KR101781785B1 - Camera System having Functions for Filming, Making and Transferring Time-lapse Photography - Google Patents

Abstract

The present invention relates to a system having capturing, making and transmitting functions of a build motion time-lapse image. More specifically, a picture of a subject is continuously captured at one place for a long time such as weeks, month, or years at regular intervals. At a predetermined time, after making a time-lapse image by editing the captured image in a chronological order, the time-lapse image transmitted to a server located in a remote area is captured, made, and transmitted. In addition, various obstacles arising, such as bad weather, obstacle access and power outage, due to a long-term unmanned operation and a production failure caused thereby can be prevented. The system having capturing, making and transmitting functions of a build motion time-lapse image comprises a camera, a control means, a storage means, a producing means, a communication means and a power device.

Description

[0001] The present invention relates to a system having a built-in time-lapse video imaging, production and transmission function,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system having a built-in time-lapse video shooting, production and transmission function, and more particularly, to a system for continuously capturing a picture of a subject at a predetermined time interval for several weeks, And generating a time-lapse image by editing the photographed images in chronological order at regular intervals and transmitting the generated time-lapse image to a server located at a remote location, the apparatus comprising: To a system having a built-in time-lapse video shooting, production, and transmission function, which has various countermeasures for preventing occurrence of various failures that can not be avoided and thereby preventing production failures in advance.

Time-lapse video refers to a video produced using special shooting techniques used in professional areas such as observation and recording of objects and ecological changes. Time-lapse video is also a kind of video, but when compared with general video, production methods and techniques are completely different. In a typical moving image, the motion of a subject that changes with time is photographed at a predetermined frame rate and reproduced at the same frame rate. On the other hand, a time-lapse image is displayed at a predetermined time interval It is also referred to as sublimation photographing by photographing a single photograph and compressing and reproducing the single photographs. For example, if you change the subject in one hour by shooting one shot per 30 seconds, you will make a total of 120 images for one hour. If you make 30 videos per second, The change of the subject during the change takes place in just 4 seconds. That is, a time-lapse image is an image that can be compressed by time.

These time-lapse images have started for the recording and image production of astronomical observations, ecological changes, changes in the natural environment such as sunrise and sunset, changes in the time of the city, and the appearance of the square where a lot of people come and go. Recently, There is an increasing number of cases, such as the construction of a building or a structure in a construction site, a time-lapse image throughout the construction schedule. This time-lapse image is called a build motion time lapse image. The purpose of the TypeLabs video, ie, Build Motion TimeLabs video at the construction site, is to utilize the video as a supervision and proof image for the quality and safety management during the construction process, and to display the entire construction process during the construction time in a short time It is used for the purpose of producing publicity videos and so on. In addition to this, time-lapse video is used to change the number of users in the multi-use facilities such as amusement parks and athletic facilities, and to use it for surveillance and restoration of cultural properties. There are also a variety of products available. Although it is possible to use the CCTV image capture device for this purpose, CCTV image is composed of too many images with a low resolution and 30 frames per second. Therefore, in order to keep the long-term record clearly, CCTV image capture device is not replacing time lapse image capture device because it is not.

However, in order to shoot and produce a build motion time-lapse image for the construction site, multi-use facility, or cultural property monitoring, it is necessary to observe an object or ecological change for a few hours or a few days, Unlike shooting, remote shooting is possible from a camera installed far away from the manager, and it is necessary to transmit the photographed pictures and the produced video to a remote place, as well as to shoot for a long time from several months to even years, Since it is impossible to directly control the field by the supervisor because it is necessary to continuously make the LAPS image and to operate unmanned, it should be prepared against bad weather such as wind and rain, Typical time-lapse imaging equipment includes such measures It is impossible. In particular, in the case of construction sites, since different processes continue each time every day and every day, it is impossible to take a picture at that time, and it is impossible to take a picture after a certain time, whereas each of the individual pictures is important photographs Preventing shooting failure is of the utmost importance. Therefore, a build motion time-lapse imaging apparatus capable of minimizing a shooting failure in the event of a failure is required, but such a technique is difficult in the prior art.

