CN104728648B - LED lamp strip system for regionalized safety monitoring and intelligent alarm - Google Patents

Abstract

The invention discloses an LED lamp strip system for regionalized safety monitoring and intelligent alarm. For meeting the requirement for regionalized management and monitoring of an urban illumination system, accurate positioning, tracking and timely alarm are conducted on LED lamp strips and picture monitoring is implemented to fill the blank in the field, satellite positioning and base station positioning are adopted to achieve indoor positioning of the LED lamp strips, and longitude and latitude data of a target are calculated by adopting a polygon midpoint getting algorithm in base station positioning. After an urban remote monitoring center sends a positioning instruction, indoor positioning errors can be in the range of 5 meters to 50 meters even if a vehicle to be positioned is under the indoor condition, the positioning mode is approximate to or similar to satellite positioning, the indoor positioning success probability is up to 99%, and accordingly stolen indoor LED lamp strip products can be accurately tracked and positioned.

Description

A kind of compartmentalization safety monitoring and the LED system of intelligent alarm

Technical field

The present invention relates to LED, a kind of compartmentalization safety monitoring and the LED system of intelligent alarm.

Background technology

Along with popularizing of intelligent lighting concept, the application of LED is the most no longer only limitted to decoration and the illumination of indoor, by In outstanding shape-plastic feature, it is easy to the making moulding such as figure, word, its building out of doors that has been widely used, The facilities such as bridge, road, furniture, automobile, advertisement, illumination, steamer, bar.

The urbanization process of the mankind constantly makes progress in evolution, and the important i.e. said lighting system of a ring therein Only stopping at and light, close and the function such as timing dimming, the regional management of urban lighting system has become as with monitoring Trend of the times, the function of existing illuminator obviously cannot adapt to the requirement of urban lighting system regional management and monitoring, and The LED that the requirement of urban lighting system regional management and monitoring is concrete should meet locating and tracking and Times accurately Alert, and implement picture monitoring, at present, the regional management in this field and monitoring still belong to blank, and stolen after LED In indoor, accurate track and localization belongs to technological difficulties to band product, and applicant is intended to fill up this blank, captures technical barrier.

Summary of the invention

For solving above-mentioned technical problem, it is an object of the invention to provide a kind of compartmentalization safety monitoring and intelligent alarm LED system.

The technical solution used in the present invention is:

A kind of compartmentalization safety monitoring and the LED system of intelligent alarm, including:

It is distributed in many groups LED of urban area；

The power supply driver that multiple and described LED is supporting, for driving switch and the light modulation of described LED；

At least one controller, this controller is connected with power supply driver with output control signal to control LED；

Least one set photographic head and electric platform, this photographic head and electric platform be connected with controller respectively, and photographic head is used In picked-up LED residing for picture data and feed back to controller, electric platform is controlled by controller and for driving shooting 360 ° of rotations of head；

Localizer that is multiple supporting with described LED and that be arranged in LED, and carry out satellite with localizer The cellular base station of bit data communication process, data server and global position system, described localizer includes mobile module, satellite Locating module, vibrating sensor, mobile communication card；

One remote monitoring center and a communication module, this remote monitoring center and cellular base station communication, and by communication mould Block and controller are mutual；

Described satellite positioning module is controlled by mobile module, for being obtained the longitude and latitude of LED by global position system Degrees of data, and these longitude and latitude data are transferred to the internal memory of mobile module to store；

Described vibrating sensor is for detecting the motion of LED and the state of stopping, and the status signal that will detect Feed back to mobile module；

Described mobile module, by mobile communication card and cellular base station communication, to obtain the coding of cellular base station, and passes through Mobile communication card goes out the latitude and longitude coordinates of described cellular base station according to the codes match of described cellular base station, is then saved in described The internal memory of mobile module；

After localizer power-up initializing, its processing method comprises the following steps:

Whether S1, mobile module sensing chamber inner position function open；

If S2 opens, start the antenna receive capabilities of satellite positioning module, enter next step；Otherwise return S1 and continue inspection Measure bit function；

S3, real-time search of satellite signal, it is judged that whether satellite fix positions successfully；

If S4 satellite positioning module gets the longitude and latitude data of LED, then satellite fix by global position system Successful, the LED longitude and latitude data got described in mobile module dynamical save are to its internal memory；

If S5 satellite positioning module can not get the longitude and latitude data of LED, then satellite fix failure, mobile phone Module starts to control mobile communication card and obtains the coding of cellular base station in real time；

