CN112351561A - Corridor induction lamp control system and control method thereof - Google Patents

Abstract

A corridor induction lamp control system comprises a central processing unit, a plurality of groups of distance measuring modules, a plurality of groups of sound collecting modules, a plurality of groups of image collecting modules, a plurality of groups of induction lamps, a portrait collecting module, a judging module, a three-dimensional model module and an analysis processing module; a plurality of groups of distance measuring modules, a plurality of groups of sound collecting modules, a plurality of groups of image collecting modules and a plurality of groups of induction lamps are respectively and uniformly arranged in the corridor; the multiple groups of induction lamps are respectively connected with the central processing unit in a control way; the multi-group distance measuring module, the multi-group sound-wave collecting module, the multi-group image collecting module, the portrait collecting module, the judging module, the three-dimensional model module and the analysis processing module are respectively in communication connection with the central processing unit. The invention also discloses a control method of the corridor induction lamp. The invention is used by matching with the image acquisition module installed in the corridor to judge whether the pedestrian is in the corridor, can accurately determine the position of the pedestrian to turn on the induction lamp to illuminate the pedestrian, and can improve the safety of corridor monitoring.

Description

Corridor induction lamp control system and control method thereof

Technical Field

The invention relates to the technical field of intelligent control, in particular to a corridor induction lamp control system and a corridor induction lamp control method.

Background

When lighting is provided in public places with insufficient light, such as corridors, induction lamps are mostly adopted for lighting; the induction lamp needs to be turned on when the intelligent controller is powered on or turned off when the intelligent controller is powered off, so that power resources are saved, and the purpose of environmental protection is achieved; the existing corridor induction lamps use sound sensors to achieve the purpose of intelligent switching, and the induction lamps sense artificial noise after people enter the corridor, so that the lamps are controlled to be turned on and controlled in a delayed mode, but the sound sensors are easily interfered by external sound such as thunder, whistling, horn sound and the like, so that the induction lamps in the corridor are automatically turned on, the waste of electric energy is further caused, the lamp bead on-off times of the induction lamps are greatly increased, and the service life of the induction lamps is greatly reduced; therefore, the application provides a corridor induction lamp control system and a corridor induction lamp control method.

Disclosure of Invention

Objects of the invention

The invention provides a corridor induction lamp control system and a control method thereof for solving the technical problems in the background art.

(II) technical scheme

In order to solve the problems, the invention provides a corridor induction lamp control system which comprises a central processing unit, a plurality of groups of distance measuring modules, a plurality of groups of sound collecting modules, a plurality of groups of image collecting modules, a plurality of groups of induction lamps, a portrait collecting module, a judging module, a three-dimensional model module and an analysis processing module;

the plurality of groups of ranging modules are uniformly arranged in the corridor along the corridor path direction, the plurality of groups of ranging modules are respectively in communication connection with the central processing unit, and the ranging modules are used for detecting distance information A of pedestrians in the corridor from the ranging modules and sending the detected distance information A to the central processing unit;

the multi-group sound collection modules are uniformly arranged in the corridor, are respectively in communication connection with the central processing unit, and are used for collecting the sound decibel information B of the pedestrian in the corridor and sending the sound decibel information B obtained by detection to the central processing unit;

the system comprises a plurality of groups of image acquisition modules, a central processing unit, a plurality of image acquisition modules and a plurality of image processing units, wherein the plurality of groups of image acquisition modules are uniformly arranged in a corridor and are respectively in communication connection with the central processing unit;

the multiple groups of induction lamps are uniformly arranged in the corridor along the corridor path direction, and are respectively connected with the central processing unit in a control mode;

the image acquisition module is in communication connection with the central processing unit and is used for acquiring image information D of pedestrians from the image information C received by the central processing unit and sending the detected image information D to the central processing unit;

the judging module is in communication connection with the central processing unit and is used for judging whether the portrait information D is acquired by the portrait acquiring module and judging whether the sound value in the sound decibel information B received by the central processing unit reaches a set threshold value;

the three-dimensional model module is in communication connection with the central processing unit and is used for generating a three-dimensional model E of the corridor channel according to the image information C received by the central processing unit; the positions of the plurality of groups of distance measuring modules, the plurality of groups of sound collecting modules, the plurality of groups of image collecting modules and the plurality of groups of induction lamps are displayed in the three-dimensional model E;

the analysis processing module is in communication connection with the central processing unit and is used for displaying the positions of the pedestrians in the corridor on the three-dimensional model E according to the distance information A received by the central processing unit.

