CN102143431A - Method, system and mobile terminal for alarming - Google Patents

Abstract

The invention provides a method, a system and a mobile terminal for alarming, which aim to solve the problem that static analysis alarming cannot be executed in time. The method for alarming comprises the following steps of: monitoring a monitored object in real time and analyzing and calculating site monitoring data; calculating a present alarming state in real time according to the site monitoring data; and adjusting an alarming mode corresponding to the present alarming state according to the present alarming state, and alarming. The invention has the characteristics of high efficiency, simplicity and the like; moreover, the alarming mode can be adjusted during monitoring along with the change of the alarming state, so the invention is applicable to immediate alarming under the condition of variable environments to inform a user.

Description

A kind of alarm method, warning system and mobile alarm terminal

Technical field

The present invention relates to LBS (Location-Based Services, location-based service) technology, particularly relate to a kind of method of in location-based service, dynamically reporting to the police, warning system and mobile alarm terminal.

Background technology

LBS (Location-Based Services) is based on the service of position, claims positioning service or location-based service again.LBS has merged multiple technologies such as GPS location, mobile communication, navigation, obtain the positional information (as the latitude and longitude coordinates data) of portable terminal by one group of location technology, offer mobile subscriber or other people and communication system, realize the various business relevant with the position.LBS comes down to the comparatively wide in range new services business relevant with the locus of a conception of species.

Usually use the service of LBS to reduce five classes the user: location (individual position location), navigation (path navigation), inquiry (inquiry someone or certain object), identification (identification someone or object), incident inspection (when the personnel location information that band emergency or inquiry occur in particular cases sending) to associated mechanisms.

A lot of LBS system is arranged at present, in these systems, generally all have the monitoring position warning function, promptly judge unusually and send warning according to user position information.But existing warning is that static analysis is reported to the police mostly, promptly adds up unusual by historical data.The shortcoming of this method is, can't find fortuitous event in the monitor procedure in the very first time, in case take place unusually just to be difficult in time be solved.

Summary of the invention

Technical problem to be solved by this invention provides a kind of alarm method, warning system and mobile alarm terminal, to solve the untimely problem of static analysis warning.

In order to address the above problem, the invention discloses a kind of alarm method, comprising:

Monitor monitored object and analytical calculation field monitoring data in real time;

Calculate current alarm condition according to described field monitoring data in real time;

According to described current alarm condition adjustment type of alarm corresponding, and report to the police with it.

Preferably, described method also comprises: set various alarm condition according to urgency level in advance, and setting and every kind of type of alarm that alarm condition is corresponding.

Preferably, monitored object of described real-time monitoring and analytical calculation field monitoring data, comprise: gather locating information, gravity sensing information and the magnetic field induction information of monitored object in real time, and utilize described locating information, gravity sensing information and magnetic field induction information calculations to obtain the field monitoring data; Described field monitoring data comprise: the current location of monitored object, current distance, present speed, current acceleration, current angle, current angular acceleration and next position, distance, speed and angle constantly.

Preferably, calculate current alarm condition, comprising according to described field monitoring data in real time: preestablish alarm parameters, described alarm parameters comprise caution zone, safe distance, caution content and caution type; Calculate current coefficient of safety in real time according to described field monitoring data and safe distance; Obtain corresponding alarm condition according to described current coefficient of safety.

Preferably, calculate current coefficient of safety in real time, comprising: utilize next distance, speed and angle and safe distance constantly to calculate current coefficient of safety in real time according to described field monitoring data and safe distance.

The present invention also provides a kind of mobile alarm terminal, comprising:

The mobile monitoring module is used for monitoring in real time monitored object and analytical calculation field monitoring data;

Data processing module is used for calculating current alarm condition according to described field monitoring data in real time;

Alarm module is used for according to described current alarm condition adjustment type of alarm corresponding with it, and reports to the police.

Preferably, described mobile alarm terminal also comprises: configuration module, be used for setting various alarm condition according to urgency level in advance, and setting and every kind of type of alarm that alarm condition is corresponding.

