CN104700578A - Earthquake monitoring method and device - Google Patents

Abstract

The invention provides an earthquake monitoring method and device. The method comprises the steps of determining whether an earthquake monitoring device can be detected according to the optical positioning principle; if not, outputting earthquake alarm. According to the method, whether the earthquake monitoring device can be detected is determined according to the optical positioning principle through the terminal; if the terminal confirms that the earthquake monitoring device cannot be detected, that earthquake occurs can be confirmed, and the earthquake alarm can be outputted to prompt users to take refuge so as to ensure the personal safety.

Description

Seismic monitoring method and apparatus

Technical field

The disclosure relates to field of terminal technology, particularly relates to a kind of seismic monitoring method and apparatus.

Background technology

Earthquake is the disaster that a kind of common destructiveness is very strong, usually can cause great casualties and property loss.China is a country that earthquake is multiple, earthquake is serious, and a lot of area is in the multiple area of earthquake.At present, earthquake is difficult to accurate forecast, and therefore, a kind of effective seismic monitoring scheme urgently provides.

Summary of the invention

For overcoming Problems existing in correlation technique, the disclosure provides a kind of seismic monitoring method and apparatus.

According to the first aspect of disclosure embodiment, a kind of seismic monitoring method is provided, comprises: judge whether Seismic monitoring equipment to be detected according to optical alignment principle;

If Seismic monitoring equipment can not be detected, then export earthquake alarm.

Optionally, describedly judge whether Seismic monitoring equipment to be detected according to optical alignment principle, comprising:

Judge whether Seismic monitoring equipment to be detected by the optical positioning function of range sensor.

Optionally, described output earthquake alarm, comprising:

Earthquake alarm is exported by network control intelligent home device.

Optionally, also comprise:

If can not Seismic monitoring equipment be detected, then send earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, notify that the terminal device in seismic context exports earthquake alarm.

Optionally, include positional information and Detection Information in described earthquake alarm information, described Detection Information includes timestamp and corresponding testing result.

According to the second aspect of disclosure embodiment, a kind of earthquake monitoring device is provided, comprises:

Judging unit, for judging whether Seismic monitoring equipment to be detected according to optical alignment principle;

Alarm unit, for when Seismic monitoring equipment not detected, exports earthquake alarm.

Optionally, described judging unit comprises:

Judgment sub-unit, for judging whether Seismic monitoring equipment to be detected by the optical positioning function of range sensor.

Optionally, described output unit comprises:

Export subelement, for exporting earthquake alarm by network control intelligent home device.

Optionally, also comprise:

Transmitting element, for when Seismic monitoring equipment not detected, sends earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, notifies that the terminal device in seismic context exports earthquake alarm.

Optionally, include positional information and Detection Information in described earthquake alarm information, described Detection Information includes timestamp and corresponding testing result.

According to the third aspect of disclosure embodiment, a kind of earthquake monitoring device is provided, comprises:

Processor;

For the storer of storage of processor executable instruction;

Wherein, described processor is configured to:

Judge whether Seismic monitoring equipment to be detected according to optical alignment principle;

If Seismic monitoring equipment can not be detected, then export earthquake alarm.

The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:

Disclosure terminal can judge whether Seismic monitoring equipment to be detected according to optical alignment principle, if terminal check can not detect Seismic monitoring equipment, then can confirm earthquake occurs, thus export earthquake alarm, to point out user to take refuge as early as possible, guarantee personal safety.

Disclosure terminal can when confirming Seismic monitoring equipment to be detected, send earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, the terminal device of notice in seismic context exports earthquake alarm, to realize the earthquake alarm on a large scale, effectively reduce casualties and property loss that earthquake causes.

Should be understood that, it is only exemplary and explanatory that above general description and details hereinafter describe, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing to be herein merged in instructions and to form the part of this instructions, shows and meets embodiment of the present disclosure, and is used from instructions one and explains principle of the present disclosure.

Fig. 1 is the process flow diagram of a kind of seismic monitoring method according to an exemplary embodiment.

Fig. 2 is the process flow diagram of the another kind of seismic monitoring method according to an exemplary embodiment.

Fig. 3 is a kind of earthquake monitoring device block diagram according to an exemplary embodiment.

Fig. 4 is the another kind of earthquake monitoring device block diagram according to an exemplary embodiment.

Fig. 5 is the another kind of earthquake monitoring device block diagram according to an exemplary embodiment.

Fig. 6 is the another kind of earthquake monitoring device block diagram according to an exemplary embodiment.

Fig. 7 is a kind of structural representation for earthquake monitoring device according to an exemplary embodiment.