S6, mobile module, by mobile communication card and data server communication, are counting with the cellular base station coding got Go out the longitude and latitude data of described cellular base station according to the database matching of server, and be saved in its internal memory；

S7, mobile module are by the status information of vibrating sensor feedback LED, it is judged that whether LED is positioned at room In；

If the feedback LED continuous shaking of S8 vibrating sensor, then mobile module thinks that LED, not in indoor, returns S3 search of satellite signal；

If S9 vibrating sensor feedback LED is not continuous shaking, and end-state is static, then mobile module is recognized LED after positioning unsuccessfully for S5 Satellite is positioned at indoor, and now mobile module stops obtaining the coding of cellular base station；

The longitude and latitude data obtained and preserved are analyzed by S10, mobile module, are positioned to S4 Satellite Under account of somebody's meritorious service state, the last longitude and latitude data preserved are as the current location of LED, or with in mobile module in S6 Deposit the multiple cellular base station position calculation preserved and go out the longitude and latitude data of current location.

Further, described step S10 includes: S10A, the most identical, then with S4 centre halfback in the base coded data of indoor acquisition Under the success status of star location, the last longitude and latitude data preserved are as the current location of LED；S10B, in indoor acquisition Base coded data have two differences, then make with the longitude and latitude data preserved last under the success status of S4 Satellite location Current location for LED；S10C, in the base coded data difference of indoor acquisition more than 2 points, then with mobile phone mould in S6 The polygon that multiple cellular base station data that the internal memory of block has preserved are constituted takes the algorithm at midpoint, calculates the warp of current location Latitude data.

Further, the LED longitude and latitude data got described in mobile module dynamical save in described step S4 are logical Cross after the most successfully preserving, it is judged that LED is continuous shaking state, returns again to step S3 and realizes dynamical save with this.

Wherein, the data server that described data server provides for geodata provider, means of communication can be by upper Net obtains the longitude and latitude data that base station is corresponding in data base.

Further, LED system also includes temperature sensor and the optical sensor being connected with described controller, control Device processed regulates the brightness of LED with temperature sensor and the temperature of optical sensor feedback and light intensity signal.

Beneficial effects of the present invention:

LED system of the present invention has adapted to the requirement of urban lighting system regional management and monitoring, solves LED Band should meet locating and tracking and alarm accurately, and implements picture monitoring, fills up the blank in this field, and employing is defended Star location and architecture realize the indoor positioning of LED, and the algorithm that architecture uses polygon to take midpoint calculates mesh Target longitude and latitude data, after the remote monitoring center in city sends positioning instruction so that it is even at vehicle place to be positioned In indoor, also can realize the position error of indoor positioning in 5-50 rice, close to or similar satellite fix, the one-tenth of indoor positioning Merit probability reaches 99%, thus stolen after LED product in indoor accurate track and localization.

Accompanying drawing explanation

Below in conjunction with the accompanying drawings the detailed description of the invention of the present invention is described further.

Fig. 1 is the principle schematic of LED system of the present invention；

Fig. 2 is the principle flow chart of the present invention；

Fig. 3 is the indoor positioning data processing method of the present invention.

Detailed description of the invention

As it is shown in figure 1, be a kind of compartmentalization safety monitoring LED system with intelligent alarm of the present invention, including:

It is distributed in many groups LED 10 of urban area；

The power supply driver 20 that multiple and described LED 10 is supporting, for driving switch and the tune of described LED 10 Light；

At least one controller 30, this controller 30 is connected with power supply driver 20 to export control signal to control LED Band 10；

One group of photographic head 40 and electric platform 50, this photographic head 40 and electric platform 50 are connected with controller 30 respectively, take the photograph As 40 for absorbing the picture data residing for LED 10 and feeding back to controller 30, and electric platform 50 is controlled by controller 30 and for driving 360 ° of rotations of photographic head 40；

Localizer 100 that is multiple supporting with described LED 10 and that be arranged in LED 10, and with localizer 100 Carry out the cellular base station 200 of satellite location data communication process, data server 300 and global position system 400, described data The data server that server 300 provides for geodata provider, means of communication can obtain base station data base by online The longitude and latitude data of middle correspondence.

