KR20140063535A - System for managing projectors - Google Patents

Abstract

The present invention relates to a projector device management system, including two or more projecting devices which project images on projection surfaces and a management device which corrects an image projected by the projecting devices based on information about the projecting devices and manages information about the maintenance of each projecting device, wherein the projecting devices are installed in the same theater.

Description

System for managing projectors < RTI ID = 0.0 >

The present invention relates to a projection apparatus management system, and more particularly, to a projection apparatus management system capable of correcting images projected by two or more projection apparatuses installed in the same screen, controlling an operation of the two or more projection apparatuses, And more particularly to a projection apparatus management system capable of managing maintenance information on projection apparatuses.

Conventionally, a two-dimensional image is projected on a single screen disposed in front of an auditorium to reproduce images such as movies and advertisements in a theater. However, under such a system, the audience was forced to view only 2D (2D) images.

In recent years, 3D image technology has been developed that can provide stereoscopic images to the audience. 3D image technology is a technology that allows a user to feel stereoscopic effects in a plane image when different images are entered into the left eye and right eye of a person, The principle is to use two cameras equipped with different polarizing filters at the time of image capturing and to use glasses equipped with a polarizing filter at the time of viewing the images so that different images can be entered into the left eye and the right eye.

However, such a 3D technology can provide a stereoscopic image to a user, but still has a limitation in that the image itself is less immersive because it is merely viewing an image reproduced on a single screen. Also, there was a limitation that the direction of stereoscopic feeling that the audience perceives is limited to the direction in which a single screen exists.

In addition, the conventional 3D technology is inconvenient to viewers because it is necessary to wear glasses or the like equipped with a polarizing filter at the time of watching the video, Sensitive audiences could feel dizziness or loudness.

Accordingly, a so-called 'multi-screen screening system' has been proposed, which can solve the problems of a conventional screening system based on a single screen. The 'multi-screen screening system' is a system in which a plurality of projection surfaces are arranged around a viewer's seat, And provides a stereoscopic effect and an immersion feeling to the audience.

In order to realize such a multi-screen display system, two or more projection devices for projecting images on a plurality of projection surfaces are inevitable. However, since conventional projection systems are designed to have only one projection device, When installed in the auditorium, they could not be integrated and managed.

Therefore, it is required to develop a new system capable of integrally managing two or more projection devices installed in an auditorium and being able to perform maintenance.

The present invention provides a projection apparatus management system capable of correcting images projected by the two or more projection apparatuses and managing maintenance information of the two or more projection apparatuses when two or more projection apparatuses are installed in an auditorium As a problem to be solved.

According to an aspect of the present invention, there is provided a projection apparatus management system including at least two projection devices for projecting an image onto a projection surface; And a management device for correcting images projected by the respective projection devices in consideration of information of the respective projection devices and managing information for maintenance of the respective projection devices, wherein the at least two projection devices are installed in the same screen .

Here, the two or more projection devices may project images onto a plurality of projection surfaces that are not parallel to each other.

In addition, the two or more projection devices can project images synchronized with each other.

In addition, the management apparatus can correct an image projected by each projection apparatus in consideration of a difference in performance between the projection apparatuses.

In addition, the management apparatus can correct an image to be projected by each projection apparatus in consideration of a brightness difference, a contrast ratio difference, a resolution difference, or a physical position difference between the projection apparatuses.

In addition, the management apparatus can also correct the image projected by each projection apparatus in consideration of the properties of the plurality of projection planes.

The management apparatus can correct the image projected by each projection apparatus in consideration of the information of the plurality of projection planes and control each projection apparatus to project an image of the same brightness.

In addition, the projection device includes a lamp, and the management device controls the operation of the lamps included in the two or more projection devices, and can maintain the brightness of the lamps the same.

In addition, the maintenance information may include operation time information of a lamp or a cooling fan installed in each projection device.

In addition, the lamp or the cooling fan is provided with a current sensing device, and the management device can acquire operation time information of the lamp or the cooling fan based on information generated by the current sensing device.

In addition, the management apparatus generates replacement guide information when the operation time of the lamp or the cooling fan exceeds a reference value, and the replacement guide information may include identification information of the projection apparatus that needs to be replaced.

The maintenance information may include brightness information of a lamp installed in each projection device.

In addition, the management apparatus generates replacement guide information when the brightness of the lamp does not reach a reference value or the brightness of the lamp is not kept constant over time, May be included.

In addition, the management apparatus generates replacement guide information when the lightness difference between the lamps included in the two or more projection apparatuses is equal to or larger than a reference value, and the replacement guide information includes identification information of the projection apparatus requiring replacement .

In addition, the information for maintenance may include position information of each projection device.

In addition, each of the projection devices is provided with a position sensing device, and the management device can acquire position information of each projection device based on information collected by the position sensing device.

