface in a graphical user interface (GUI) manner.

The control command processing unit 213 provides a control command corresponding to the user command provided from the user interface unit 211 to the Zigbee module 231, or to the information provided from the sensing application server 500 through the socket interface unit 206. Corresponding instructions are provided to the Zigbee module 231.

For example, the control command processing unit 213 is provided with a user command instructing execution of the coordinator operation from the user interface unit 211, corresponding to the sensing request server through the socket interface unit 217 corresponding to the sensing application server ( 500, and when the authentication approval message transmitted from the sensing authentication server 500 is provided from the socket interface unit 217, the Zigbee module 231 provides an activation request message to be transmitted to the sensor nodes 100. can do.

Alternatively, when the user command for instructing termination of sensing data collection is provided from the user interface unit 211, the control command processor 213 transmits a termination request message through the socket interface unit 217 to correspond to the sensing application server 500. And a termination acknowledgment message transmitted from the sensing authentication server 500 from the socket interface unit 217, the Zigbee module 231 may provide a deactivation request message to be transmitted to the sensor nodes 100. have.

Alternatively, when the control command processor 213 receives the termination request message transmitted from the sensing authentication server 500 from the socket interface unit 217, the control command processor 213 transmits a deactivation request message to the sensor nodes 100 to the Zigbee module 231. When receiving a deactivation report from the sensor nodes 100 through the Zigbee module 203, it may be transmitted to the sensing application server 500 through the socket interface unit 217.

In addition, the control command processor 213 processes the data provided from the Zigbee module 231 and provides it to the user interface unit 211.

In addition, the control command processor 213 controls the socket interface unit 217 to sense data provided to the sensing data processor 215 through the Zigbee module 231 through the socket interface unit 217. To be delivered.

The control command processor 213 may communicate with the Zigbee module 231 of the UICC 230 according to ISO 7816.

The sensing data processor 215 receives the sensing data from the Zigbee module 231 of the UICC 230 and performs a processing to transmit the provided sensing data to the sensing application server 500, and then the socket interface unit 217. To provide. The sensing data processor 215 may communicate with the Zigbee module 231 of the UICC 230 according to ISO 7816.

The socket interface unit 217 provides an interface for providing the sensing application server 500 with the sensing data provided from the sensing data processor 215.

That is, the socket interface unit 217 provides a function for allowing the sensing data provided from the sensing data processor 215 to be provided to the sensing application server 500 through a base station of the mobile communication network.

The Zigbee module 231 is configured in the form of a UICC 230 may be mounted or removed from the UICC socket of the portable terminal 200, and communicates with the plurality of sensor nodes 100 under the control of the coordinator 210. It performs the function. Here, since the Zigbee module 231 is configured in the form of the UICC 230, the Zigbee module 231 communicates with the coordinator 210 in accordance with the ISO 7816 smart card international standard.

Meanwhile, the UICC 230 may include a Subscriber Identity Module (SIM) or Universal SIM (USIM) application in addition to the Zigbee module 231 according to the embodiment of the present invention.

The coordinator 210 illustrated in FIG. 2 may be configured as an application performed in the portable terminal 200, and may be installed as an application in the portable terminal 200. The processor provided in the portable terminal 200 may include the processor. By executing an application, a coordinator can perform a function.

FIG. 3 is a flowchart illustrating a sensing data collection method according to an embodiment of the present invention, wherein a plurality of sensor nodes 100, a coordinator of a portable terminal 200, and a sensing application server 500 are illustrated in FIG. 1. It shows the operation that is processed for data collection.

Referring to FIG. 3, when the coordinator operation is executed, the portable terminal 200 transmits an authentication request to the sensing application server 500 to receive sensing data collection from the plurality of sensor nodes 100 (S301). Here, the authentication request may include authentication information (eg, authentication ID) uniquely assigned to the portable terminal 200. Execution of the coordinator operation may be executed by a coordinator operation execution command provided from a user through the user interface unit 211 of the portable terminal 200, and the UICC 230 including the Zigbee module 231 is mounted in the UICC socket. It can also be configured to run automatically accordingly. The authentication request transmitted from the portable terminal 200 may be transmitted to the sensing application server 500 via the mobile communication network and the Internet.

The sensing application server 500 compares the authentication information of the portable terminal 200 with a pre-stored authentication list in response to the authentication request provided from the portable terminal 200, and when the authentication information exists in a preset authentication list, the authentication is approved. To transmit to the portable terminal 200 (S303). Alternatively, when the authentication information of the portable terminal 200 does not exist in the authentication list, the sensing application server 500 may transmit a message indicating an authentication failure to the portable terminal 200.

Here, the transmission of the sensing application server 500 to the portable terminal 200 means that the sensing application server 500 is ready to receive the sensing data transmitted from the portable terminal.

The portable terminal 200 receives the authentication approval from the sensing application server 500 and transmits a wake-up request to the plurality of sensor nodes accordingly (S305).

Sensor nodes 100 that are in an inactive mode (or sleep mode) or initially installed in a low power mode transition to a activation mode in response to an activation request provided from the portable terminal 200 and indicate that the state has transitioned to an activation mode. The activation report is transmitted to the portable terminal 200 (S307).

Thereafter, the sensor nodes 100 transmit sensing data to the portable terminal 200 according to a preset period (S309). Here, the sensor nodes 100 may transmit sensing data to the portable terminal 200 through Zigbee communication.