In order to solve the above-mentioned problems, a system having a built-in motion motion time-lapse video imaging, production and transmission function according to the present invention is configured to photograph a subject at predetermined time intervals and automatically generate a time- In the case of an abnormality due to a near obstacle, an alarm means is operated so that a near obstacle can be detected. In this case, In case of vibration caused by bad weather such as wind, it is possible to prevent the deterioration of the time-lapse image quality due to the defective photograph of the subject, such as shooting in the shutter speed priority mode, and to cope with various troubles that may occur due to long- Build motion time-lapse video shooting, production and transfer functions It is to provide a system.

According to an aspect of the present invention, there is provided a system including a camera, control means, storage means, manufacturing means, communication means, and a power source device, the system having a built-in motion time- And a time-lapse image capturing, production and transmission function for transmitting a time-lapse image to a server located at a remote place, the system comprising: And the control means transmits the photographed image to the control means, wherein the storage means includes subject identification information including subject area information occupied by the subject and subject recognition information, And the time-lapse image is stored, and the control means stores the time- Storing the photographed subject image in the storage means and checking whether the photographed subject image is normal using the image quality of the photographed subject image and the photographed subject identification information and if the photographed subject image is not received or the photographed photographed image is abnormal When the number of times of the re-shooting continues more than a predetermined number of times, an alarm is transmitted to the server and the administrator terminal through the communication means, and the camera or the control means is rebooted, Wherein the production means produces the time-lapse image that connects each of the subject photographs stored in the storage means in a time sequence at a preset time and transmits the time-lapse image together with each of the subject photographs to the server using the communication means And the like.

In addition, in addition to the above-mentioned features, the control unit may further include an alarm unit, and when the subject photograph is abnormal and needs to be re-photographed, the subject area is obstructed due to an object having a predetermined size or more, The controller may control the alarm means to cause the alarm to sound, and then control the camera to perform the re-imaging. The system may have a built-in motion time-lapse image shooting, manufacturing, and transmission function.

And the vibration sensor further transmits a vibration measurement value to the control means, and when the vibration measurement value is equal to or greater than a predetermined value, And the shutter speed is switched to the shutter speed priority mode and the shutter speed is adjusted at a high speed.

In addition to the above features, the system having the built-in motion time-lapse video shooting, producing, and transmitting functions according to the present invention may further include analyzing means for analyzing the subject region And a value obtained by counting the number of persons included in the subject area is analyzed and transmitted to the server through the communication unit. The power source device may include a commercial power source and an auxiliary power source, The control means controls the operation means to stop the operation of the production means while the power is supplied through the auxiliary power source.

As described above, according to the present invention, a system having a built-in motion time-lapse image shooting, production, and transmission function can automatically photograph a subject image at predetermined time intervals and automatically generate a time- It is possible to easily check the progress and progress of the project from the remote place even if stakeholders such as architects and supervisors do not go directly to the site.

In addition to the above-described features, in the system having the built-in motion time-lapse video shooting, production and transmission function according to the present invention, when the control means does not receive the photograph of the subject from the camera or the photograph of the received subject is abnormal, It is possible to promptly cope with the occurrence of an error such as re-capturing the image again, thereby preventing important evidence and photographing failure of the photographic subject to be recorded, and improving the quality of time-lapse video production.

In addition, the system having the built-in motion time-lapse video shooting, production, and transmission functions according to the present invention includes a storage unit and includes object information capable of identifying an area of the object and an image of the object, It is possible to judge whether or not the subject area of the photographed subject image transmitted by using the subject is obstructed due to the object positioned closer to the subject. Therefore, even in the normal case such as brightness, It is possible to prevent a photographing failure due to an obstacle located closer to the subject than to a subject, for example, by taking a photograph again by judging it as an abnormal photograph.