In addition, the management apparatus may generate alert information to guide the fact when the position of the specific projection apparatus is changed, and the alert information may include identification information of the projection apparatus whose position has changed.

In addition, each projection device can sense the temperature or humidity inside the device, and the management device can stop the operation of the projection device when the temperature or humidity of the specific projection device goes up above the reference value.

The management apparatus may further include: an image correcting unit that corrects an image projected by each projection apparatus based on information of each projection apparatus; And a maintenance management unit for integrally managing information for maintenance of each of the projection devices.

The projection device may further include: a current sensing unit for sensing a current flowing into the lamp or the cooling fan; A luminous intensity sensing unit for sensing luminous intensity of the lamp; A position sensing unit for sensing a position of the projection device; A temperature sensing unit for sensing a temperature inside the projection device; And a humidity sensing unit for sensing the humidity inside the projection device.

Even when two or more projection devices are installed in an auditorium, the present invention can integrally manage and control them.

In addition, the present invention can individually correct images projected by each projection device in consideration of performance differences of the projection devices. Specifically, the present invention recognizes information on the performance difference (e.g., contrast ratio difference, resolution difference, brightness difference, or image quality difference due to physical position difference) of each projection apparatus, The image of the projection device can be corrected. Therefore, it is possible to reproduce a synchronized and unified image even by using two or more projection devices with different performance.

In addition, the present invention can recognize the current input to the lamp or the cooling fan to manage the operation time information, and guide the replacement time based on the managed operation time information. Therefore, in connection with the maintenance of the lamp, in particular, by recognizing the operation itself of the lamp and determining the replacement timing, more accurate guidance can be provided as compared with the conventional method of guiding the replacement timing based only on the reproduction time. This is because the conventional method based on the reproduction time can not provide accurate guidance since the replacement timing is calculated without considering the time during which the lamp operates in the closed state of the shutter.

Further, the present invention recognizes the luminous intensity of the lamp through the sensor, and can guide the replacement even when there is a problem with the luminous intensity outputted by the lamp. Specifically, even if the lamp is not old, the brightness of the lamp may be weak, or a change in brightness over time may be detected to guide the replacement. Therefore, by checking only the operation time, it is possible to detect the occurrence of a problem of an unknown lamp, so that the projection apparatus can project a high-quality image.

The present invention also compares the luminosity of the lamps installed on two or more projection devices, and can guide the replacement of the lamp when the luminous intensity difference of the lamps exceeds a predetermined value. Specifically, when the brightness difference of the lamps deviates from the limit that can be canceled by the correction, the replacement of the lamps is instructed, thereby preventing the projection devices from projecting a heterogeneous image.

In addition, the present invention detects the temperature and humidity of each projection device, and can remotely stop the operation of the projection device when the temperature and humidity of the specific projection device rise above a predetermined value. Accordingly, it is possible to prevent the projection device from operating in an environment of high temperature and high humidity that may cause a failure of the device, thereby preventing failure of the projection device and extending the service life.

In addition, the present invention can project an image to a plurality of projection surfaces and reproduce the image, thereby providing the viewer with a three-dimensional image and a high-level image.

In addition, the present invention can project an image synchronized with a plurality of projection planes surrounding an audience to provide a multi-view image to the audience, and accordingly, the viewer can experience a reality that exists in a space described in the image can do.

In addition, since two or more projection devices for projecting images on a plurality of projection surfaces are integrally managed by the management device, the present invention can reproduce a synchronized and coherent image over a plurality of projection surfaces.

Further, the present invention can effectively manage lamps or cooling fans included in two or more projection devices. In particular, when two or more projection devices are installed in a single screen tube, the lamps or the cooling fans included in the respective projection devices are different from each other, It is possible to eliminate such difficulties in management.

In addition, the present invention can simultaneously perform image correction considering the performance of the projection apparatus and image correction considering properties of the projection surface. Therefore, through the two-stage image correction, the sense of unity of the images projected on the plurality of projection surfaces can be further improved.

In addition, the present invention can detect the involuntary positional change of each projection device, and when the involuntary positional change is detected, the fact of the positional change can be alarmed or changed to the original position through remote control. Therefore, even when the position of each projection device is unexpectedly changed due to an environmental change (vibration generation, etc.) in the inside of an auditorium, the present invention can alert or calibrate the position of the projection device, .

1 and 2 are block diagrams showing a configuration of a projection device management system according to an embodiment of the present invention.
Figs. 3 to 5 are illustrations showing examples of a plurality of projection surfaces. Fig.
6 is a diagram illustrating an operation of the projection device management system according to an embodiment of the present invention.
7 is a configuration diagram illustrating a configuration of a management apparatus that can be included in the projection device management system according to an embodiment of the present invention.
8 is a configuration diagram showing a configuration of a projection device that can be included in the projection device management system according to an embodiment of the present invention.