One remote monitoring center 500 and a communication module 60, this remote monitoring center 500 communicates with cellular base station 200, and Mutual by communication module 60 and controller 30；

Described localizer 100 includes mobile module 101, satellite positioning module 102, vibrating sensor 103, mobile communication card 104；Described satellite positioning module 102 is controlled by mobile module 101, for obtaining LED 10 by global position system 400 Longitude and latitude data, and these longitude and latitude data are transferred to the internal memory of mobile module 101 to store；

Described vibrating sensor 103 is for detecting the motion of LED 10 and the state of stopping, and the state that will detect Signal feeds back to mobile module 101；

Described mobile module 101 is communicated with cellular base station 200 by mobile communication card 104, to obtain cellular base station 200 Coding, and gone out the longitude and latitude of described cellular base station 200 according to the codes match of described cellular base station 200 by mobile communication card 104 Degree coordinate, is then saved in the internal memory of described mobile module 101；

LED system of the present invention also includes temperature sensor 70 and the optical sensor 80 being connected with described controller 30, Controller 30 regulates the brightness of LED 10 with temperature sensor 70 and the temperature of optical sensor 80 feedback and light intensity signal.

As in figure 2 it is shown, after localizer 100 power-up initializing, its processing method comprises the following steps:

Whether S1, mobile module 101 sensing chamber inner position function open；

If S2 opens, start the antenna receive capabilities of satellite positioning module 102, enter next step；Otherwise return S1 to continue Continuous detection and location function；

S3, real-time search of satellite signal, it is judged that whether satellite fix positions successfully；

If S4 satellite positioning module 102 gets the longitude and latitude data of LED 10 by global position system 400, then Satellite fix is successful, and the LED 10 longitude and latitude data got described in mobile module 101 dynamical save are to its internal memory；

If S5 satellite positioning module 102 can not get the longitude and latitude data of LED 10, then satellite fix failure, Mobile module 101 starts to control mobile communication card 104 and obtains the coding of cellular base station 200 in real time；

S6, mobile module 101 are communicated with data server 300 by mobile communication card 104, with the cellular base station got 200 codings go out the longitude and latitude data of described cellular base station 200 in the database matching of data server 300, and preserve within it Deposit；

S7, mobile module 101 feed back the status information of LED 10 by vibrating sensor 103, it is judged that LED 10 Whether it is positioned at indoor；

If S8 vibrating sensor 103 feeds back LED 10 continuous shaking, then mobile module 101 thinks that LED 10 is not In indoor, return S3 search of satellite signal；

If it is not continuous shaking that S9 vibrating sensor 103 feeds back LED 10, and end-state is static, then mobile phone mould Block 101 think S5 Satellite position unsuccessfully after LED 10 be positioned at indoor, now mobile module 101 stop obtain mobile phone base Stand 200 coding；

The longitude and latitude data obtained and preserved are analyzed by S10, mobile module 101, fixed with S4 Satellite Under the success status of position, the last longitude and latitude data preserved are as the current location of LED 10, or with mobile phone mould in S6 Multiple cellular base station 200 position calculation that the internal memory of block 101 has preserved goes out the longitude and latitude data of current location.

Described step S10 includes: S10A, the most identical in the base coded data of indoor acquisition, then position with S4 Satellite Under success status, the last longitude and latitude data preserved are as the current location of LED 10；S10B, at the base of indoor acquisition Coded data of standing has two differences, then using the last longitude and latitude data preserved under the success status of S4 Satellite location as The current location of LED 10；S10C, in the base coded data difference of indoor acquisition more than 2 points, then with mobile phone mould in S6 The polygon that multiple cellular base station data that the internal memory of block has preserved are constituted takes the algorithm at midpoint, calculates the warp of current location Latitude data.

The LED 10 longitude and latitude data got described in mobile module dynamical save in described step S4 are by After the most successfully preserving, it is judged that LED 10 is continuous shaking state, returns again to step S3 and realizes dynamical save with this.

The foregoing is only the preferred embodiments of the present invention, the present invention is not limited to above-mentioned embodiment, as long as with Essentially identical means realize within the technical scheme of the object of the invention broadly falls into protection scope of the present invention.

Claims (5)

1. a compartmentalization safety monitoring and the LED system of intelligent alarm, it is characterised in that including:

It is distributed in many groups LED (10) of urban area；

Multiple power supply drivers (20) supporting with described LED (10), be used for the switch driving described LED (10) with Light modulation；

At least one controller (30), this controller (30) is connected with power supply driver (20) with output control signal to control LED Light bar (10)；

Least one set photographic head (40) and electric platform (50), this photographic head (40) and electric platform (50) respectively with controller (30) connecting, photographic head (40) is used for the picture data that absorbs residing for LED (10) and feeds back to controller (30), electronic cloud Platform (50) is controlled by controller (30) and is used for driving 360 ° of rotations of photographic head (40)；