In addition, since it includes an alarm means, when the subject is obscured by a bird, an insect, a wild animal, or the like and is photographed as an abnormal photograph, the alarm means capable of generating noise, light, It is possible to reduce the probability of shooting failure when re-shooting because it is possible to shoot away the obstacles located near and take pictures again.

In addition, the system having the built-in motion time-lapse video shooting, production, and transmission functions according to the present invention reboots when re-shooting continuously for a predetermined number of times or more, It can be restored through its own first-aid measures, that is, rebooting. At the time of rebooting, an alarm is sent to the server and the administrator terminal so that the administrator can quickly grasp the devices where the failure has occurred.

A system having a built-in motion time-lapse video imaging, production and transmission function according to the present invention includes a vibration sensor. When the vibration measurement value of the vibration sensor is equal to or greater than a predetermined value, the camera is controlled to set the shooting mode to a shutter speed priority Mode and adjusts the shutter speed at a high speed. Therefore, for a deep photograph, the aperture is frequently opened in the aperture priority mode. When the shutter speed is slow, The mode is switched to the priority mode so that the shutter speed is increased and the photographing is performed. Thus, the shooting failure can be prevented even in bad weather.

In addition, the system having the built-in motion time-lapse video shooting, producing and transmitting function according to the present invention includes analyzing means, analyzing a subject area included in each of the subject photographs, counting the number of persons included in the subject area Value can be transmitted to the server through the communication means, it is possible to automatically grasp the personnel such as the worker or the passenger at the time of construction at the construction site or the multi-use facility.

In addition, the power supply unit included in the system having the built-in motion time-lapse video shooting, production and transmission function according to the present invention includes a commercial power supply and an auxiliary power supply. In case the commercial power supply is not applied, The power is supplied from the auxiliary power supply when the power switch is interrupted, while the function of photographing and storing while the power is supplied through the auxiliary power supply is operated but the operation of the manufacturing means is stopped to minimize the power consumption This has the effect of maximizing the available time of the auxiliary power supply, considering that the unstable situation in the unattended site may cause a long period of time when a power outage occurs.

It will be appreciated that the embodiments of the technical idea of the present invention can provide various effects not specifically mentioned above.

FIG. 1 is a conceptual diagram illustrating components included in a system having a built-in motion time-lapse imaging, production, and transmission function according to the present invention and a connection relationship therebetween.
FIG. 2 is a photograph showing a photograph of a subject and a subject in a system having a built-in motion time-lapse video shooting, production and transmission function according to the present invention.
FIG. 3 is a flow chart illustrating an operation process of a system having a built-in motion time-lapse video imaging, production, and transmission function according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. Accordingly, those skilled in the art can easily implement the technical idea of the present invention. In describing the present invention, it is to be understood that any known technology related to the present invention has already been known in the art, and if a detailed description of the known technology is considered to unnecessarily obscure the gist of the present invention, It will be omitted. In addition, although the term used in the present invention is selected as a general term that is widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, since the meaning is described in detail in the description of the relevant invention, It is to be understood that the present invention should be grasped as a meaning of a term that is not a name of the present invention.

Embodiments set forth in the following description can be varied in various ways and have various additional embodiments, in which specific embodiments are shown in the drawings and the detailed description thereof is set forth in the accompanying drawings. It should be understood, however, that the embodiments are not intended to be limited to the particular forms, but are to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the embodiments. In connection with the description of the drawings, like reference numerals have been used for like elements. The terminology used in the description of the various embodiments is used only to describe a specific embodiment and is not intended to limit the embodiments. The singular expressions include plural expressions unless the context clearly dictates otherwise.

