KR20130010345A - Apparatus, method and system for sensor communication based on usn - Google Patents

Abstract

PURPOSE: A USN(Ubiquitous Sensor Network) sensor communication apparatus, a method thereof, and a system thereof are provided to minimize power consumption by selectively supplying power of a sensor module. CONSTITUTION: A communication unit(210) performs data communication with an adjacent USN sensor communication device or a center server. A control unit(220) includes a sensing value check unit, a power supply unit, and a data processing unit. The control unit transmits the condition information to the adjacent USN sensor communication device. The condition information includes a sensing value sensed from a standard sensor module. The control unit controls power supply to the sensor module. [Reference numerals] (210) Communication unit; (220) Control unit; (221) Sensing value checking unit; (222) Power supply unit; (223) Data processing unit; (224) Event generation alarm unit; (225) Counter unit; (226) Emergency warning unit; (230) Memory; (240) Display unit; (250) Speaker

Description

[0001] USN sensor communication apparatus, method and system for sensor communication based on USN [

The present invention relates to USN sensor communication devices, methods, and systems, and more particularly, to USN sensor communication devices, methods, and systems that control the operation of a plurality of sensor modules on a power supply.

A conventional Ubiquitous Sensor Network (hereinafter referred to as USN) sensor communication device comprises a communication module, a sensor module and a control module, and transmits sensor information (hereinafter referred to as " situation information " do. The central server collects and analyzes the status information received from the USN sensor communication device, and determines whether the USN sensor communication device is abnormal according to the analysis result. If it is determined that an abnormality has occurred, the central server notifies the manager of the danger through an actuator such as a speaker.

Such a conventional USN sensor communication device continuously supplies power to a plurality of sensor modules to receive status information from a plurality of sensor modules. However, the sensor modules of the USN sensor communication device have different power consumption characteristics. In order to reduce the power consumption, if the status information is acquired by on / off control according to the change of the situation, the USN sensor communication system can be operated efficiently have. For example, oxygen sensors and smoke sensors have very little power consumption, flame sensors consume relatively high power, and gas sensors have very high power consumption. If a fire is detected, first, an electric power is supplied to the oxygen sensor and the smoke sensor to acquire status information (presence or absence of oxygen concentration and smoke) to determine a fire first. If it is determined that there is an abnormal symptom, A stepwise power control method can be used in which the gas sensor is supplied with power to acquire additional situation information to more accurately determine the fire situation.

However, in the case of the conventional power supply method for the entire sensor module as in the prior art, the life of the battery is shortened, and as a result, the lifetime of the USN sensor communication device is shortened, and important situation information can not be collected effectively. Especially, it is not easy to replace the battery in the industrial field where the USN sensor communication device is used for safety control, and when the part of the USN sensor communication device does not operate due to power exhaustion of some USN sensor communication device, If the server can not collect the situation information properly, it can not detect the dangerous situation and it can cause a big human accident.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to minimize power consumption by selectively controlling power supply of a sensor module according to a situation.

Furthermore, the present invention aims at maximizing the lifetime of the battery, thereby enhancing the lifetime of the USN sensor communication device.

The above technical problem is achieved by the characteristic aspects of the present invention described below. The USN sensor communication apparatus according to the present invention includes a plurality of sensor modules, a communication unit for performing data communication with an adjacent USN (Ubiquitous Sensor Network) sensor communication device and / or a central server, And transmits the status information including the sensed sensed value to the adjacent USN sensor communication apparatus and / or the central server, and selectively controls the power supply of the remaining sensor modules according to the difference between the status information and a preset threshold value And a control unit.

The control unit may include a sensing value check unit for calculating an error value from a sensing value sensed by the reference sensor module and a threshold value of the reference sensor module and checking whether the error value is within a reference error range, A power supply unit for selectively supplying power to the remaining sensor modules according to a result of the checking of the sensing value check unit and a sensing value sensed by the reference sensor module or sensed by all the sensor modules, And a data processing unit for selectively transmitting, to the adjacent USN sensor communication apparatus and / or the central server, status information including sensing values and identification information stored in the memory.

In addition, the reference sensor module may be a sensor module having the smallest power consumption among the plurality of sensor modules.

The sensing value check unit calculates an error value between the sensed values sensed by the selected sensor modules and the threshold value of the selected remaining sensor module and checks whether the sensed values are within a reference error range, The control unit controls the power supply interruption of the selected remaining sensor module according to the check result of the value checking unit, and the control unit transmits the event occurrence information according to the check result of the sensing value check unit to the adjacent USN sensor communication device and / And an event occurrence notifying unit for transmitting the event notification.

The control unit may further include a counter unit for counting the number of sensed sensed values from the reference sensor module, and the power supply unit may selectively supply the remaining sensor modules in response to the number of sensed counts from the counter unit. Power supply can be controlled.

The power supply unit may selectively control power supply of the remaining sensor modules according to a predetermined time interval or a control command of the adjacent USN sensor communication device and / or the central server.