Embodiment

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the disclosure.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that aspects more of the present disclosure are consistent.

Fig. 1 is the process flow diagram of a kind of seismic monitoring method according to an exemplary embodiment.

Please refer to Fig. 1, described seismic monitoring method may be used for, in terminal, comprising the following steps:

In step S101, judge whether Seismic monitoring equipment to be detected according to optical alignment principle.

In the present embodiment, described Seismic monitoring equipment can be arranged voluntarily by user, and such as: fasten a fine rule in place to be monitored, below fine rule, then hang a wisp, this wisp is exactly Seismic monitoring equipment.Be understandable that, if there is earthquake, wisp can swing.

In this step, terminal can be placed on the below of described earthquake detection equipment, terminal can judge whether Seismic monitoring equipment to be detected according to optical alignment principle.Such as: terminal can judge whether Seismic monitoring equipment to be detected by the optical positioning function of range sensor according to the time cycle of presetting.

In step s 102, if Seismic monitoring equipment can not be detected, then earthquake alarm is exported.

Based on the judged result of abovementioned steps S101, if can not Seismic monitoring equipment be detected, then illustrate that Seismic monitoring equipment swings, can confirm earthquake occurs, in this step, terminal exports earthquake alarm.Such as: terminal can output alarm the tinkle of bells, terminal also can export earthquake alarm etc. by network control intelligent home device.

Described as can be seen from above, disclosure terminal can judge whether Seismic monitoring equipment to be detected according to optical alignment principle, if terminal check can not detect Seismic monitoring equipment, then can confirm earthquake occurs, thus output earthquake alarm, to point out user to take refuge as early as possible, guarantee personal safety.

Fig. 2 is the process flow diagram of the another kind of seismic monitoring method according to an exemplary embodiment.

Please refer to Fig. 2, described seismic monitoring method may be used for, in terminal, comprising the following steps:

In step s 201, judge whether Seismic monitoring equipment to be detected by the optical positioning function of range sensor.If earthquake detection equipment can not be detected, then perform step S202.If earthquake detection equipment can be detected, then continue to perform this step.

In the present embodiment, user can carry out seismic monitoring by terminal.Realize seismic monitoring, user needs to arrange a Seismic monitoring equipment in place to be monitored in advance.Suppose, user thinks to use terminal to carry out seismic monitoring at night in bed, then user a screw can be twisted in roof at home, then fastens a fine rule by this screw, and below fine rule, hangs a wisp.In order to realize preferably monitoring effect, can select sensitive to seismic sensor cable and swing time the resistance that is subject to less fine rule, such as: the kite string that elasticity coefficient is smaller and comparatively gently thin can be selected.For the wisp that fine rule plays, the object that reflection coefficient is larger can be selected below, such as: the little porcelain bead of white.In the present embodiment, the wisp played below by fine rule is called Seismic monitoring equipment, is understandable that, if there is not earthquake and be not subject to the interference of external force, described Seismic monitoring equipment can keep stationary state, if there is earthquake, then described Seismic monitoring equipment can swing.

In this step, when user will carry out seismic monitoring, terminal can be placed on the below of described Seismic monitoring equipment by user, utilizes optical alignment principle to detect described Seismic monitoring equipment.Comparatively simple, can be detected described earthquake detection equipment by the optical positioning function of range sensor integrated in terminal.In order to coordinate described range sensor, when initial, the distance between described Seismic monitoring equipment and terminal can be set to 1cm.After placing terminal, user opens seismic monitoring function, such as: user can open seismic monitoring function in for the APP of seismic monitoring, if terminal carries seismic monitoring function, user also can open seismic monitoring function in setting options, and the disclosure does not make particular restriction to this.

After user opens seismic monitoring function, range sensor integrated in terminal can launch infrared ray, if not there is earthquake, Seismic monitoring equipment can not swing, described infrared ray can be reflected back after running into described earthquake detection equipment, terminal can be determined described earthquake detection equipment to be detected after receiving reflection ray, continues the judgement flow process performing this step.If generation earthquake, described earthquake detection equipment generation swing departs from origin-location, and terminal cannot receive the light of reflection, then perform step S202.

In the present embodiment, terminal can judge whether Seismic monitoring equipment to be detected by the optical positioning function of range sensor according to the time cycle of presetting.The described default time cycle can be arranged by developer, and such as: 1ms etc., the disclosure does not make particular restriction to this.

In step S202, export earthquake alarm.

Based on the judged result of abovementioned steps S201, if terminal can not detect described Seismic monitoring equipment, then can confirm earthquake occurs, in this step, terminal can export earthquake alarm by the mode such as the tinkle of bells or vibrations, takes refuge as early as possible to point out user.