Preferably, the system further comprises an ambient brightness detection module; the environment brightness detection module is in communication connection with the central processing unit and is used for detecting brightness information F of the corridor environment and sending the detected brightness information F to the central processing unit to judge whether the system is started or not according to the detected environment brightness value.

Preferably, the lamp further comprises a lamp brightness adjusting module; the lamp brightness adjusting module is connected with the central processing unit in a control mode, the lamp brightness adjusting module is electrically connected with the multiple groups of induction lamps respectively, the lamp brightness adjusting module is used for adjusting and controlling the brightness of the multiple groups of induction lamps far away from N lamp positions of pedestrians in the corridor along the walking direction of the pedestrians, wherein the multiple groups of induction lamps far away from M lamp positions of the pedestrians in the corridor along the walking direction of the pedestrians are all closed, and the numerical values of N and M are not smaller than one.

Preferably, the value of N is selected to be 3; the value of M is chosen to be 1.

Preferably, a plurality of groups of sound receiving sensors are further included; the sound receiving sensors are uniformly arranged in the corridor and used for receiving sound decibel information G generated when pedestrians walk in the corridor and sending the sound decibel information G to the processor.

Preferably, the device further comprises a storage module; the storage module is in communication connection with the central processing unit and is used for storing the information data received by the central processing unit.

Preferably, the system also comprises a route prediction module and a behavior analysis module;

the behavior analysis module is in communication connection with the central processing unit, and is used for analyzing the behavior actions of the limbs of the pedestrians in the corridor according to the image information C, judging the movement trend information of the pedestrians and sending the movement trend information to the central processing unit;

the route prediction module is in communication connection with the central processing unit and is used for making a walking path of the pedestrian according to the movement trend information of the pedestrian.

The invention also provides a control method of the corridor induction lamp, which comprises the following specific steps:

s1, starting a corridor induction lamp control system, acquiring sound decibel information B in a corridor through a sound acquisition module and acquiring portrait information D of a pedestrian from image information C through a portrait acquisition module;

s2, the judgment module judges the detection result in S1;

if the sound value in the sound decibel information B is greater than the set threshold value and the portrait information D of the pedestrian is acquired by the portrait acquisition module, S3 is executed;

if the sound value in the sound decibel information B is not greater than the set threshold value or the portrait information D of the pedestrian is not acquired by the portrait acquisition module, continuing to execute S1;

s3, generating a stereo model E of the corridor passage by the stereo model module according to the image information C;

s4, displaying the positions of the multiple groups of distance measuring modules, the multiple groups of sound collecting modules, the multiple groups of image collecting modules, the multiple groups of induction lamps and the positions of pedestrians in the corridor in a three-dimensional model E;

s5, the central processing unit controls the operation of the multiple groups of induction lamps;

s6, the judging module continuously judges whether the portrait acquiring module acquires the portrait information D of the pedestrian from the image information C:

if the portrait information D of the pedestrian is collected continuously, S5 is executed continuously;

if the portrait information D of the pedestrian is not collected, S1 is executed.

Preferably, the condition for starting the corridor induction lamp control system in S1 is that the environmental brightness value in the corridor detected by the environmental brightness detection module is not greater than the set environmental brightness threshold.

Preferably, in S5, the brightness values of the multiple groups of induction lamps at the three lamp positions far away from the pedestrian along the walking direction of the pedestrian are less than the brightness values of the multiple groups of induction lamps at the three lamp positions close to the pedestrian; and the multiple groups of induction lamps at the lamp positions far away from the pedestrians in the corridor along the walking direction of the pedestrians are all turned off.

The technical scheme of the invention has the following beneficial technical effects:

when the corridor induction lamp control system is used, a corridor induction lamp control system is started, sound decibel information B in a corridor is collected through a sound collection module, portrait information D of a pedestrian is collected from image information C through a portrait collection module, the detection result is judged through an arranged judgment module, and if the judgment result is verified at the same time, a stereo model module generates a stereo model E of a corridor channel according to the image information C; the positions of a plurality of groups of distance measuring modules, a plurality of groups of sound collecting modules, a plurality of groups of image collecting modules, a plurality of groups of induction lamps and the positions of pedestrians in a corridor are all displayed in a three-dimensional model E, meanwhile, a central processing unit controls the plurality of groups of induction lamps to operate so as to provide illumination for the pedestrians walking in the corridor at night, when the pedestrian image collecting module does not collect the pedestrian image information D, the plurality of groups of induction lamps are powered off, and the existence of the pedestrians in the corridor is re-detected and judged, so that the service life of the induction lamps is not prolonged while energy is saved;