Preferably, described mobile alarm terminal also comprises:

Locating module is used for the locating information of gathering monitored object in real time;

The gravity sensing module, the gravity sensing information that is used for gathering in real time monitored object;

The magnetic field induction module, the magnetic field induction information that is used for gathering in real time monitored object;

Described mobile monitoring module utilizes described locating information, gravity sensing information and magnetic field induction information calculations to obtain the field monitoring data, and described field monitoring data comprise: the current location of monitored object, current distance, present speed, current acceleration, current angle, current angular acceleration and next position, distance, speed and angle constantly.

Preferably, described mobile alarm terminal also comprises:

Wireless module is used for communicating by letter with supervisory control system, obtains predefined alarm parameters from described supervisory control system, described alarm parameters comprise caution zone, safe distance, caution content and caution type; Being used for that also described field monitoring data and current alarm condition are issued described supervisory control system preserves and shows.

Preferably, described data processing module calculates current coefficient of safety in real time according to described field monitoring data and predefined safe distance, and obtains corresponding alarm condition according to described current coefficient of safety.

The present invention also provides a kind of warning system, comprises aforesaid mobile alarm terminal.

Preferably, described warning system also comprises: supervisory control system, described supervisory control system comprises monitoring client and database server, wherein, described monitoring client is used to preestablish alarm parameters and is stored in database server, described alarm parameters comprise caution zone, safe distance, caution content and caution type; Described database server is used for described alarm parameters is issued the mobile alarm terminal, and receives field monitoring data and current alarm condition and preservation in real time from described mobile alarm terminal.

Compared with prior art, the present invention includes following advantage:

At first, the present invention is a kind of dynamic alarming method efficiently, and promptly the real data of calculating according to collection in worksite is calculated unusually in real time, and efficient is Millisecond, can notify supervisor and user in 1 second in the unusual back that takes place, and makes operating personnel in time obtain abnormal information.

Secondly, the present invention can adjust type of alarm along with the change of alarm condition in monitor procedure, is applicable under the changeable ambient conditions, in time the alert notice user.

Once more, the present invention also has easy characteristics, does not need the artificial interference of monitoring client or terminal in the whole alarm monitoring process, and the configuration that only needs in advance to carry out alarm parameters at monitoring client gets final product.

Description of drawings

Fig. 1 is the structure chart of the described a kind of warning system of the embodiment of the invention;

Fig. 2 is the flow chart of the described a kind of alarm method of the preferred embodiment of the present invention;

Fig. 3 is the structure chart of the described a kind of mobile alarm terminal of the embodiment of the invention.

Embodiment

For above-mentioned purpose of the present invention, feature and advantage can be become apparent more, the present invention is further detailed explanation below in conjunction with the drawings and specific embodiments.

The invention provides a kind of dynamic alarm method, warning system and a kind of mobile alarm terminal of dynamically reporting to the police of being used for, can be in time, efficiently to the reporting to the police unusually of scene, be applicable in the location-based all kinds of service.

Be elaborated below by embodiment.

With reference to Fig. 1, be the structure chart of the described a kind of warning system of the embodiment of the invention.

Described warning system comprises mobile alarm terminal 1 and supervisory control system.Wherein, described mobile alarm terminal 1 is a kind of mobile device with location, state induction and warning function, can be handheld device or the portable set with this function.

Described supervisory control system is used for mobile alarm terminal 1 is monitored in real time, if adopt B/S (client/server) structure, can further comprise monitoring client 21 and database server 22.Described monitoring client 21 inserts consolidated network with mobile alarm terminal 1, be a kind of can displaying live view to the equipment of mobile alarm terminal 1, such as computer.Adopt communicating by letter of local area network (LAN) between described database server 22 and the monitoring client 21, pass through wired and wireless communication between described supervisory control system and the mobile alarm terminal 1.