In addition, the control unit issues an emergency alert according to the alert command information received from the adjacent USN sensor communication apparatus and / or the central server that has received the event occurrence information, and the alert command information is not received within a predetermined time The emergency alert issuing unit may issue an emergency alert by itself.

According to another aspect of the present invention, there is provided a method of controlling operation of a plurality of sensor modules in a USN sensor communication apparatus, Calculating an error value from the sensed value and a preset threshold value to check whether the error value is within a reference error range, and controlling the power supply of the remaining sensor modules selectively according to the check result .

The method may further include counting a sensing value sensed by the reference sensor module and checking whether the sensed number of sensed sensing values is a preset threshold value, If the number of sensed times is a predetermined threshold value, the power of at least one selected sensor module among the remaining sensor modules may be supplied.

Calculating an error value from the sensed values obtained from the selected sensor module and a threshold value of the sensor module and checking whether the error value is within a reference error range; If it is determined that the selected remaining sensor module is within the reference error range as a result of the check, the power supply to the selected sensor module is interrupted. If it is determined that the selected sensor module is not within the reference error range, the central server and / And transmitting event occurrence information to the sensor communication device.

The reference sensor module may be a sensor module having the smallest power consumption among the plurality of sensor modules.

According to another aspect of the present invention, there is provided a USN sensor communication system for controlling operation of a plurality of sensor modules connected to a plurality of USN sensor communication devices, Status information including sensed values sensed and obtained from the plurality of sensor modules via data communication with sensor modules and / or status information including sensed values received from adjacent USN sensor communication devices is transmitted to a central server A USN sensor communication device for issuing an emergency alert in response to a control command of the central server, and a USN sensor communication device for receiving status information from the plurality of USN sensor communication devices, According to the difference between the sensing value of the reference sensor modules and the predetermined threshold value, the rest of the plurality of USN sensor communication devices Standing module includes a central server for selectively controlling the power supply.

In addition, the reference sensor module is a sensor having the least power among a plurality of sensor modules connected to each of the plurality of USN sensor communication devices, and the USN sensor communication device has a sensor value sensed from the reference sensor module, The power supply of the remaining sensor modules can be selectively controlled according to the degree of error of the threshold value for the reference sensor module.

In addition, the USN sensor communication apparatus can selectively control the power supply of the remaining sensor module according to the sensed number of sensed values sensed by the reference sensor module or a predetermined time interval.

The USN sensor communication apparatus may further include a USN sensor communication apparatus and a USN sensor communication apparatus, wherein the USN sensor communication apparatus is a USN sensor communication apparatus, and the USN sensor communication apparatus is a USN sensor communication apparatus, So that the power supply of the remaining sensor modules of the sensor module can be selectively controlled.

In addition, the central server may be configured to transmit the rest of the plurality of USN sensor communication apparatuses according to the number of sensed values of the reference sensor modules included in the status information received from the plurality of USN sensor communication apparatuses, The power supply of the sensor modules can be selectively controlled.

As described above, according to various embodiments of the present invention, the power supply of the remaining sensor modules is controlled according to the sensing value of the reference sensor module, thereby minimizing the power waste, thereby minimizing battery consumption .

More specifically, sensor modules attached to a typical USN sensor communication device have different power consumption characteristics. Therefore, as described in the present invention, when the power supply of each sensor module is controlled according to the sensing value of the reference sensor module, event detection can be continuously performed while minimizing consumption of the battery.

1 is a block diagram of a USN sensor communication system in accordance with an embodiment of the present invention;
2 is a block diagram of a USN sensor communication device for controlling the operation of a plurality of sensor modules according to an embodiment of the present invention;
3 is a flowchart of a method of controlling an operation of a plurality of sensor modules in a USN sensor communication apparatus according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The foregoing and further aspects of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail so that those skilled in the art can easily understand and reproduce the present invention through these embodiments.

1 is a block diagram of a USN sensor communication system in accordance with an embodiment of the present invention.

As shown in FIG. 1, a Ubiquitous Sensor Network (USN) sensor communication system includes a plurality of USN sensor communication devices 110, 120, and a central server 140. At least one USN sensor communication device 120 of the plurality of USN sensor communication devices 110, 120, and 130 performs data communication with the central server 140 through wired or wireless communication. Here, the USN sensor communication device 120 is a control device closest to the central server 140. In this case, the USN sensor communication device 120 may be connected to the USN sensor communication devices 110 and 130 adjacent thereto to perform data communication. Thus, the central server 140 may receive or transmit data from all USN sensor communication devices 110, 120, and 130 via the USN sensor communication device 120. [ However, the present invention is not limited thereto, and one of the USN sensor communication devices 110 and 130 may perform data communication to the central server 140 through wired or wireless communication, or may be configured such that each USN sensor communication device 110, 120, And can perform data communication with the server 140.