It should be noted that the terms such as " comprises " or " may include " may be used in describing the embodiments and the like, . Also, in the description of the various embodiments, terms such as " comprise " or " have ", and the like, specify that the presence of stated features, integers, But do not preclude the presence or addition of one or more other features, numbers, steps, operating elements, components, or combinations thereof.

Hereinafter, the present invention will be described with reference to the drawings. FIG. 1 is a conceptual diagram showing a connection relationship of components in a system 100 having a build motion time-lapse image capturing, production, and transmission function according to the present invention. As shown in FIG. 1, a system 100 having a built-in motion time-lapse video imaging, production and transmission function according to the present invention includes a camera 110 for capturing a subject 400 at predetermined time intervals, A control means 120 for controlling the operation of all the components 110 to 190 in the apparatus 100 and a storage means for storing a photograph of a subject photographed by the camera 110 and transmitted to the control means 120. [ (140) for producing a time-lapse image from the photograph of the subject stored in the storage means (130), a server (200) for transmitting the photograph of the subject and the time-lapse image via a wired or wireless communication network (300) And a power supply unit 160 for supplying power to all the components 110 to 190. In addition to the alarm unit 180 and the analysis unit 170 ) Or the vibration sensor 190 may be further included It is possible. Here, the control means 120, the storage means 130, the manufacturing means 140 and the analysis means 170 may be configured as a single board computer.

It is preferable to use a DSLR camera, a mirrorless camera, or the like, which has interface means capable of controlling shutter speed, iris exposure, and the like, and can be remotely controlled from the outside, An automatic camera that can not control iris exposure is not desirable. Preferably, the camera 110 photographs the subject photographed at predetermined intervals according to the control of the control means 120 and transmits the photographed subject image to the control means 120. Herein, the 'predetermined time' For example, the subject may be photographed every 10 minutes or every 30 minutes or every hour at every hour, depending on the type of subject and purpose of shooting. It is also possible to do it once every day or every several days at the same time every day. The camera 110 may control all functions such as exposure, shutter speed, focus, and ISO according to the control of the control unit 120, and the control unit 120 may control the shooting mode of the camera 110 It is preferable to select either the priority mode or the shutter speed priority mode. Also, it is preferable that the control means 120 can grasp various parameter values measured and set by the camera 110 and all information related to the photographic subject photographed by the camera 110 . In addition, the camera 110 is fixed at a fixed position (not shown) at a distance L sufficient to capture the entirety of the subject 400, thereby enabling stable photographing. In the normal photographing mode, It is preferable to open the aperture as small as possible and take a slow shutter speed because it is a landscape photograph in which a far object should be made clear from a near distance to a far distance as a whole, This is because it is necessary to close the diaphragm as much as possible in order to deepen the depth of field.

Meanwhile, the storage means 130 may use a conventional semiconductor memory storage device. For example, a removable memory card such as an SD card may be used, or a memory chip built in the control means may be used It is possible. The storage unit 130 may include area information on the subject 400 included in the subject photograph and recognition information on the subject image 400, that is, subject recognition information. FIG. 2 is a photograph showing an example of a subject image 111 and a subject area 112 in a system 100 having a built-in motion time-lapse image capturing, producing and transmitting function according to the present invention. The subject area information stored in the subject area 111 includes the relative position information of the subject image 111 occupied by the subject 400, that is, the subject area 112, It is preferable that the subject image 113 included in the area 112 be data recognized by an image recognition technique.

The reason for doing this is to identify an abnormal photograph among the subject photographs 111. That is, when the obstacle covering the subject area 112 is photographed including a bird or a large insect in close proximity, it may be a large obstacle that hides the subject area 112 due to its relative size depending on the photographing distance , It is preferable to judge it as an abnormal photograph in this case. The image recognition technology may be used to determine whether the obstacle is included in the subject area 112. The image recognition information included in the subject area 112 of the subject photograph 111 may be stored in the storage unit 130, Or the similarity with the recognition information of the subject image 113 stored in the storage unit 113. [ However, in the case of a construction site or the like, considering that the height and appearance of the subject 400 are gradually changed as the construction process continues, the recognition information of the subject image 113 is extracted using recently photographed subject photographs It would be desirable to update at regular intervals.