in addition, the control method of the corridor induction lamps is simple to implement, can accurately judge whether pedestrians exist in the corridor, and intelligently turns on the multiple groups of induction lamps to provide illumination for the pedestrians in the corridor, so that the control method is more intelligent, more energy-saving and more environment-friendly; the method has the advantages that the method is matched with the image acquisition module installed in the corridor for use, the cost of the method which is actually put into use is reduced, the effect of corridor safety monitoring can be achieved according to the matching use of the image acquisition module, and the safety performance of corridor monitoring is greatly improved.

Drawings

Fig. 1 is a schematic block diagram of a corridor induction lamp control system provided by the invention.

Fig. 2 is a flow chart of a corridor inductive lamp control method provided by the invention.

Reference numerals: 101. a central processing unit; 102. a distance measurement module; 103. a sound acquisition module; 104. an image acquisition module; 105. an induction lamp; 106. a portrait acquisition module; 107. a judgment module; 108. a stereo model module; 109. an analysis processing module; 110. an ambient brightness detection module; 111. and a lamp brightness adjusting module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1, the corridor induction lamp control system provided by the present invention includes a central processor 101, a plurality of sets of distance measuring modules 102, a plurality of sets of sound collecting modules 103, a plurality of sets of image collecting modules 104, a plurality of sets of induction lamps 105, a portrait collecting module 106, a judging module 107, a stereo model module 108 and an analysis processing module 109;

the plurality of groups of ranging modules 102 are uniformly arranged in the corridor along the corridor path direction, the plurality of groups of ranging modules 102 are respectively in communication connection with the central processing unit 101, and the ranging modules 102 are used for detecting distance information A of pedestrians in the corridor from the ranging modules 102 and sending the detected distance information A to the central processing unit 101; the distance measuring modules 102 are laser detection devices, which are generally not described in detail in the prior art, and a plurality of groups of distance measuring modules 102 are uniformly distributed along the direction from the entrance to the exit of the corridor;

the multi-group sound collection modules 103 are uniformly arranged in the corridor, the multi-group sound collection modules 103 are respectively in communication connection with the central processor 101, and the sound collection modules 103 are used for collecting the sound decibel information B of the pedestrian in the corridor and sending the detected sound decibel information B to the central processor 101;

the multiple groups of image acquisition modules 104 are uniformly arranged in the corridor, the multiple groups of image acquisition modules 104 are respectively in communication connection with the central processing unit 101, and the image acquisition modules 104 are used for acquiring image information C of pedestrians in the corridor and sending the detected image information C to the central processing unit 101; the image acquisition module 104 selects a camera, the cameras are arranged in the corridor to improve the safety of the interior of the building, the cameras are not described in detail in the prior art, and the cameras adopted in the method are infrared monitoring cameras capable of performing high-definition image acquisition at night;

the multiple groups of induction lamps 105 are uniformly arranged in the corridor along the corridor path direction, the multiple groups of induction lamps 105 are respectively in control connection with the central processing unit 101, and the central processing unit 101 is arranged to control the multiple groups of induction lamps 105 to be powered on or powered off;

the portrait acquisition module 106 is in communication connection with the central processing unit 101, and the portrait acquisition module 106 is used for acquiring portrait information D of pedestrians from the image information C received by the central processing unit 101 and sending the detected portrait information D to the central processing unit 101;

the judging module 107 is communicatively connected to the central processing unit 101, and the judging module 107 is configured to judge whether the portrait information D is acquired by the portrait acquiring module 106 and judge whether the sound value in the sound decibel information B received by the central processing unit 101 reaches a set threshold;

the stereo model module 108 is in communication connection with the central processing unit 101, and the stereo model module 108 is used for generating a stereo model E of the corridor passage according to the image information C received by the central processing unit 101; the positions of the plurality of groups of distance measuring modules 102, the plurality of groups of sound collecting modules 103, the plurality of groups of image collecting modules 104 and the plurality of groups of induction lamps 105 are displayed in the three-dimensional model E;

the analysis processing module 109 is in communication connection with the central processing unit 101, and the analysis processing module 109 is configured to display the position of the pedestrian in the corridor on the three-dimensional model E according to the distance information a received by the central processing unit 101.