The plurality of USN sensor communication devices 110, 120, and 130 may receive the status information acquired from the at least one sensor modules and transmit the status information to the central server 140 or the adjacent USN sensor communication device 120. As shown, the USN sensor communication device 110 may obtain sensed sensed values from the sensor modules 1 to 3, and the USN sensor communication device 120 may acquire sensed sensed values from the sensor modules 4 to 6 . Then, the USN sensor communication device 130 can acquire the sensing value sensed from the sensor modules 7-9. According to an embodiment, the sensor modules 1, 4, 7 of the USN sensor communication devices 110, 120, 130 are sensor modules for sensing temperature, the sensor modules 2, 5, 8 are sensor modules for sensing oxygen concentration, 6, 9 may be a sensor module for detecting gas. In the present invention, only the sensor module for sensing temperature, oxygen, and gas is mentioned as an embodiment, but it is preferable that the sensor module can detect not only temperature, oxygen, and gas but also another sensor module.

Thus, the USN sensor communication apparatuses 110, 120, and 130 transmit status information including sensing values sensed from the sensor modules 1 to 9 to the central server 140. Here, the status information includes sensing values sensed from each sensor module, the degree of identification of each sensor module, and identification information of each USN sensor communication device. And emits an emergency alarm in accordance with a control command of the central server 140 that has received such status information. The USN sensor communication devices 110, 120, and 130 selectively control the operation of the sensor modules other than the reference sensor module that satisfies predetermined conditions of the sensor modules 1 to 9. According to an embodiment, the reference sensor module of USN sensor communication device 110 may be sensor module 2. Accordingly, the USN sensor communication device 110 can supply power to operate only the sensor module 2 as the reference sensor module. Here, the reference sensor module may be a sensor having the lowest power consumption among the sensor modules or a sensor having the highest importance of sensing according to a user's request. Accordingly, the USN sensor communication device 110 acquires the status information monitored from the sensor module 2, and determines whether the remaining sensor modules, that is, the sensor modules 1, 3, And supplies power to at least one sensor module. In this way, the USN sensor communication apparatus 110 can selectively control the power supply of the remaining sensor modules according to the sensing value sensed by the reference sensor module, thereby minimizing power consumption and extending the life of the battery to the maximum .

Meanwhile, the USN sensor communication apparatuses 110, 120 and 130 according to the present invention can selectively control the power supply of the remaining sensor modules according to the sensing value sensed by the reference sensor module, The power supply of the remaining sensor modules may be selectively controlled according to the number of times, or the power supply of the remaining sensor modules may be selectively controlled at a predetermined time interval.

According to one embodiment, the USN sensor communication device 110 counts the number of sensed sensed values from the sensor module 2, which is the reference sensor module, and compares the sensed value with a preset threshold z to reach the threshold z , It is possible to selectively supply power to the remaining sensor modules, that is, the sensor modules 1 and 3. According to yet another embodiment, the USN sensor communication device 110 may transmit the remaining sensor modules, that is, the sensor modules 1, 3 and 5, in units of a predetermined time interval, for example, 30 minutes, separately from the sensed values sensed from the reference sensor module As shown in FIG. In this way, the USN sensor communication apparatus 110 determines whether the occurrence of an event is checked from the sensing value sensed by the sensor module 2, which is the reference sensor module, or the sensor module 2, which is the reference sensor module, Even if it is not received, the sensing value is periodically received from the sensor modules 1 and 3, so that power consumption is minimized, and at the same time, sensing values of all the sensor modules are received and it is possible to check whether an event has occurred.

Each USN sensor communication apparatus 110, 120, and 130 checks whether an event has occurred from the sensing values received from the sensor modules 1 to 9 connected thereto, and transmits event occurrence information according to the check result to the central server 140 do.

On the other hand, event occurrence information of the USN sensor communication apparatuses 110, 120 and 130 is received from the nearest USN sensor communication apparatus 120, and according to the received event occurrence information, the emergency of each USN sensor communication apparatus 110, 120, The central server 140, which controls the alert issuance, can control the power supply of the sensor modules 1 to 9 connected to the respective USN sensor communication devices 110, 120 and 130.

According to an embodiment, the USN sensor communication devices 110 and 130 transmit status information including sensing values sensed from sensor modules 2 and 8, which are reference sensor modules, to USN sensor communication devices 120 adjacent to them. Accordingly, the USN sensor communication apparatus 120 transmits status information including a sensing value sensed from the sensor 5, which is a reference sensor module connected thereto, and status information including a sensing value received from the USN sensor communication apparatuses 110 and 130 To the central server (140). The central server 140 receiving the status information from the UNS sensor communication device 120 calculates the sensing values of the reference sensor modules included in the received status information and the error value of the threshold values related to the sensing values. Then, the central server 140 checks whether each of the calculated error values is formed within a predetermined tolerance range.

For example, if it is determined that the error value of the sensing value sensed from the reference sensor module of the UNS sensor communication device 120 is not formed within a predetermined error tolerance, the central server 140 transmits the error value to the UNS sensor communication device 120 The sensor modules 4 and 5 are selectively supplied with power. Accordingly, the USN sensor communication device 120 supplies power to at least one of the sensor modules 4 and 5 so that the USN sensor communication device 120 can detect It is possible to check whether an event has occurred by receiving the sensing value.