Meanwhile, it is preferable that the recognition information of the subject image 113 includes distance information between the camera 110 and the subject 400, that is, information about the photographing distance. The distance information may include actual distance from the subject It is also possible to use distance. The distance information can calculate the actual height of the subject 400 using the focal distance of the camera 110 and the recognition information of the subject image 113. The appearance of the subject 400 continues Information on the size of the subject 400, such as height, width, etc., may be calculated and sent to the server.

The storage means 130 may be configured to continuously store the photographs of the subject photographed by the camera 110 and the time-lapse image produced by the manufacturing means 140, It is preferable that the storage capacity is stored in such a manner as to overwrite the previously stored object photograph and the time-lapse image in order when the storage capacity reaches the limit. However, since the image of the subject or the time-lapse image to be overwritten should be transferred to the server 200, it is necessary to set the time-lapse image in consideration of the transmission period to the server 200, It is preferable to set the storage capacity of the storage means 130 sufficiently.

Meanwhile, the control unit 120 controls the camera 110, the storage unit 130, the manufacturing unit 140, the communication unit 150, the power supply unit 160, the analysis unit 170, It is possible to control the entire configuration means of the system 100 having the built-in motion time-lapse video imaging, production and transmission functions according to the present invention such as the alarm means 180 and the vibration sensor 190, It is desirable to be able to collect various information included in the means 110-190. The control unit 120 controls the camera 110 to capture an image of the subject 400 at a predetermined time interval as described above. The control unit 120 controls the camera 110 to capture an image of the subject captured by the camera 110 And stores it in the storage means (130).

After the control means 120 stores the photographic subject image in the storage means 130, it is preferable that the control means 120 confirms whether the photographic subject image 111 is normal or not. The confirmation of the normal state of the subject photograph 111 confirms whether or not an obstacle is included in the subject photograph and whether the image quality of the subject photograph 111 is poor. A method of determining whether or not an object is included is determined based on the object recognition information stored in the storage unit 130 using the image recognition technology and the object recognition information stored in the object area 112, It is preferable to make a determination based on a method of comparing recognition information of the image 113. Even if the obstacle is not included in the subject area 112, It is also possible to judge the photograph as an abnormal photograph. Whether or not the image quality of the subject photograph 111 is poor is determined by analyzing Exif (Exchangable Image File format) metadata of the subject photograph or the subject photograph 111. For example, histograms and the like are analyzed It is possible to determine whether the exposure is excessive or insufficient. Exif metadata includes date and time, color space, focal length, flash, ISO, aperture, shutter speed, and gps.

The controller 120 controls the camera 110 to take a picture. However, if the subject 110 is not received from the camera 110 or the subject picture is abnormal, for example, When the picture is shaken, out of focus, too bright, or too dark, or when the object area 112 is covered by the obstacle, the control unit 120 controls the camera 110 again It is preferable to perform control again to take a picture again.

Here, when the subject image 112 is abnormal and the subject image 112 is obscured due to the obstacle having a predetermined size or more, the control unit 120 may notify the alarm unit 180) so that the alarm sounds, and then the camera is controlled to photograph again. In other words, the fact that the subject area 112 is obscured due to the obstacle having a certain size or more is mostly captured in a short distance including algae or large insects. In this case, due to the relative size of the subject area 112, The obstacle 112 will be covered with the obstacle, and even if the obstacle continues to exist, the abnormal image will be generated. Therefore, in the system 100 having the built-in motion time-lapse video imaging, production and transmission functions according to the present invention, the alarm means 180 causes the alarm means 180 to shoot an obstacle and then re- , The alarm means 180 may be a vibration means, a means for emitting noise or light, or both. Therefore, in the system 100 having the built-in motion time-lapse video imaging, production and transmission functions according to the present invention, even when an abnormal photograph is photographed due to an obstacle, an obstacle can be removed and photographed.