Described monitoring client 21 is used to preestablish alarm parameters and is stored in database server 22, described alarm parameters comprise caution zone, safe distance, caution content and caution type etc., be used for mobile alarm terminal 1 and use in the alarm monitoring process.Described database server 22 is used for described alarm parameters is issued mobile alarm terminal 1, and from on-the-spot various data and the preservation of described mobile alarm terminal 1 reception in real time, so that later analysis and investigation are used, also can carry out data display simultaneously by monitoring client 21.

Below by preferred embodiment shown in Figure 2, alarm method provided by the invention is elaborated based on above-mentioned warning system.

With reference to Fig. 2, be the flow chart of the described a kind of alarm method of the preferred embodiment of the present invention.

Step 201 preestablishes alarm parameters by monitoring client, and by database server alarm parameters is sent to the mobile alarm terminal;

The supervisor can use mode such as chart to set alarm parameters by monitoring client, described alarm parameters comprise caution zone, safe distance, caution content and caution type etc.Wherein, the caution region representation carries objects such as the user of mobile alarm terminal or vehicle near the caution zone of this setting the time, and the mobile alarm terminal begins to report to the police; Safe distance represents to the distance of described caution zone boundary be how much to represent safety, then begins to report to the police if be less than this safe distance.

After the mobile alarm terminal obtains described alarm parameters, can in unusual judgement, carry out reference.

Step 202, the mobile alarm terminal is monitored object of monitoring and analytical calculation field monitoring data in real time;

Described field monitoring data comprise: the current location of monitored object, current distance, present speed, current acceleration, current angle, current angular acceleration and next position, distance, speed and angle constantly.Wherein, described monitored object is meant objects such as the user that carried the mobile alarm terminal or vehicle, and described distance is meant the distance of monitored object to the caution zone boundary.

Concrete, the mobile alarm terminal can be gathered locating information, gravity sensing information and the magnetic field induction information of monitored object in real time, and utilizes described locating information, gravity sensing information and magnetic field induction information calculations to obtain the field monitoring data.

Enumerate a kind of method of calculating above-mentioned field monitoring data below, certainly those skilled in the art should know and the invention is not restricted to the method, can also adopt other computational methods, and present embodiment is not enumerated one by one at this.

The field monitoring data computing is as follows:

1) current location, current distance, present speed

Be provided with locating module in the described mobile alarm terminal, can monitor the global location of monitored object, output locating information (can be the locating information of indoor or outdoors) is as GPS information;

The mobile alarm terminal can be learnt own current position according to the coordinate information that comprises in the GPS information;

Calculate the distance of current location, can obtain current distance to the caution zone boundary;

Simultaneously, can also directly obtain present speed according to GPS information.

2) current acceleration, next speed constantly

Be provided with the gravity sensing module in the described mobile alarm terminal, can monitor out the acceleration condition of monitored object, output gravitational attraction value and deflection;

The mobile alarm terminal can calculate current acceleration according to the gravitational attraction value;

Utilize current acceleration and, also can calculate next speed constantly in conjunction with present speed.

3) current angle, current angular acceleration, next angle constantly

Be provided with the magnetic field induction module in the described mobile alarm terminal, can monitor out the magnetic field intensity of monitored object environment of living in, the field strength values that output vector is represented;

The mobile alarm terminal can be calculated current angle according to the vector part of field strength values and deflection;

According to the angle information in a last moment, can also calculate current angular acceleration simultaneously;

According to current angle and current angular acceleration, can calculate next angle constantly.

4) next position, next distance constantly constantly

According to present speed, current acceleration and current angle, current angular acceleration, can calculate next position constantly;

Calculate the distance of next position constantly, can obtain next distance constantly to the caution zone boundary.

Step 203, the mobile alarm terminal is calculated current alarm condition according to described field monitoring data in real time;

Described alarm condition can draw by the computationally secure coefficient, the alarm condition that different coefficient of safetys is corresponding different.Coefficient of safety is a kind of unusual mode of judging, coefficient of safety can draw by above-mentioned field monitoring data and Calculation of Safety Distance.