The portable terminal 200 transmits the sensing data received from the sensor nodes 100 to the sensing application server 500 (S311). Here, the portable terminal 200 may transmit the sensing data received from the sensor nodes 100 to the sensing application server 500 and simultaneously output the sensing data through the user interface.

As described above, after the sensing data is collected for a predetermined time, a collection end procedure for terminating the collection of the sensing data is performed. The sensing data collection end procedure may be started under the guidance of the portable terminal 200 or may be started under the guidance of the sensing application server 500.

3 illustrates a process of completing sensing data collection that is started under the initiative of the portable terminal 200.

In detail, the coordinator of the portable terminal 200 transmits a termination request to the sensing application server 500 instructing the termination of the collection of the sensing data (S313).

The sensing application server 500 transmits a termination approval to the portable terminal 200 in response to the termination request provided from the portable terminal 200 (S315).

The coordinator of the portable terminal 200 transmits a deactivation request to the sensor nodes 100 in response to the termination approval received from the sensing application server 500 (S317).

The sensor nodes 100 transition from the activation mode to the deactivation mode, which is a low power operation mode, in response to the deactivation request received from the portable terminal 200.

Thereafter, the sensor nodes 100 transmit a deactivation report indicating that the state has transitioned to the deactivation mode to the portable terminal 200 (S319).

4 is a flowchart illustrating a sensing data collection method according to another embodiment of the present invention, in which a sensing data collection method and an end process of collecting sensing data according to an embodiment of the present invention shown in FIG. 3 are different.

That is, in the sensing data collection method according to an embodiment of the present invention shown in FIG. 3, the sensing data collection end process is executed under the initiative of the portable terminal 200, but in another embodiment of the present invention illustrated in FIG. Sensing data collection end process is executed under the control of the application server 500.

Since steps S401 to S411 shown in FIG. 4 are the same as steps S301 to S311 shown in FIG. 3, description thereof will be omitted to avoid duplication. Hereinafter, only the sensing data collection end process will be described in detail.

After the sensing data is collected for a predetermined time through steps S401 to S411, the sensing application server 500 transmits a termination request to the portable terminal 200 to indicate the end of the collection of the sensing data (S421).

The portable terminal 200 transmits a deactivation request to the sensor nodes 100 in response to the termination request received from the sensing application server 500 (S423).

The sensor nodes 100 change the operation mode from the activation mode to the inactive mode in response to the termination request received from the portable terminal 200, and provide a deactivation report to the portable terminal 200 indicating that the operation mode has been changed to the inactive mode. It transmits (S425).

The portable terminal 200 transmits the termination report to the sensing application server 500 in response to the deactivation report transmitted from the sensor nodes 100 (S427), and the collection of the sensing data is terminated through this process.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be possible.

100: sensor node 200: portable terminal
210: coordinator 211: user interface unit
213: control command processor 215: sensing data processor
217: socket interface unit 230: UICC
231: Zigbee module 300: base station
400: Internet 500: Sensing Application Server

Claims (10)

In the sensing data collection method performed in the portable terminal,
Performing authentication with the sensing application server;
Activating at least one sensor node if authentication is successful;
Transmitting sensing data received from at least one activated sensor node to the sensing application server; And
Deactivating the activated at least one sensor node. The method according to claim 1,
Performing authentication with the sensing application server
Transmitting an authentication request to the sensing application server through a mobile communication network; And
And receiving an authentication approval from the sensing application server through a mobile communication network. The method according to claim 1,
If the authentication is successful, activating at least one sensor node,
Sending an activation request to the at least one sensor node via a sensor network; And
And receiving an activation report from at least one sensor node through a sensor network in response to the activation request. The method according to claim 1,
Deactivating the activated at least one sensor node,
Transmitting a termination request to the sensing application server to terminate sensing data collection;
Receiving a termination approval from the sensing application server in response to the termination request;
Transmitting a deactivation request to the activated at least one sensor node; And
And receiving a deactivation report from the activated at least one sensor node in response to the deactivation request. The method according to claim 1,
Deactivating the activated at least one sensor node,
Receiving a termination request indicating termination of sensing data collection from the sensing application server;
Transmitting a deactivation request to the activated at least one sensor node;
Receiving a deactivation report from the activated at least one sensor node in response to the deactivation request;
And transmitting a termination report to the sensing application server in response to the received deactivation report. A processor executing a coordinator application for receiving sensing data from at least one sensor node and transmitting the received sensing data to a sensing application server; And
And a sensor network module configured in a UICC form and configured to communicate with the at least one sensor node through a sensor network under the control of the coordinator application. The method of claim 6,
The coordinator application performs authentication with the sensing application server, and if authentication is successful, transmits an activation request to the at least one sensor node through the sensor network module, and at least one sensor node activated through the sensor network module. And receiving the sensing data from the sensing application server and transmitting the received sensing data to the sensing application server through a mobile communication network. The method of claim 6,
The coordinator application transmits a termination request to the sensing application server and receives a termination approval from the sensing application server, and transmits a deactivation request to the activated at least one sensor node through the sensor network module. Collection device. The method of claim 6,
When the coordinator application receives the termination request from the sensing application server, the coordinator application transmits a deactivation request to the activated at least one sensor node through the sensor network module, and receives the deactivation report from the activated at least one sensor node. Sensing data collection device characterized in that for transmitting the termination report to the application server. The method of claim 6,
The sensor network module is a sensing data collection device, characterized in that the module for performing Zigbee communication.

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