On the other hand, when the control unit 120 controls the camera 110 to perform the re-photographing, when the number of re-photographing continues for a predetermined number of times or more, for example, the abnormal photograph is continuously photographed for three or four times An alarm is sent to the server 200 and the administrator terminal 500 through the communication unit 150 to notify the administrator at the remote location that an error has occurred and the camera 110 or the control unit 120, It is preferable to reboot. This is because it is likely that the same error is continuously repeated, and therefore, is temporarily disabled due to a memory error generated in the camera 110, the control unit 120, or the storage unit 130 according to a long time operation. The reason for this is that rebooting is most desirable.

However, if the photographed photographic subject image is not received, or if it is determined that the photographic subject image is defective, only the camera 110 is rebooted, and if the photographed subject image is received, The control unit 120 and the storage unit 130 may be rebooted in a case where the file does not exist or the file is abnormal. However, in the case where the same error occurs even though the reboot is performed, the administrator may visit the site directly and it may be a serious error to be corrected. Therefore, an alarm is sent to the server 200 and the administrator terminal 500, It is desirable to notify the administrator in the system and prevent any further reboot. If the reboot is continued, there is a high possibility that the failure will spread to other parts where the failure does not occur.

In addition to the above-described features, the system 100 having the built-in motion time-lapse video imaging, production, and transmission functions according to the present invention can further include the vibration sensor 190. The vibration sensor 190 measures the vibration value of the camera mount portion on which the camera 110 is mounted and transmits the measured vibration value to the control means 120. The control means 120 determines that the vibration value is equal to or greater than a predetermined value It is preferable to control the camera 110 to switch the shooting mode of the camera 110 to the shutter speed priority mode and to adjust the shutter speed at high speed. As described above, the camera 110 photographs a subject by minimizing the aperture as much as possible in order to take deep and clear photographs with respect to a distant subject 400. The shutter speed is slowed down. In general, the camera of the time-lapse photography equipment is stably mounted in a housing (not shown), and since the housing is also firmly fixed to the support structure, it is preferable to photograph the camera in the aperture priority mode even if the shutter speed is slow. However, in a state where the wind is severely blown or the vibration is transmitted to the housing or the camera mount due to the transmission of the vibration in the construction site, if the shutter speed is low, the photograph of the subject is shaken and the risk of shooting abnormally increases. Therefore, when vibration is transmitted to the camera 110, the system 100 having the built-in motion time-lapse video imaging, production and transmission functions according to the present invention switches the shooting mode of the camera 110 to the shutter speed priority mode And the shutter speed is switched to a high speed, so that even when the depth of field is low, clear and sharp pictures can be taken. However, when the shutter speed is changed to high speed and the iris is closed too close, the depth of field becomes low, so that a part of the subject 400 may be shot out of focus. Therefore, it is desirable to adjust the ISO value to prevent this. Here, the predetermined value depends on the camera setting value such as the model of the camera and the minimum value of the normal shutter speed. For example, if the camera equipped with the anti-shake means is used, the predetermined value may be set to a higher value.

Meanwhile, when the predetermined time has elapsed, the producing means 140 produces the time-lapse image connecting the respective photographs of the subject received from the camera 110 in time order, and stores the generated time-lapse image in the storage means 130 The preset time may be set by the administrator, for example, 8:00 PM every day, 6:00 PM every Sunday, and if it is set to 8:00 PM every day , And the photographs of the subjects photographed for 24 hours after 8:00 pm on the previous day are edited in chronological order to produce a daily time-lapse image. The production means 140 may transmit the time-lapse image produced by the production means 140 and the subject photographs transmitted from the camera 110 to the server 200 by using the communication means 150. However, in the case of the subject photographs, it is possible to transmit the subject photographs directly to the server 200 at the same time of being stored in the storage unit 130 immediately after the photographing of each of the subject photos without being sent together with the time-lapse image transmission. The communication means 150 may be either a wired communication or a wireless communication, as long as it is a communication means capable of data communication via the Internet, such as a commercial LTE communication or a CDMA communication as well as a WiBro and various wired and wireless LANs.