Present embodiment provides a kind of computational methods of coefficient of safety, and is as follows:

Suppose that pedestrian's normal speed is A, safe distance is B, next distance, speed and angle constantly is referred to as C (" general designation " is meant that C is obtained by in distance, speed and the angle in next moment or several the certain algorithm computation of basis), reaction speed when the normal person runs into sound and light alarm is D, then:

Coefficient of safety X=(B * C-A) * D

In the practical application, utilize the method for the one or more data computation coefficient of safetys in above-mentioned each field monitoring data to have a lot, for example can also carry out calculating in conjunction with next distance, current acceleration, current angular acceleration and safe distance constantly, but total thought is to utilize field data to calculate a kind of criterion, can represent whether safety of monitored object distance caution zone.

According to the difference of coefficient of safety, can carry out classification to alarm condition, alarm condition can be set according to urgency level in advance, for example:

1. the first order is the safeguard protection level, is applicable to the situation of 1＞(B*C-A) * D＞0, this moment alarm condition for do not need the caution because next moment without any threat;

2. the second level is applicable to the situation of 2＞(B*C-A) * D＞1 for instructing protected level, and this moment, alarm condition was slight caution, because constantly might produce slight threat at next;

3. the third level is the supervision protected level, is applicable to the situation of 3＞(B*C-A) * D＞2, and this moment, alarm condition was for strengthening caution, because constantly might produce serious threat at next;

4. the fourth stage is the mandatory protection level, is applicable to the situation of 4＞(B*C-A) * D＞3, and this moment, alarm condition was fierce caution, because certainly lead to threat constantly at next.

Step 204, mobile alarm terminal be according to described current alarm condition adjustment type of alarm corresponding with it, and report to the police.

In order more in time warning message to be notified monitored object or supervisor, can also preestablish and every kind of type of alarm that alarm condition is corresponding, type of alarm can further be strengthened along with the urgency level of alarm condition, for example adjusts the warning volume, adjusts alert frequency etc.

Preferably, the mobile alarm terminal can also send to the related data in the monitoring alarm process database server as information such as field monitoring data, alarm condition and preserve in real time, so that later analysis and investigation are used.

Need to prove that above-mentioned steps 201 is pre-treatment step, is not necessary step of the present invention, and the mobile alarm terminal also can adopt the alarm parameters of acquiescence to set.For example:

1: under the default situations: (wherein caution is regional: sky, safe distance: 0M, caution content: life security, caution type: natural language (Chinese)) without any type of alarm;

2: when this moment, the energising of mobile alarm terminal was started working, will just write down each information (beaming back database server);

3: any time, monitoring client has carried out the alarm parameters setting and modifying, and the mobile alarm terminal will receive this configuration information and begin evaluation work;

4: the mobile alarm terminal is not opened if monitoring client has been provided with alarm parameters, and the mobile alarm terminal is opened afterwards, and monitoring client will obtain prompting, ask to be its setting, and before not increasing setting, the mobile alarm terminal is used the acquiescence mode of operation.

For making those skilled in the art understand said method better, below for the explanation that makes an explanation of two examples:

(caution is regional: a zone, safe distance: 10m, caution content: life security, caution type: natural language (Chinese)) to suppose to set alarm parameters by monitoring client; These alarm parameters are sent to the mobile alarm terminal via local area network (LAN) (comprising wired and wireless network);

Example 1:

Suppose that the mobile alarm terminal carries normal walking by the people, X divided X second when the current time was X X month X:

The mobile alarm terminal is started working after receiving type of alarm;

The mobile alarm terminal calculates the field monitoring data by locating module and gravity sensing, magnetic field induction module:

Current distance: 10m, present speed: 2m/s, current acceleration: 0m/s2, current angle: 30.0 °, current angular acceleration: 0 α, current location: E116.0 ° N40 °; And next distance constantly: 8m, speed 2m/s, angle 30.0 degree, position E116.001 ° N40.00001 °;

Calculate current coefficient of safety according to above-mentioned field monitoring data and alarm parameters: 1.5;

Judge that according to coefficient of safety drawing current alarm condition is secondary, and change type of alarm by adjusting modes such as warning volume, adjustment alert frequency;

The mobile alarm terminal returns above-mentioned data to database server via wireless network.