Meanwhile, the central server 140 according to the present invention can control the power supply of the remaining sensor modules by sensing values sensed from the reference sensor modules of the USN sensor communication devices 110, 120 and 130, 110, 120, and 130 in accordance with the number of sensed sensing values sensed from the reference sensor modules, or to control power supply to the remaining sensor modules at predetermined time intervals.

According to one embodiment, the central server 140 may be configured to count the number of times that status information, including the sensed value from the reference sensor module, is received from the USN sensor communication devices 110,120 and 130, z to reach a threshold value z, power is selectively supplied to the sensor modules other than the reference sensor modules of the respective USN sensor communication devices 110, 120, and 130. In accordance with such a power supply control command, the USN sensor communication apparatuses 110, 120, and 130 can selectively supply power to the remaining sensor modules.

 According to another embodiment, the central server 140 may control the USN sensor communication devices 110, 120, and 130 so that power is supplied to the remaining sensor modules at predetermined time intervals, for example, every 30 minutes. As described above, the central server 140 determines whether the occurrence of an event is not checked from the sensing value of the reference sensor module included in the status information received from the USN sensor communication apparatuses 110, 120, and 130 or the at least one of the USN sensor communication apparatuses 110, 120, It is possible to control the power supply of the sensor module related to the USN sensor communication devices 110, 120, and 130 even if an error occurs in data communication with one USN sensor communication device.

Meanwhile, according to a further aspect of the present invention, the USN sensor control devices 110, 120, and 130 can control the power supply of the sensor module of an adjacent USN sensor communication device, as well as control the power supply of its sensor module. According to an embodiment, when the USN sensor communication device 120 receives status information including the sensing value of the reference sensor module from an adjacent USN sensor communication device 110, The power supply of the remaining sensor modules of the USN sensor communication device 110 transmitting the status information can be selectively controlled according to the degree of the error of the threshold value. Accordingly, the present invention can not only control the power supply of the sensor modules of the USN sensor communication device, but also control the power supply of the sensor modules of the USN sensor communication device according to the control commands of the adjacent USN sensor communication device and / The power supply of the sensor modules can be controlled.

The central server 140 and the plurality of USN sensor communication devices 110, 120, and 130 are controlled to control the power supply related operations of the plurality of sensor modules connected to the plurality of USN sensor communication devices 110, 120, The USN sensor communication system has been described. Hereinafter, each configuration of a USN sensor communication apparatus for controlling the operation of a plurality of sensor modules will be described in detail.

2 is a block diagram of a USN sensor communication device that controls operation of a plurality of sensor modules in accordance with an embodiment of the present invention.

As shown, the USN sensor communication apparatus includes a plurality of sensor modules 200, a communication unit 210, and a control unit 220. The plurality of sensor modules 200 may be, for example, a temperature sensing module for sensing temperature, an oxygen concentration sensing module for sensing oxygen concentration, and a gas sensing module for sensing gas. The communication unit 210 performs data communication with the adjacent USN sensor communication device and the central server 140. The communication unit 210 may perform data communication with an adjacent USN sensor communication device and the central server 140 through wired or wireless communication. The control unit 220 acquires the sensing value sensed from the preset reference sensor module among the plurality of sensor modules, and transmits the sensed value, the identification information of the reference sensor module, and the status information including the identification information thereof to the adjacent USN To the sensor communication device and / or the central server (140). In addition, the controller 220 selectively controls the power supply of the remaining sensor modules according to the difference between the sensing value sensed by the reference sensor module and the preset threshold value. Here, the plurality of sensor modules may be a temperature sensor, an oxygen concentration sensor, and a gas sensor, as described above, and the predetermined reference sensor module may be a sensor having the least power consumption. However, the present invention is not limited to this, and a sensor having a high level of importance among a plurality of sensor modules may be a reference sensor module according to a user's request. In the present invention, it is assumed that a sensor having the smallest power consumption can be set as a reference sensor module and a sensor having the smallest power consumption of the oxygen concentration sensor will be described.

The control unit 220 controls the power supply of the remaining sensor modules according to the sensing value sensed from the reference sensor module set in accordance with the condition and the error of the predetermined threshold value. The control unit 220 includes a sensing value check unit 221, a power supply unit 222 And the data processing unit 223. [0100]

The sensing value check unit 221 calculates an error value from the sensing value sensed by the reference sensor module and the threshold value of the reference sensor module, and checks whether the calculated error value is within a predetermined reference error range. The power supply unit 222 continuously supplies power stored in a battery (not shown) to the reference sensor module and selectively supplies power stored in the battery (not shown) Modules. More specifically, when the sensing value check unit 221 determines that the error value calculated from the sensing value and the threshold value received from the reference sensor module is formed within the reference error range, The power supply of the modules is not performed. On the other hand, if it is checked that the error value calculated from the sensing value received from the reference sensor module and the threshold value is not formed within the reference error range as a result of checking by the sensing value check unit 221, the power supply unit 222 may selectively And performs power supply to the sensor modules.