Optionally, in another embodiment of the disclosure, when accessing terminal to network, terminal also can export earthquake alarm by other equipment of network control.For example, suppose, user uses terminal to carry out seismic monitoring at night in bed, terminal is by the router access network in family, then, when terminal check generation earthquake, terminal also can send earthquake alarm information to this router, earthquake alarm is exported to make the intelligent home device of router advertisement family, such as: router can notify that the intelligent sound box of family exports earthquake alarm, also can notify that the intelligent anti-theft system of family exports earthquake alarm etc., the disclosure does not make particular restriction to this.

In step S203, send earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, notify that the terminal device in seismic context exports earthquake alarm.

Based on the judged result of abovementioned steps S201, if terminal can not detect described Seismic monitoring equipment, then can confirm earthquake occurs, in this step, terminal can also send earthquake alarm information to high in the clouds, and in described earthquake alarm information the positional information of carried terminal and Detection Information.Wherein, described Detection Information can include timestamp and corresponding testing result.In the optional embodiment of one, terminal can after can not detecting described Seismic monitoring equipment, the Detection Information of record to described Seismic monitoring equipment, such as: T1 moment-can not Seismic monitoring equipment be detected, T2 moment-can not Seismic monitoring equipment be detected, T3 moment-can Seismic monitoring equipment etc. be detected, then the regular Detection Information using described positional information and record sends to high in the clouds as earthquake alarm information.When terminal all can detect Seismic monitoring equipment in continuous print certain time, can stop sending earthquake alarm information to high in the clouds.

High in the clouds, after the earthquake alarm information receiving terminal transmission, for avoiding terminal to report by mistake, can confirm earthquake.Such as: if the quantity that high in the clouds receives the terminal sending earthquake alarm information within the time of presetting is greater than threshold value, and send the terminal of earthquake alarm information in certain geographic range according to the position information confirming that each terminal sends, then high in the clouds can confirm earthquake occurs, and according to the regional extent that the positional information calculation earthquake of each terminal sending earthquake alarm information affects, then notify that the terminal device in the described regional extent that earthquake affects exports earthquake alarm, take refuge to point out user.Again such as: high in the clouds can also be analyzed the Detection Information that terminal sends, such as: according to the corresponding relation of timestamp and testing result in described Detection Information, judge the intensity of earthquake.Suppose, according to the corresponding relation of timestamp and testing result, high in the clouds confirms that terminal 1 detects that the frequency of Seismic monitoring equipment is higher than the frequency that terminal 2 detects Seismic monitoring equipment, then can confirm that the on-site earthquake strength of terminal 1 is higher than the on-site earthquake strength of terminal 2, and then can when processing power is limited, terminal device within the scope of priority notification terminal 1 region exports earthquake alarm, takes refuge to point out user.

In the present embodiment, terminal can when confirming Seismic monitoring equipment to be detected, send earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, the terminal device of notice in seismic context exports earthquake alarm, to realize the earthquake alarm on a large scale, effectively reduce casualties and property loss that earthquake causes.

Described as can be seen from above, disclosure terminal can judge whether Seismic monitoring equipment to be detected according to optical alignment principle, if terminal check can not detect Seismic monitoring equipment, then can confirm earthquake occurs, thus output earthquake alarm, to point out user to take refuge as early as possible, guarantee personal safety.

Corresponding with aforementioned seismic monitoring embodiment of the method, the disclosure additionally provides the embodiment of earthquake monitoring device.

Fig. 3 is a kind of earthquake monitoring device block diagram according to an exemplary embodiment.

Please refer to Fig. 3, described earthquake monitoring device 300 may be used for, in terminal, including: judging unit 301 and alarm unit 302.

Wherein,

Described judging unit 301 is configured to: judge whether Seismic monitoring equipment to be detected according to optical alignment principle;

Described alarm unit 302 is configured to: when Seismic monitoring equipment not detected, exports earthquake alarm.

In above-described embodiment, disclosure terminal can judge whether Seismic monitoring equipment to be detected according to optical alignment principle, if terminal check can not detect Seismic monitoring equipment, then can confirm earthquake occurs, thus output earthquake alarm, to point out user to take refuge as early as possible, guarantee personal safety.

Fig. 4 is the another kind of earthquake monitoring device block diagram according to an exemplary embodiment.

Please refer to Fig. 4, this embodiment is on the basis of the embodiment shown in earlier figures 3, and described judging unit 301 can comprise: judgment sub-unit 3011.