In the invention, when the corridor induction lamp control system is used, a sound decibel information B in a corridor is collected through the sound collection module 103, the portrait information D of a pedestrian is collected from the image information C through the portrait collection module 106, the detection result is judged through the arranged judgment module 107, and if the judgment result is verified at the same time, the stereo model module 108 generates a stereo model E of a corridor channel according to the image information C; with multiunit distance measuring module 102, multiunit sound collection module 103, multiunit image collection module 104, pedestrian's position all shows in the three-dimensional model E in position and the corridor of multiunit response lamp 105, central processing unit 101 controls multiunit response lamp 105 operation simultaneously, in order to provide the illumination for the pedestrian of walking in the corridor when night, do not gather pedestrian's portrait information D when portrait collection module 106, then multiunit response lamp 105 all cuts off the power supply, detect again and judge that there is nobody in the corridor, and then can not improve response lamp 105's life in the energy saving.

In an optional embodiment, the system further comprises an ambient brightness detection module 110; the environment brightness detection module 110 is in communication connection with the central processing unit 101, and the environment brightness detection module 110 is configured to detect brightness information F of a corridor environment, and send the detected brightness information F to the central processing unit 101 for determining whether the system is started according to the detected environment brightness value;

the system is intelligently started by controlling the ambient brightness detection module 110, so that the system is prevented from being triggered and operated at the time of no need of turning on the lamp in the daytime, the waste of electric energy is avoided, and the system is more energy-saving and environment-friendly.

In an optional embodiment, a lamp brightness adjusting module 111 is further included; the lamp brightness adjusting module 111 is connected with the central processing unit 101 in a control mode, the lamp brightness adjusting module 111 is respectively electrically connected with the multiple groups of induction lamps 105, the lamp brightness adjusting module 111 is used for adjusting and controlling the brightness of the multiple groups of induction lamps 105 which are far away from N lamp positions of pedestrians in the corridor along the walking direction of the pedestrians, wherein the multiple groups of induction lamps 105 which are far away from M lamp positions of the pedestrians in the corridor along the walking direction of the pedestrians are all turned off, and the numerical values of N and M are not less than one; the above arrangement is set only when there are few pedestrians in the corridor, and when the pedestrians are distributed in the corridor, the induction lamps 105 are all turned on to illuminate the pedestrians in the corridor;

the brightness of the multiple groups of induction lamps 105 is further adjusted by adjusting the power of the multiple groups of induction lamps 105, so that the energy-saving effect is achieved, the requirement for pedestrian illumination can be met, and the environment-friendly effect is achieved, and the use cost is reduced.

In an alternative embodiment, the value of N is selected to be 3; the value of M is chosen to be 1.

In an optional embodiment, a plurality of sets of sound receiving sensors are further included; the multiple groups of sound receiving sensors are uniformly arranged in the corridor, the sound receiving sensors are used for receiving sound decibel information G generated when pedestrians walk in the corridor, the sound decibel information G is sent to the processor, and the pedestrians in the corridor are further determined through the multiple groups of sound receiving sensors.

In an optional embodiment, the system further comprises a storage module; the storage module is in communication connection with the central processing unit 101, and the storage module is used for storing the information data received by the central processing unit 101.

In an optional embodiment, the system further comprises a route prediction module and a behavior analysis module;

the behavior analysis module is in communication connection with the central processing unit 101, and is used for analyzing the behavior of the limbs of the pedestrians in the corridor according to the image information C, judging the movement trend information of the pedestrians, and sending the movement trend information to the central processing unit 101;

the route prediction module is in communication connection with the central processing unit 101 and is used for making a walking path of the pedestrian according to the movement trend information of the pedestrian.