Example 2:

Suppose that the mobile alarm terminal carried by the people and begin accelerative running and enter the zone, highfield, X divided X+1 second when the current time was X X month X:

The mobile alarm terminal calculates the field monitoring data by locating module and gravity sensing, magnetic field induction module:

Current distance: 8m, 2.2m/s, current acceleration: 1.1m/s2, current angle: 30.0 °, current angular acceleration: 10 α, current location: E116.001 ° N40.00001 °; And next distance constantly: 5.7m, speed 3.3m/s, angle 40.0 degree, position E116.002 ° N40.000021 °;

Calculate current coefficient of safety according to above-mentioned field monitoring data and alarm parameters: 2.5;

Judge that according to coefficient of safety drawing current alarm condition is three grades, and change type of alarm by increasing modes such as warning volume, increase alert frequency;

The mobile alarm terminal returns above-mentioned data to database server via wireless network.

In sum, the described method of the embodiment of the invention is a kind of dynamic alarming method efficiently, i.e. the real data of calculating according to collection in worksite, calculate unusual in real time, efficient is Millisecond, can notify supervisor and user in 1 second in the unusual back that takes place, and makes operating personnel in time obtain abnormal information.And, can in monitor procedure, adjust type of alarm along with the change of alarm condition, be applicable under the changeable ambient conditions, in time the alert notice user.And, also have easy characteristics, do not need the artificial interference of monitoring client or terminal in the whole alarm monitoring process, the configuration that only needs in advance to carry out alarm parameters at monitoring client gets final product.

Based on foregoing, another embodiment of the present invention also has been described in detail the internal structure of above-mentioned mobile alarm terminal.

With reference to Fig. 3, be the structure chart of the described a kind of mobile alarm terminal of the embodiment of the invention.

Described mobile alarm terminal can comprise mobile monitoring module 31, data processing module 32 and alarm module 33, wherein,

Mobile monitoring module 31 is used for monitoring in real time monitored object and analytical calculation field monitoring data;

Data processing module 32 is used for calculating current alarm condition according to described field monitoring data in real time;

Alarm module 33 is used for according to described current alarm condition adjustment type of alarm corresponding with it, and reports to the police.

Preferably, described mobile alarm terminal can also comprise:

Configuration module 34 is used for setting various alarm condition according to urgency level in advance, and setting and every kind of type of alarm that alarm condition is corresponding.

Preferably, in order to calculate various field monitoring data, described mobile alarm terminal can also comprise:

Locating module 35 is used for the locating information of gathering monitored object in real time;

Gravity sensing module 36, the gravity sensing information that is used for gathering in real time monitored object;

Magnetic field induction module 37, the magnetic field induction information that is used for gathering in real time monitored object;

Described mobile monitoring module 31 utilizes described locating information, gravity sensing information and magnetic field induction information calculations to obtain the field monitoring data, and described field monitoring data comprise: the current location of monitored object, current distance, present speed, current acceleration, current angle, current angular acceleration and next position, distance, speed and angle constantly.

Preferably, described mobile alarm terminal can also comprise:

Wireless module 38 is used for communicating by letter with supervisory control system, obtains predefined alarm parameters from described supervisory control system, described alarm parameters comprise caution zone, safe distance, caution content and caution type; Being used for that also described field monitoring data and current alarm condition are issued described supervisory control system preserves and shows.

Preferably, described data processing module 32 can calculate current coefficient of safety in real time according to described field monitoring data and predefined safe distance, and obtains corresponding alarm condition according to described current coefficient of safety.

Above-mentioned mobile alarm terminal can be handheld device or the portable set that comprises above-mentioned module.

For above-mentioned terminal embodiment, because it is similar substantially to method embodiment, so description is fairly simple, relevant part gets final product referring to the part explanation of method embodiment shown in Figure 2.