In addition, it is preferable that the power supply unit 160 of the system 100 having the built-in motion time-lapse video imaging, production and transmission function according to the present invention includes a commercial power supply and an auxiliary power supply. The power is supplied to the auxiliary power source. The case where the commercial power is not applied refers to a case where a power failure occurs or a commercial power supply is interrupted due to an accidental operation of a switch by mistake by a field manager or a building manager. Although it can be restored directly by the operator, since it is the construction site, there is a high risk of power failure due to the mistake of the manager. If the switch is mistakenly operated by an administrator, the power supply is likely to be interrupted for a long period of time. Therefore, it is preferable that the capacity of the auxiliary power supply is sufficiently large so that the minimum essential function can be continuously operated for a long time in case the power supply interruption is prolonged. In addition, during the supply of the power through the auxiliary power source, necessary functions to be performed in a timely manner such as photographing and storing functions are continuously operated, but the functions that can be performed after the commercial power source is restored in the future such as the manufacturing means 140 It is preferable to temporarily stop the operation. That is, it is preferable to stop production of the time-lapse image while being supplied to the auxiliary power source. The same is true for the communication means 150 as well as the manufacturing means 140. The communication means 150 temporarily suspends the communication even if it is performed later such as the transfer of the picture and responds only to the call from the server 200 It is preferable to switch to a mode capable of receiving only until the commercial power is restored. By doing so, power consumption can be minimized, thereby maximizing the available time of the auxiliary power. This is based on the fact that the unstoppable time-lapse photography scene can occur for a long period of time in the event of a power outage.

In addition, the system 100 having the built-in motion time-lapse imaging, production, and transmission functions according to the present invention may further include the analysis unit 170 in addition to the above-described features, It is preferable that the subject area 112 included in each of the subject photographs is analyzed by an image recognition technique so that the number of persons included in the subject area can be counted and transmitted to the server 200, It is possible to automatically grasp the personnel such as the worker or the passengers at the construction site or the multi-use facility at the time of day.

Meanwhile, FIG. 3 is a flowchart illustrating an operation process of the system 100 having a built-in motion time-lapse image capturing, producing, and transmitting function according to the present invention. Hereinafter, the operation of the system 100 having the built-in motion time-lapse imaging, production, and transmission functions according to the present invention will be described in order with reference to FIG. As shown in FIG. 3, the control unit determines whether a predetermined time has elapsed in step S101. For example, if the subject is photographed every hour at every hour, (Step s101). If the current time is equal to the hourly angle, the controller 110 transmits a photographing control signal to the camera 110 (step s102). The camera 110, which has received the photographing control signal, controls a shutter included in the camera 110 to photograph a photograph of the subject 400, that is, a subject photograph in step s103, 120 (step s104). If the control unit 120 receives the photographic subject image in step s105, the photographic subject image is stored in the storage unit 130 in step s106. If the control unit 120 determines that the photographic subject image to be stored is a re- If there is a file of the abnormal photograph (step s107), the overwriting method is performed (step s108b). If the file is not retaken or the file of the abnormal photograph does not exist, a new file is created and stored (Step s108a).