Described detection sub-unit 3011 is configured to: judge whether Seismic monitoring equipment to be detected by the optical positioning function of range sensor.

Fig. 5 is the another kind of earthquake monitoring device block diagram according to an exemplary embodiment.

Please refer to Fig. 5, this embodiment is on the basis of the embodiment shown in earlier figures 3, and described output unit 302 can comprise: export subelement 3021.

Described output subelement 3021 is configured to: export earthquake alarm by network control intelligent home device.

Fig. 6 is the another kind of earthquake monitoring device block diagram according to an exemplary embodiment.

Please refer to Fig. 6, this embodiment is on the basis of the embodiment shown in earlier figures 3, and described earthquake monitoring device 300 can also comprise: transmitting element 303.

Described transmitting element 303 is configured to: when Seismic monitoring equipment not detected, sends earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, notifies that the terminal device in seismic context exports earthquake alarm.

Optionally, include positional information and Detection Information in described earthquake alarm information, described Detection Information includes timestamp and corresponding testing result.。

In above-described embodiment, terminal can when confirming Seismic monitoring equipment to be detected, send earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, the terminal device of notice in seismic context exports earthquake alarm, to realize the earthquake alarm on a large scale, effectively reduce casualties and property loss that earthquake causes.

In said apparatus, the implementation procedure of the function and efficacy of unit specifically refers to the implementation procedure of corresponding step in said method, does not repeat them here.

For device embodiment, because it corresponds essentially to embodiment of the method, so relevant part illustrates see the part of embodiment of the method.Device embodiment described above is only schematic, the wherein said unit illustrated as separating component or can may not be and physically separates, parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of module wherein can be selected according to the actual needs to realize the object of disclosure scheme.Those of ordinary skill in the art, when not paying creative work, are namely appreciated that and implement.

Accordingly, the disclosure also provides a kind of earthquake monitoring device, and described device comprises: processor; For the storer of storage of processor executable instruction; Wherein, described processor is configured to: judge whether Seismic monitoring equipment to be detected according to optical alignment principle; If Seismic monitoring equipment can not be detected, then export earthquake alarm.

Accordingly, the disclosure also provides a kind of non-transitory computer-readable recording medium, when the instruction in described storage medium is performed by the processor of terminal, make terminal can perform a kind of seismic monitoring method, described method comprises: judge whether Seismic monitoring equipment to be detected according to optical alignment principle; If Seismic monitoring equipment can not be detected, then export earthquake alarm.

Fig. 7 is a kind of block diagram for earthquake monitoring device 800 according to an exemplary embodiment.Such as, device 800 can be mobile phone, computing machine, digital broadcast terminal, messaging devices, game console, tablet device, Medical Devices, body-building equipment, personal digital assistant etc.

With reference to Fig. 7, device 800 can comprise following one or more assembly: processing components 802, storer 804, power supply module 806, multimedia groupware 808, audio-frequency assembly 810, the interface 812 of I/O (I/O), sensor module 814, and communications component 816.

The integrated operation of the usual control device 800 of processing components 802, such as with display, call, data communication, camera operation and record operate the operation be associated.Treatment element 802 can comprise one or more processor 820 to perform instruction, to complete all or part of step of above-mentioned method.In addition, processing components 802 can comprise one or more module, and what be convenient between processing components 802 and other assemblies is mutual.Such as, processing element 802 can comprise multi-media module, mutual with what facilitate between multimedia groupware 808 and processing components 802.

Storer 804 is configured to store various types of data to be supported in the operation of equipment 800.The example of these data comprises for any application program of operation on device 800 or the instruction of method, contact data, telephone book data, message, picture, video etc.Storer 804 can be realized by the volatibility of any type or non-volatile memory device or their combination, as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM), ROM (read-only memory) (ROM), magnetic store, flash memory, disk or CD.

The various assemblies that electric power assembly 806 is device 800 provide electric power.Electric power assembly 806 can comprise power-supply management system, one or more power supply, and other and the assembly generating, manage and distribute electric power for device 800 and be associated.

Multimedia groupware 808 is included in the screen providing an output interface between described device 800 and user.In certain embodiments, screen can comprise liquid crystal display (LCD) and touch panel (TP).If screen comprises touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel comprises one or more touch sensor with the gesture on sensing touch, slip and touch panel.Described touch sensor can the border of not only sensing touch or sliding action, but also detects the duration relevant to described touch or slide and pressure.In certain embodiments, multimedia groupware 808 comprises a front-facing camera and/or post-positioned pick-up head.When equipment 800 is in operator scheme, during as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can receive outside multi-medium data.Each front-facing camera and post-positioned pick-up head can be fixing optical lens systems or have focal length and optical zoom ability.