As shown in fig. 2, the invention also provides a control method of the corridor inductive lamp, which comprises the following specific steps:

s1, starting a corridor induction lamp control system, acquiring sound decibel information B in a corridor through the sound acquisition module 103, and acquiring portrait information D of a pedestrian from the image information C through the portrait acquisition module 106;

s2, the judgment module 107 judges the detection result in S1;

if the value of sound in the sound decibel information B is greater than the set threshold value and the portrait acquisition module 106 acquires the portrait information D of the pedestrian, S3 is executed;

if the value of the sound in the sound decibel information B is not greater than the preset threshold value or the portrait information D of the pedestrian is not acquired by the portrait acquisition module 106, continuing to execute S1;

s3, the stereo model module 108 generates a stereo model E of the corridor passage according to the image information C;

s4, displaying the positions of the multiple groups of distance measuring modules 102, the multiple groups of sound acquisition modules 103, the multiple groups of image acquisition modules 104, the multiple groups of induction lamps 105 and the positions of pedestrians in the corridor in a three-dimensional model E;

s5, the central processing unit 101 controls the operation of the multiple groups of induction lamps 105;

s6, the determination module 107 continuously determines whether the human image acquisition module 106 acquires the human image information D of the pedestrian from the image information C:

if the portrait information D of the pedestrian is collected continuously, S5 is executed continuously;

if the portrait information D of the pedestrian is not collected, S1 is executed.

In an alternative embodiment, the condition for starting the corridor inductive lamp control system in S1 is that the ambient brightness value in the corridor detected by the ambient brightness detection module 110 is not greater than the set ambient brightness threshold.

In an alternative embodiment, the brightness values of the multiple groups of induction lamps 105 far away from the pedestrian at three lamp positions in the walking direction of the pedestrian in S5 are smaller than the brightness values of the multiple groups of induction lamps 105 near the pedestrian at three lamp positions; the multiple groups of induction lamps 105 at a lamp position far away from the pedestrian in the corridor along the walking direction far away from the pedestrian are all turned off.

The control method of the corridor induction lamps provided by the invention is simple to realize, can accurately judge whether pedestrians exist in the corridor, and intelligently turns on the multiple groups of induction lamps 105 to provide illumination for the pedestrians in the corridor, so that the control method is more intelligent, more energy-saving and more environment-friendly; the method is used by matching with the image acquisition module 104 installed in the corridor, so that the cost of the method actually put into use is reduced, the effect of corridor safety monitoring can be achieved according to the matching use of the image acquisition module 104, and the safety performance of corridor monitoring is greatly improved.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A corridor induction lamp control system is characterized by comprising a central processing unit (101), a plurality of groups of distance measuring modules (102), a plurality of groups of sound collecting modules (103), a plurality of groups of image collecting modules (104), a plurality of groups of induction lamps (105), a portrait collecting module (106), a judging module (107), a three-dimensional model module (108) and an analysis processing module (109);

the multi-group ranging modules (102) are uniformly arranged in the corridor along the corridor path direction, the multi-group ranging modules (102) are respectively in communication connection with the central processing unit (101), and the ranging modules (102) are used for detecting the distance information A of pedestrians in the corridor from the ranging modules (102) and sending the detected distance information A to the central processing unit (101);

the multi-group sound collection modules (103) are uniformly arranged in the corridor, the multi-group sound collection modules (103) are respectively in communication connection with the central processing unit (101), and the sound collection modules (103) are used for collecting sound decibel information B of pedestrians in the corridor and sending the detected sound decibel information B to the central processing unit (101);

the system comprises a plurality of groups of image acquisition modules (104), a central processing unit (101) and a plurality of image acquisition modules (104), wherein the plurality of groups of image acquisition modules (104) are uniformly arranged in a corridor, the plurality of groups of image acquisition modules (104) are respectively in communication connection with the central processing unit (101), and the image acquisition modules (104) are used for acquiring image information C of pedestrians in the corridor and sending the detected image information C to the central processing unit;

the multiple groups of induction lamps (105) are uniformly arranged in the corridor along the corridor path direction, and the multiple groups of induction lamps (105) are respectively connected with the central processing unit (101) in a control mode;

the image acquisition module (106) is in communication connection with the central processing unit (101), and the image acquisition module (106) is used for acquiring image information D of pedestrians from the image information C received by the central processing unit (101) and sending the detected image information D to the central processing unit (101);

the judging module (107) is in communication connection with the central processing unit (101), and the judging module (107) is used for judging whether the portrait information D is acquired by the portrait acquiring module (106) and whether the sound value in the sound decibel information B received by the central processing unit (101) reaches a set threshold value;

the stereo model module (108) is in communication connection with the central processing unit (101), and the stereo model module (108) is used for generating a stereo model E of the corridor channel according to the image information C received by the central processing unit (101); wherein, the positions of the plurality of groups of distance measuring modules (102), the plurality of groups of sound collecting modules (103), the plurality of groups of image collecting modules (104) and the plurality of groups of induction lamps (105) are displayed in the three-dimensional model E;

the analysis processing module (109) is in communication connection with the central processing unit (101), and the analysis processing module (109) is used for displaying the positions of pedestrians in the corridor on the three-dimensional model E according to the distance information A received by the central processing unit (101).