Each embodiment in this specification all adopts the mode of going forward one by one to describe, and what each embodiment stressed all is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

More than to a kind of alarm method provided by the present invention, warning system and mobile alarm terminal, be described in detail, used specific case herein principle of the present invention and execution mode are set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present invention, the part that all can change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims (12)

1. an alarm method is characterized in that, comprising:

Monitor monitored object and analytical calculation field monitoring data in real time;

Calculate current alarm condition according to described field monitoring data in real time;

According to described current alarm condition adjustment type of alarm corresponding, and report to the police with it.

2. method according to claim 1 is characterized in that, also comprises:

Set various alarm condition according to urgency level in advance, and setting and every kind of type of alarm that alarm condition is corresponding.

3. method according to claim 1 and 2 is characterized in that, monitored object of described real-time monitoring and analytical calculation field monitoring data comprise:

Gather locating information, gravity sensing information and the magnetic field induction information of monitored object in real time, and utilize described locating information, gravity sensing information and magnetic field induction information calculations to obtain the field monitoring data;

Described field monitoring data comprise: the current location of monitored object, current distance, present speed, current acceleration, current angle, current angular acceleration and next position, distance, speed and angle constantly.

4. method according to claim 3 is characterized in that, calculates current alarm condition according to described field monitoring data in real time, comprising:

Preestablish alarm parameters, described alarm parameters comprise caution zone, safe distance, caution content and caution type;

Calculate current coefficient of safety in real time according to described field monitoring data and safe distance;

Obtain corresponding alarm condition according to described current coefficient of safety.

5. method according to claim 4 is characterized in that, calculates current coefficient of safety in real time according to described field monitoring data and safe distance, comprising:

Utilize next distance, speed and angle and safe distance constantly to calculate current coefficient of safety in real time.

6. a mobile alarm terminal is characterized in that, comprising:

The mobile monitoring module is used for monitoring in real time monitored object and analytical calculation field monitoring data;

Data processing module is used for calculating current alarm condition according to described field monitoring data in real time;

Alarm module is used for according to described current alarm condition adjustment type of alarm corresponding with it, and reports to the police.

7. mobile alarm terminal according to claim 6 is characterized in that, also comprises:

Configuration module is used for setting various alarm condition according to urgency level in advance, and setting and every kind of type of alarm that alarm condition is corresponding.

8. according to claim 6 or 7 described mobile alarm terminals, it is characterized in that, also comprise:

Locating module is used for the locating information of gathering monitored object in real time;

The gravity sensing module, the gravity sensing information that is used for gathering in real time monitored object;

The magnetic field induction module, the magnetic field induction information that is used for gathering in real time monitored object;

Described mobile monitoring module utilizes described locating information, gravity sensing information and magnetic field induction information calculations to obtain the field monitoring data, and described field monitoring data comprise: the current location of monitored object, current distance, present speed, current acceleration, current angle, current angular acceleration and next position, distance, speed and angle constantly.

9. mobile alarm terminal according to claim 8 is characterized in that, also comprises:

Wireless module is used for communicating by letter with supervisory control system, obtains predefined alarm parameters from described supervisory control system, described alarm parameters comprise caution zone, safe distance, caution content and caution type; Being used for that also described field monitoring data and current alarm condition are issued described supervisory control system preserves and shows.

10. mobile alarm terminal according to claim 9 is characterized in that:

Described data processing module calculates current coefficient of safety in real time according to described field monitoring data and predefined safe distance, and obtains corresponding alarm condition according to described current coefficient of safety.

11. a warning system is characterized in that, comprises as the described mobile alarm terminal of the arbitrary claim of above-mentioned claim 6 to 10.

12. warning system according to claim 11 is characterized in that, also comprises:

Supervisory control system, described supervisory control system comprises monitoring client and database server, wherein,

Described monitoring client is used to preestablish alarm parameters and is stored in database server, described alarm parameters comprise caution zone, safe distance, caution content and caution type;

Described database server is used for described alarm parameters is issued the mobile alarm terminal, and receives field monitoring data and current alarm condition and preservation in real time from described mobile alarm terminal.

Images