Audio-frequency assembly 810 is configured to export and/or input audio signal.Such as, audio-frequency assembly 810 comprises a microphone (MIC), and when device 800 is in operator scheme, during as call model, logging mode and speech recognition mode, microphone is configured to receive external audio signal.The sound signal received can be stored in storer 804 further or be sent via communications component 816.In certain embodiments, audio-frequency assembly 810 also comprises a loudspeaker, for output audio signal.

I/O interface 812 is for providing interface between processing components 802 and peripheral interface module, and above-mentioned peripheral interface module can be keyboard, some striking wheel, button etc.These buttons can include but not limited to: home button, volume button, start button and locking press button.

Sensor module 814 comprises one or more sensor, for providing the state estimation of various aspects for device 800.Such as, sensor module 814 can detect the opening/closing state of equipment 800, the relative positioning of assembly, such as described assembly is display and the keypad of device 800, the position of all right pick-up unit 800 of sensor module 814 or device 800 1 assemblies changes, the presence or absence that user contacts with device 800, the temperature variation of device 800 orientation or acceleration/deceleration and device 800.Sensor module 814 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor module 814 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor module 814 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure transducer or temperature sensor.

Communications component 816 is configured to the communication being convenient to wired or wireless mode between device 800 and other equipment.Device 800 can access the wireless network based on communication standard, as WiFi, 2G or 3G, or their combination.In one exemplary embodiment, communication component 816 receives from the broadcast singal of external broadcasting management system or broadcast related information via broadcast channel.In one exemplary embodiment, described communication component 816 also comprises near-field communication (NFC) module, to promote junction service.Such as, can based on radio-frequency (RF) identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, device 800 can be realized, for performing said method by one or more application specific integrated circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD) (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components.

In the exemplary embodiment, additionally provide a kind of non-transitory computer-readable recording medium comprising instruction, such as, comprise the storer 804 of instruction, above-mentioned instruction can perform said method by the processor 820 of device 800.Such as, described non-transitory computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage devices etc.

Those skilled in the art, at consideration instructions and after putting into practice disclosed herein disclosing, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Instructions and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim below.

Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendment and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims (11)

1. a seismic monitoring method, is characterized in that, comprising:

Judge whether Seismic monitoring equipment to be detected according to optical alignment principle;

If Seismic monitoring equipment can not be detected, then export earthquake alarm.

2. seismic monitoring method according to claim 1, is characterized in that, describedly judges whether Seismic monitoring equipment to be detected according to optical alignment principle, comprising:

Judge whether Seismic monitoring equipment to be detected by the optical positioning function of range sensor.

3. seismic monitoring method according to claim 1, is characterized in that, described output earthquake alarm, comprising:

Earthquake alarm is exported by network control intelligent home device.

4. seismic monitoring method according to claim 1, is characterized in that, also comprise:

If can not Seismic monitoring equipment be detected, then send earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, notify that the terminal device in seismic context exports earthquake alarm.

5. seismic monitoring method according to claim 4, is characterized in that,

Include positional information and Detection Information in described earthquake alarm information, described Detection Information includes timestamp and corresponding testing result.

6. an earthquake monitoring device, is characterized in that, comprising:

Judging unit, for judging whether Seismic monitoring equipment to be detected according to optical alignment principle;

Alarm unit, for when Seismic monitoring equipment not detected, exports earthquake alarm.

7. earthquake monitoring device according to claim 6, is characterized in that, described judging unit comprises:

Judgment sub-unit, for judging whether Seismic monitoring equipment to be detected by the optical positioning function of range sensor.

8. earthquake monitoring device according to claim 6, is characterized in that, described output unit comprises:

Export subelement, for exporting earthquake alarm by network control intelligent home device.

9. earthquake monitoring device according to claim 6, is characterized in that, also comprises:

Transmitting element, for when Seismic monitoring equipment not detected, sends earthquake alarm information to high in the clouds, for high in the clouds after earthquake occurs in confirmation, notifies that the terminal device in seismic context exports earthquake alarm.

10. earthquake monitoring device according to claim 9, is characterized in that,

Include positional information and Detection Information in described earthquake alarm information, described Detection Information includes timestamp and corresponding testing result.

11. 1 kinds of earthquake monitoring devices, is characterized in that, comprising:

Processor;

For the storer of storage of processor executable instruction;

Wherein, described processor is configured to: judge whether Seismic monitoring equipment to be detected according to optical alignment principle;

If Seismic monitoring equipment can not be detected, then export earthquake alarm.