However, if it is determined in step s105 that the photographing control signal has not been received from the camera 110 despite the fact that the photographing control signal has been transmitted to the camera 110 to photograph the subject, the process proceeds to step S110 (Step S111), and causes the camera to again photograph and transfer the picture (step S103 to step S104). The step S110 will be described later. On the other hand, after the control means 120 stores the photograph of the subject, it is checked whether the photograph of the subject is normal (Step S109). If the control means 120 determines that the photograph is normal, the process returns to Step S101 to wait until the next photographing time If it is abnormal, the camera control unit 110 transmits a re-photographing control signal to the camera 110 through step s110 (step s111), and allows the camera to photograph and transfer the image again (steps s103 to s104). However, if it is determined in step s110 that the number of retakes continues for more than a predetermined number of times, the camera 110 or the control unit is rebooted without performing the retake (step S112) (Step s113), and causes the camera to again photograph and transfer the picture (steps s103 to s104).

Meanwhile, the production means 140 determines whether the time is a preset time (Step S201), waits for a preset time if not a predetermined time, extracts subject pictures from the storage means 130 at a preset time (S202 (Step s203). When the time-lapse image is produced, the extracted subject images and the created time-lapse image are transmitted to the server 200 through the communication unit 300, (Step S204). For example, if 6:00 pm every Monday corresponds to a preset time, the production means 140 extracts all the photographic subjects photographed after 6:00 am in the storage means 130 at 6:00 am on Monday of every week And transmits the generated time-lapse image to the server 200. The time-lapse image is generated and stored in the storage unit 130 ) May be omitted.

Although the present invention has been described with reference to the above examples, the present invention is not necessarily limited to these examples, and various modifications may be made without departing from the scope of the present invention. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed by the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

110 camera 120 control means
130 Storage means 140 Production means
150 Communication means 160 Power supply
170 Analyzing means 180 Alarm means
190 Vibration sensor
200 servers
300 wired or wireless network
400 subject
500 administrator terminal

Claims (5)

A time-lapse image capturing, production and transmission function that includes a camera, a control means, a storage means, a production means, a communication means, and a power supply device and photographs a subject to produce a time-lapse image, The system comprising:
The camera captures a photograph of a subject at predetermined time intervals under the control of the control means and transmits the photograph to the control means,
Wherein the storage means includes subject identification information including subject area information occupied by the subject and subject recognition information among the subject photographs and the subject photograph and the time lapse image are stored by the control means,
Wherein the control unit stores the subject photograph in the storage unit when the photograph of the subject is received from the camera and confirms whether the subject photograph is normal using the image quality of the subject photograph and the subject identification information, When the number of times of re-shooting is more than a predetermined number of times, the server and the administrator terminal are notified of an alarm And reboots the camera or the control means,
Wherein the producing means produces the time-lapse image connecting each of the subject photographs stored in the storage means in time order at a preset time and transmits the time-lapse image together with each of the subject photographs to the server using the communication means A system with built-in motion time-lapse video imaging, production and transmission features The apparatus according to claim 1, further comprising an alarm means, wherein, when the subject photograph is abnormal and the photograph is to be re-photographed, when the subject region is an abnormal photograph due to an obstruction due to an object of a certain size or more And controlling the alarm means to make the alarm sound, and then controlling the camera so as to perform the re-imaging, wherein the system further comprises a system having a built-in motion time-lapse image shooting, The apparatus according to claim 1, further comprising a vibration sensor, wherein the vibration sensor transmits a vibration measurement value to the control means, and when the vibration measurement value is equal to or greater than a predetermined value, A system having a built-in time-lapse video shooting, production, and transmission function that further includes a feature of switching the shooting mode to the shutter speed priority mode and adjusting the shutter speed to high speed 2. The image processing apparatus according to claim 1, further comprising analyzing means for analyzing the subject area included in each of the subject photographs and counting a value obtained by counting the number of persons included in the subject area, A system having a built-in motion time-lapse video imaging, production, and transmission function, The power supply apparatus according to claim 1, wherein the power supply unit includes a commercial power supply and an auxiliary power supply, and when the commercial power supply is not applied, the power supply unit supplies power to the auxiliary power supply, Wherein the control means controls to stop the operation of the production means during the supply of the system.

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