For example, as a fire occurs in a building, the oxygen concentration in the building can be lowered. In this case, the oxygen concentration sensor, which is a reference sensor module, can sense a sensing value of which the oxygen concentration is lowered according to the occurrence of a fire. Accordingly, the sensing value check unit 221 calculates an error value from the threshold value set in relation to the sensed oxygen concentration-related sensing value and the oxygen concentration. Thereafter, the sensing value check unit 221 checks whether the calculated error value is formed within the reference error range. If it is checked that the calculated error value is not formed within the reference error range, it is determined that the event has occurred. Accordingly, the power supply unit 222 selectively supplies power to the remaining sensor modules, that is, the temperature sensing module and the gas sensing sensor module. According to an embodiment, the power supply 222 may supply power to at least one of the temperature sensing module and the gas sensing module, or both the temperature sensing module and the gas sensing module.

 In this way, the power supply unit 222 selectively controls the power supply of the remaining sensor modules according to the sensing value sensed by the predetermined reference sensor module among the plurality of sensor modules, It is possible to minimize the power dissipation stored in the memory according to the sensing operation.

The data processing unit 223 stores the sensing value received from the reference sensor module or the sensing value received from all the sensor modules in the memory 230. The data processing unit 223 may store the sensing values of the sensor modules in the memory 230 by referring to the identification information included in the sensing values received from the reference sensor module or all the sensors. The data processing unit 223 periodically transmits status information including the sensing value for each of the sensor modules stored in the memory 230, the identification information for each of the sensor modules, and the identification information thereof to the USN sensor communication device and / To the central server (140). According to one embodiment, when each of the plurality of USN sensor communication devices performs data communication with the central server 140, the data processing unit 223 periodically collects sensing values, And status information including its own identification information, to the central server 140. According to yet another embodiment, a plurality of USN sensor communication devices are connected to each other, and one USN sensor communication device of a plurality of USN sensor communication devices can be connected to the central server 140. [ In this case, the data processing unit 223 may periodically transmit status information including sensing values, identification information, and identification information of the sensor modules stored in the memory 230 to adjacent UNS sensor communication devices. Accordingly, the USN sensor communication apparatus receiving the status information can transmit status information of its own and status information received from the surrounding USN sensor communication apparatuses to the central server 140 connected thereto.

Meanwhile, the data processing unit 223 may be configured to generate the sensed values from the reference sensor module or the sensed values from the sensed value check unit 221, To the adjacent USN sensor communication device and / or to the central server (140).

As described above, since the error value calculated from the sensing value of the reference sensor module is not formed within the reference error range as a result of the check by the sensing value check unit 221, the power supply unit 222 selectively supplies the remaining sensor Supply power to the modules. Accordingly, the selected sensor module of the remaining sensor modules initiates the sensing operation so that the USN sensor communication device can acquire the sensing value sensed from the selected sensor module. According to an embodiment, the power supply unit 222 may supply power to the temperature sensor module to acquire a sensed value sensed by the temperature sensor module among the temperature sensor module and the gas sensor module, which are the remaining sensor modules. The power supply unit 222 may supply power by selecting at least one sensor module among the remaining sensor modules according to a predetermined condition, for example, a priority condition, or supplying power to the remaining sensor modules at the same time .

According to a further aspect of the present invention, the control unit 220 further includes a counter unit 225 for counting the number of sensed sensed values from the reference sensor module. That is, the counter unit 225 counts the number of sensing values sensed by the reference sensor module. If the error value of the sensing value received from the reference sensor module as a result of the check by the sensing value check unit 221 is within the reference error range In the case of forming, the number of times of detection can be counted. When the error value of the sensing value detected from the reference sensor module as a result of the check by the sensing value check unit 221 is not formed within the reference error range, the counter unit 225 may initialize the counted number of times of reception. On the other hand, when the counted number of times of reception reaches a predetermined threshold value z, the power supply unit 222 selectively supplies power to the remaining sensor modules. In addition, the power supply unit 222 can selectively supply the power of the remaining sensor modules at predetermined time intervals. According to the embodiment, when the power supply control command of the remaining sensor modules is set at intervals of 30 minutes from the user, the power supply unit 222 supplies power to the remaining sensor modules at intervals of 30 minutes regardless of the sensing value received from the reference sensor module Can be supplied. In this way, even if the occurrence of an event is not checked from the sensing value sensed by the reference sensor module or an error occurs in the reference sensor module, the power supply unit 222 can not acquire a normal sensing value, It is possible to minimize the power consumption while simultaneously receiving the sensing values of all the sensor modules and to check whether an event has occurred or not.