Localizer (100) that is multiple supporting with described LED (10) and that be arranged in LED (10), and and localizer (100) cellular base station (200) of satellite location data communication process, data server (300) and global position system are carried out (400), described localizer (100) includes mobile module (101), satellite positioning module (102), vibrating sensor (103), mobile phone Address card (104)；

One remote monitoring center (500) and a communication module (60), this remote monitoring center (500) leads to cellular base station (200) Letter, and mutual by communication module (60) and controller (30)；

Described satellite positioning module (102) is controlled by mobile module (101), for obtaining LED by global position system (400) The longitude and latitude data of light bar (10), and these longitude and latitude data are transferred to the internal memory of mobile module (101) to store；

Described vibrating sensor (103) is used for detecting motion and the state of stopping of LED (10), and the state that will detect Signal feeds back to mobile module (101)；

Described mobile module (101) is communicated with cellular base station (200) by mobile communication card (104), to obtain cellular base station (200) coding, and go out described mobile phone base by mobile communication card (104) according to the codes match of described cellular base station (200) Stand the latitude and longitude coordinates of (200), be then saved in the internal memory of described mobile module (101)；

After localizer (100) power-up initializing, its processing method comprises the following steps:

Whether S1, mobile module (101) sensing chamber inner position function open；

If S2 opens, start the antenna receive capabilities of satellite positioning module (102), enter next step；Otherwise return S1 to continue Detection and location function；

S3, real-time search of satellite signal, it is judged that whether satellite fix positions successfully；

If S4 satellite positioning module (102) gets the longitude and latitude data of LED (10) by global position system (400), Then satellite fix success, LED (10) the longitude and latitude data got described in mobile module (101) dynamical save are in it Deposit；

If S5 satellite positioning module (102) can not get the longitude and latitude data of LED (10), then satellite fix failure, Mobile module (101) starts to control mobile communication card (104) and obtains the coding of cellular base station (200) in real time；

S6, mobile module (101) are communicated with data server (300) by mobile communication card (104), with the mobile phone base got (200) coding of standing goes out the longitude and latitude data of described cellular base station (200) in the database matching of data server (300), and protects There is its internal memory；

S7, mobile module (101) are by the status information of vibrating sensor (103) feedback LED (10), it is judged that LED (10) whether it is positioned at indoor；

If S8 vibrating sensor (103) feedback LED (10) continuous shaking, then mobile module (101) thinks LED (10) not in indoor, S3 search of satellite signal is returned；

If S9 vibrating sensor (103) feedback LED (10) is not continuous shaking, and end-state is static, then mobile phone mould Block (101) think S5 Satellite position unsuccessfully after LED (10) be positioned at indoor, now mobile module (101) stop obtain The coding of cellular base station (200)；

The longitude and latitude data obtained and preserved are analyzed by S10, mobile module (101), position with S4 Satellite Under success status, the last longitude and latitude data preserved are as the current location of LED (10), or with mobile phone mould in S6 Multiple cellular base station (200) position calculation that the internal memory of block (101) has preserved goes out the longitude and latitude data of current location.

A kind of compartmentalization safety monitoring the most according to claim 1 and the LED system of intelligent alarm, its feature exists In: described step S10 includes: S10A, the most identical in the base coded data of indoor acquisition, then position successfully with S4 Satellite Under state, the last longitude and latitude data preserved are as the current location of LED (10)；S10B, in the base station of indoor acquisition Coded data has two differences, then using the last longitude and latitude data preserved under the success status of S4 Satellite location as LED The current location of light bar (10)；S10C, in the base coded data difference of indoor acquisition more than 2 points, then with mobile phone mould in S6 The polygon that multiple cellular base station data that the internal memory of block has preserved are constituted takes the algorithm at midpoint, calculates the warp of current location Latitude data.

A kind of compartmentalization safety monitoring the most according to claim 1 and the LED system of intelligent alarm, its feature exists In: LED (10) the longitude and latitude data got described in mobile module dynamical save in described step S4 are by first After secondary successfully preservation, it is judged that LED (10) is continuous shaking state, returns again to step S3 and realizes dynamical save with this.

A kind of compartmentalization safety monitoring the most according to claim 1 and the LED system of intelligent alarm, its feature exists In: the data server that described data server (300) provides for geodata provider, means of communication can be obtained by online The longitude and latitude data that base station is corresponding in data base.

A kind of compartmentalization safety monitoring the most according to claim 1 and the LED system of intelligent alarm, its feature exists In: it also includes temperature sensor (70) and the optical sensor (80) being connected with described controller (30), and controller (30) is with temperature Degree sensor (70) and the temperature fed back of optical sensor (80) and light intensity signal are to regulate the brightness of LED (10).