2. A corridor inductive lamp control system according to claim 1, characterized in that it further comprises an ambient brightness detection module (110); the environment brightness detection module (110) is in communication connection with the central processing unit (101), and the environment brightness detection module (110) is used for detecting the brightness information F of the corridor environment and sending the detected brightness information F to the central processing unit (101) for judging whether the system is started or not according to the detected environment brightness value.

3. A corridor induction lamp control system according to claim 1, characterized by further comprising a lamp brightness adjusting module (111); central processing unit (101) is connected in lamp brightness control module (111) control, lamp brightness control module (111) is electric connection multiunit response lamp (105) respectively, lamp brightness control module (111) are used for regulating and control along pedestrian's walking direction in keep away from the luminance of multiunit response lamp (105) of pedestrian's N lamp position department in the corridor, wherein, keep away from multiunit response lamp (105) of pedestrian's M lamp position department in the corridor on keeping away from pedestrian's walking direction and all close, N and M's numerical value all is not less than one.

4. A corridor inductive lamp control system according to claim 3, characterized in that the value of N is selected to be 3; the value of M is chosen to be 1.

5. The corridor inductive lamp control system according to claim 1, further comprising a plurality of groups of sound receiving sensors; the sound receiving sensors are uniformly arranged in the corridor and used for receiving sound decibel information G generated when pedestrians walk in the corridor and sending the sound decibel information G to the processor.

6. The corridor induction lamp control system according to claim 1, characterized by further comprising a storage module; the storage module is in communication connection with the central processing unit (101), and the storage module is used for storing the information data received by the central processing unit (101).

7. The corridor inductive lamp control system according to claim 1, characterized by further comprising a route prediction module and a behavior analysis module;

the behavior analysis module is in communication connection with the central processing unit (101), and is used for analyzing the behavior of the limbs of the pedestrians in the corridor according to the image information C, judging the movement trend information of the pedestrians, and sending the movement trend information to the central processing unit (101);

the route prediction module is in communication connection with the central processing unit (101) and is used for making a walking path of the pedestrian according to the movement trend information of the pedestrian.

8. The invention also provides a control method of the corridor induction lamp according to the system of claim 1, which is characterized by comprising the following specific steps:

s1, starting a corridor induction lamp control system, acquiring sound decibel information B in a corridor through an acoustic acquisition module (103) and acquiring portrait information D of a pedestrian from image information C through a portrait acquisition module (106);

s2, a judgment module (107) judges the detection result in the S1;

if the sound value in the sound decibel information B is larger than the set threshold value and the portrait information D of the pedestrian is acquired by the portrait acquisition module (106), S3 is executed;

if the sound value in the sound decibel information B is not greater than the set threshold value or the portrait information D of the pedestrian is not acquired by the portrait acquisition module (106), continuing to execute S1;

s3, generating a stereo model E of the corridor passage by the stereo model module (108) according to the image information C;

s4, displaying the positions of the multiple groups of ranging modules (102), the multiple groups of sound acquisition modules (103), the multiple groups of image acquisition modules (104), the multiple groups of induction lamps (105) and the positions of pedestrians in the corridor in a three-dimensional model E;

s5, the central processing unit (101) controls the operation of a plurality of groups of induction lamps (105);

s6, the judgment module (107) continuously judges whether the portrait acquisition module (106) acquires the portrait information D of the pedestrian from the image information C:

if the portrait information D of the pedestrian is collected continuously, S5 is executed continuously;

if the portrait information D of the pedestrian is not collected, S1 is executed.

9. The corridor induction lamp control system according to claim 8, wherein the corridor induction lamp control system is started in S1 when the ambient brightness value detected by the ambient brightness detection module (110) in the corridor is not greater than the set ambient brightness threshold.

10. The corridor induction lamp control system according to the claim 8, wherein the brightness values of the groups of induction lamps (105) far away from the pedestrian at three lamp positions in the walking direction of the pedestrian in the S5 are smaller than the brightness values of the groups of induction lamps (105) near the pedestrian at three lamp positions; and a plurality of groups of induction lamps (105) at a lamp position far away from the pedestrians in the corridor along the direction far away from the walking direction of the pedestrians are all turned off.

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