When the sensing value sensed from at least one selected sensor module among the remaining sensor modules is transmitted, the sensing value check unit 221 determines an error value from the sensing value of the selected remaining sensor module and the threshold value set in the sensor module And it is checked whether it is formed within the reference error range. Thereafter, the event generation notifying unit 224 analyzes the check result of the sensing value check unit 221 and generates event occurrence information according to the result, and transmits the generated event occurrence information to the adjacent USN sensor communication apparatus and / or the central server 140. Herein, the event occurrence information includes identification information of a sensor module in which a sensing value not formed within a reference error range is sensed among sensed sensed values of the sensor modules, sensed value sensed by the sensor module, and identification Information is preferably included.

According to the embodiment, when the sensed value sensed by the temperature sensing sensor is analyzed as being not formed within the reference error range according to the check result of the sensing value check unit 221, Generates event occurrence information including oxygen concentration and temperature abnormality detection information and identification information of the temperature sensor module and the oxygen concentration sensor module and identification information of the USN sensor communication device and transmits the event occurrence information to the adjacent USN sensor communication device and / ). The central server 140 receiving the event occurrence information can refer to the information included in the received event occurrence information to determine in which building in which building the temperature and oxygen concentration related event has occurred, have.

As described above, the sensing value check unit 221, when the sensing value sensed from the sensor module, which is supplied power from the power supply unit 222, is obtained from the remaining sensor modules, The error value of the value is calculated to check whether it is within the reference error range. As a result of the check, if it is checked that the error is within the reference error range, the power supply unit 222 can cut off the power supply to the sensor module that has supplied the power.

According to a further aspect of the present invention, the control unit 220 further includes an emergency alert signaling unit 226. [ The emergency alarm notifying unit 226 may transmit an emergency alarm through the display unit 240 or the speaker 250 in accordance with the emergency alert command received from the adjacent USN sensor communication apparatus and / . That is, when the emergency alert command information is received from the adjacent USN sensor communication apparatus and / or the central server 140 that received the event occurrence information, the emergency alert notification unit 226 displays an emergency alert corresponding to the emergency alert command information, (240) or the speaker (250). For example, when fire related emergency alert command information is received through the adjacent UNS sensor communication device and / or the central server 140, the emergency alert notification unit 226 notifies the display unit 240 of the occurrence of a fire , And can provide evacuation site location information. At the same time, the emergency alarm notifying unit 226 can notify that the fire has occurred through the speaker 250 by buzzer sound. Accordingly, people in the building can hear the fire generated through the speaker 250, determine that a fire has occurred, and can quickly evacuate the place through which the fire can be evacuated through the display unit 240 .

Up to now, each configuration of the USN sensor communication apparatus connected to a plurality of sensor modules to control the operation of each sensor module has been described in detail. Hereinafter, a method for controlling the operation of a plurality of sensor modules in the USN sensor communication apparatus according to the present invention will be described in detail.

3 is a flowchart of a method of controlling an operation of a plurality of sensor modules in a USN sensor communication apparatus according to an embodiment of the present invention.

As shown, the USN sensor communication device obtains sensed sensed values through a plurality of sensor modules, e.g., a temperature sensing sensor module, an oxygen concentration sensing sensor module, and a gas sensing sensor module. Such a USN sensor communication apparatus receives a sensing value from a preset reference sensor module among a plurality of sensor modules (S310). Here, the USN sensor communication device performs data communication with the adjacent USN sensor communication device and the central server, and the reference sensor module is a sensor module having the lowest power consumption among the temperature sensor, the oxygen concentration sensor and the gas sensor, Can be a sensor. However, the present invention is not limited to this, and a sensor having a high level of importance among a plurality of sensor modules may be a reference sensor module according to a user's request. In the present invention, it is assumed that a sensor having the smallest power consumption can be set as a reference sensor module and a sensor having the smallest power consumption of the oxygen concentration sensor will be described.

When the sensing value sensed from the reference sensor module is obtained, the USN sensor communication device calculates an error value from the sensed value and the predetermined threshold, and determines whether the calculated error value is formed within a predetermined reference error range (S320). That is, only the oxygen concentration sensor module, which is the reference sensor module, is constantly supplied with power, and the remaining sensor modules, that is, the temperature sensor module and the gas sensor module, are supplied with power according to a control command of the USN sensor communication device. Thus, the USN sensor communication device can continuously acquire the sensing value sensed from the reference sensor module. When the sensing value sensed from the reference sensor module is obtained, the USN sensor communication device calculates an error value between the threshold value associated with the reference sensor module and the obtained sensing value, and if the calculated error value is within a predetermined reference error range Is formed. Thereafter, the USN sensor communication apparatus can control the power supply of the remaining sensor modules other than the reference sensor module through the following steps, depending on whether the error value of the sensing value of the reference sensor module is formed within the reference error range.

If it is determined in step S320 that the sensing value obtained from the reference sensor module is within the predetermined reference error range, the USN sensor communication device counts the sensing number of the obtained sensing value to increase in step S330. Thereafter, the USN sensor communication apparatus checks whether the number of sensed sensing values is a predetermined threshold z (S340). As a result of the check, if it is checked that the number of times of sensing the counted sensed value has not reached the predetermined threshold value z, the USN sensor communication device acquires a new sensed value from the reference sensor module through step S310. On the other hand, if it is determined that the number of sensed sensing values has reached the predetermined threshold value z, the USN sensor communication device selectively supplies power to the remaining sensor modules (S350). If it is determined in step 320 that the sensing value obtained from the reference sensor module is not formed within the predetermined reference error range, the USN sensor communication device determines that an event has occurred in the area where the reference sensor module is installed, And transmits the event occurrence information including the sensed value sensed by the reference sensor module to the device and / or the central server, its own identification information, and identification information of the reference sensor module. The USN sensor communication device then supplies power to the selected sensor module to obtain sensed sensed values from at least one selected sensor module of the remaining sensor modules. At this time, the count value for the sensed number of sensed values acquired from the reference sensor module is preferably initialized.

Meanwhile, when the sensed value acquired from the reference sensor module is not formed within the reference error range or the sensed number of sensed sensed values is formed at the threshold value z, as described above, The power supply of the remaining sensor modules can be selectively performed according to a predetermined time interval. For example, when the user's request is set for power supply of the remaining sensor modules at intervals of 30 minutes, the USN sensor communication device detects the sensing value acquired from the reference sensor module or the sensing value acquired from the reference sensor module Power supply of the remaining sensor modules can be performed at intervals of 30 minutes regardless of the number of times.

According to this condition, the remaining sensor modules that have been supplied with power supply start the sensing operation, so that the USN sensor communication device can receive sensed sensed values from the remaining sensor modules (S360). According to the embodiment, when the sensed value sensed from the oxygen concentration sensor module, which is the reference sensor module, is not formed within the reference error range or the sensed number of sensed values sensed by the oxygen concentration sensor module reaches the threshold value z, The sensor communication device may selectively supply power to the remaining sensor modules. For example, the USN sensor communication device may select at least one of the remaining sensor modules to supply power according to the priority of the sensing operation for the remaining sensor modules. However, the present invention is not limited to this, and the USN sensor communication apparatus can supply power to the remaining sensor modules without a separate priority.

Thus, as power is supplied from selected or all remaining sensor modules, the USN sensor communication device can receive sensed sensed values from the temperature sensor module and / or the gas sensor module, which is the remaining sensor module.

As such, when the sensing value sensed from the remaining sensor modules is obtained, the USN sensor communication device calculates an error value from the sensing values and predetermined threshold values acquired from the remaining sensor modules, and outputs the calculated error values Is formed within the preset reference error range (S370). As a result of the check, if it is checked that at least one of the sensed values of the remaining sensor modules is not formed within the reference error range, the USN sensor communication device is not formed within the error range to the adjacent USN sensor communication device and / And sends event information including the identification information of the sensor module and the error occurrence information and the identification information of the sensor module.

According to an embodiment, the USN sensor communication device determines that the sensing value obtained from the temperature sensor is not within the reference error range as a result of checking of the sensing values obtained from the remaining sensor modules, that is, the temperature sensing sensor and / Event occurrence information including the oxygen concentration and temperature abnormality detection information, the identification information of each sensor module, and the identification information of the USN sensor communication device, is generated. The USN sensor communication device then transmits the generated event occurrence information to the adjacent USN sensor communication device and / or the central server. Accordingly, the central server can refer to the information included in the event occurrence information received from the USN sensor communication apparatus to determine at which location of the building the temperature and oxygen concentration related event has occurred, and to guide the administrator.

On the other hand, if it is checked that the USN sensor communication device is formed within the reference error range as a result of checking of the sensed values obtained from the remaining sensor modules, that is, the temperature sensor and / or the gas sensor, The power supply of the remaining sensor module is cut off. Accordingly, the USN sensor communication device acquires the sensing value sensed from the reference sensor module, checks the abnormality as described above, and supplies power to the remaining sensor module that has shut down the power supply when an abnormality occurs. As described above, by controlling the power supply-related operation of the plurality of sensor modules through the USN sensor communication apparatus according to the present invention, power consumption can be minimized and the life of the battery can be maximized.

So far I looked at the center of the preferred embodiment for the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. 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.

110, 120, 130: USN sensor communication device 140:
210: communication unit 220: control unit
221: sensing value check unit 222: power supply unit
223: Data processing section 224: Event occurrence notification section
225: Counter unit 226: Emergency alarm notification unit
230: memory 240: display unit
250: Speaker

Claims (16)

A plurality of sensor modules;
A communication unit performing data communication with an adjacent USN (Ubiquitous Sensor Network) sensor communication device and / or a central server; And
Transmitting situation information including a sensing value detected from a predetermined reference sensor module among the plurality of sensor modules to the adjacent USN sensor communication device and / or the central server, and the error degree between the situation information and a predetermined threshold value. A control unit for selectively controlling power supply of the remaining sensor modules according to the present invention;
USN sensor communication device comprising a. The method of claim 1,
The control unit,
A sensing value check unit which calculates an error value from a sensing value sensed by the reference sensor module and a threshold of the reference sensor module and checks whether it is within a reference error range;
A power supply unit supplying power to the reference sensor module and selectively supplying power to the remaining sensor modules according to a check result of the sensing value check unit; And
Storing sensing values sensed by the reference sensor module or sensed values sensed by all the sensor modules in a memory and selectively transmitting status information including sensing values and identification information stored in the memory to the adjacent USN sensor communication device And / or a central server;
Further comprising: a USN sensor communication device. The method of claim 2,
The reference sensor module includes:
Wherein the sensor module is a sensor module having the smallest power consumption among the plurality of sensor modules. The method of claim 2,
The sensing value check unit,
Calculates an error value between the sensing values sensed from the selected sensor modules and the threshold value of the selected remaining sensor module and checks whether it is within a reference error range,
The power supply unit,
Controls the power supply interruption of the selected remaining sensor module according to a result of the checking by the sensing value check unit,
The control unit,
An event occurrence notification unit for transmitting event occurrence information according to the check result of the sensing value check unit to the adjacent USN sensor communication apparatus and / or the central server;
Further comprising: a USN sensor communication device. The method of claim 2,
The control unit,
A counter unit for counting the number of times of detection of the sensing value detected from the reference sensor module;
The power supply unit,
USN sensor communication device, characterized in that for selectively controlling the power supply of the remaining sensor modules according to the number of detection counted from the counter. The method of claim 2,
The power supply unit,
And controlling power supply of the remaining sensor modules selectively according to a predetermined time interval or control commands of the adjacent USN sensor communication device and / or the central server. The method of claim 4, wherein
The control unit,
An emergency alert is issued according to the alert command information received from the adjacent USN sensor communication apparatus and / or the central server that has received the event occurrence information, and if the alert command information is not received within a predetermined time, An emergency alarm issuing unit for issuing an emergency alert;
USN sensor communication device. A method for controlling operation of a plurality of sensor modules in a USN sensor communication device,
Obtaining a sensing value from a predetermined reference sensor module among the plurality of sensor modules;
Calculating an error value from the sensing value and a predetermined threshold value and checking whether it is within a reference error range; And
Selectively controlling the power supply of the remaining sensor modules according to the check result;
USN sensor control method comprising a. The method of claim 8,
Counting a sensed value detected from the reference sensor module; And
Checking whether the number of detection of the counted sensing value is a predetermined threshold value;
Supplying power to the remaining sensor module,
And if the number of detections is a preset threshold, supplying power to at least one selected sensor module among the remaining sensor modules. The method of claim 8,
Obtaining a sensed value detected from the selected sensor module;
Calculating an error value from the sensing values obtained from the selected sensor module and a threshold of the sensor module and checking whether it is within a reference error range; And
If it is checked that the selected remaining sensor module is within the reference error range, the power supply of the selected sensor module is cut off, and if it is checked that it is not within the reference error range, the central server and / or the adjacent Transmitting event occurrence information to a USN sensor communication device;
Further comprising the steps of: The method of claim 8,
The reference sensor module includes:
Wherein the sensor module is a sensor module having the lowest power consumption among the plurality of sensor modules. In the USN sensor communication system for controlling the operation of a plurality of sensor modules connected to each of the plurality of USN sensor communication devices,
Context information including sensing values sensed and obtained from the plurality of sensor modules through data communication with a plurality of sensor modules and / or context information including sensing values received from an adjacent USN sensor communication device to a central server. A USN sensor communication device that transmits and issues an emergency alert according to a control command of the central server; And
Receiving context information from the plurality of USN sensor communication devices, the plurality of USN sensor communication devices according to the sensing value of the reference sensor modules of the plurality of USN sensor communication devices included in the received situation information and the degree of error of a predetermined threshold value, A central server for selectively controlling power supply of the remaining sensor modules of the USN sensor communication devices of the USN sensor communication devices;
USN sensor communication system comprising a. 13. The method of claim 12,
The reference sensor module includes:
Among the plurality of sensor modules connected to each of the plurality of USN sensor communication devices is a sensor with the least power use,
The USN sensor communication apparatus includes:
USS sensor communication system, characterized in that for selectively controlling the power supply of the remaining sensor modules, according to the degree of error between the sensing value detected from the reference sensor module and the threshold value for the reference sensor module. The method of claim 13,
The USN sensor communication apparatus includes:
USN sensor communication system, characterized in that for selectively controlling the power supply of the remaining sensor module according to the number of times of detection of the sensing value detected from the reference sensor module or a predetermined predetermined time interval. The method of claim 13,
The USN sensor communication apparatus includes:
The power supply of the remaining sensor modules of the adjacent USN sensor communication apparatus may be selected selectively according to the sensing value of the reference sensor module included in the status information received from the adjacent USN sensor communication apparatus and the error of the threshold value for the reference sensor module To-USN sensor communication system. 13. The method of claim 12,
The central server comprises:
The power supply of the remaining sensor modules of the plurality of USN sensor communication apparatuses is selected by the number of sensed values of the reference sensor modules included in the status information received from the plurality of USN sensor communication apparatuses, To-USN sensor communication system.

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