Hereinafter, a projection apparatus management system according to the present invention will be described in detail with reference to the accompanying drawings. The embodiments are provided so that those skilled in the art can easily understand the technical spirit of the present invention, and thus the present invention is not limited thereto. In addition, the matters described in the attached drawings may be different from those actually implemented by the schematic drawings to easily describe the embodiments of the present invention.

On the other hand, the expression " comprising " is intended to merely denote that such elements are present as an 'open expression', and should not be construed as excluding any additional elements.

Hereinafter, a projection device management system according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5. FIG.

1 and 2, a projection apparatus management system according to an exemplary embodiment of the present invention includes at least two projection apparatuses 200 for projecting images on a projection surface, And a management apparatus 100 that corrects the projected image and manages information for maintenance of each projection apparatus. Here, it is preferable that the two or more projection devices 200 are installed in the same screen.

The term 'information of each projection apparatus' mentioned above means information associated with each projection apparatus, and it includes performance information (for example, brightness, contrast, resolution, etc.) of each projection apparatus itself, And various information associated with the projection apparatus such as the property information of the slope (e.g., brightness, material, color, reflectance, surface shape, installed structure, etc.).

The two or more projection devices 200 are devices for projecting an image on a projection surface inside an auditorium. The projection apparatuses 200 may have a heating unit such as an optical system, enlarge and project images on the screen, and may be implemented in various ways. For example, the projection apparatuses 200 may be classified into a method using a cathode ray tube (CRT), a method using a liquid crystal display (LCD), a digital light processing (DLP) method using a digital micromirror device (DMD) And the like, and may be implemented in various ways other than this method.

In addition, the two or more projection devices 200 may be electrically connected to the management device 100 and integrally controlled by the management device 100. [ In this case, the two or more projection devices 200 may be connected in parallel with the management device 100 so that both the integrated control and the individual control are both possible. Accordingly, the two or more projection apparatuses 200 can be integrally or individually controlled by the management apparatus 100, and project images onto the projection surface through such control. Meanwhile, the connection between the projection devices 200 and the management device 100 may be connected in various ways, or may be connected through a wired or wireless communication network.

In addition, the two or more projection apparatuses 200 may be implemented as devices having different capabilities. For example, the two or more projection devices 200 may be composed of devices having a difference in performance such as a difference in contrast ratio, a difference in resolution, a difference in performance due to a physical position difference, and a difference in brightness (ANSI Lumens) . The performance difference between the projection apparatuses 200 may be caused by different types (models) of the projection apparatuses 200 installed in an auditorium, or may be caused by differences in use periods or internal components, Lt; / RTI > The performance difference between the two or more projection apparatuses 200 may be managed integrally by the management apparatus 100. For example, the management apparatus 100 may control the performance of the projection apparatuses 200 The performance difference information of each other can be stored in a DB (DataBase) and stored therein.

In addition, the two or more projection apparatuses 200 can receive the image to be projected from the management apparatus 100. [ Here, it is preferable that the image received by each projection apparatus 200 is an image corrected by the management apparatus 100, and the correction of the image by the management apparatus 100 may be performed on the basis of the individual information of each projection apparatus 200 And is preferably performed for each image of each projection device 200 in the considered state. In addition, the correction of the image by the management apparatus 100 can be performed in a state in which the performance difference information between the two or more projection apparatuses 200 is taken into account. In this case, And the like.

In addition, each of the projection devices 200 can sense an individual operation (on) of a lamp or a cooling fan installed therein, and can transmit the sensed information to the management device 100. Specifically, each of the projection devices 200 senses a current flowing into a lamp or a cooling fan to detect whether the lamp or the cooling fan is turned on, and outputs the sensed information together with its own identification information To the management apparatus 100. Accordingly, the management apparatus 100 can manage cumulative operation time information of lamps or cooling fans installed in each projection apparatus 200 through such operation. Meanwhile, each of the projection devices 200 monitors operation time information of a lamp or a cooling fan installed therein, and when the operation time information reaches the preset reference time or more, it is determined that the replacement time has come, You may.

In addition, each of the projection apparatuses 200 may sense the brightness (brightness) of a lamp installed in the projector 200 and transmit the detected information to the management apparatus 100 together with the identification information thereof. Specifically, each of the projection devices 200 may include a sensor device for sensing the brightness (brightness) of the lamp, and the brightness information of the lamp may be collected through the sensor device and transmitted to the management device 100 . Here, it is preferable that the sensor device collects brightness information according to a change of time and transmits the collected brightness information to the management apparatus 100. [ Each of the projection devices 200 monitors sensing information (luminance information) of a sensor device included therein and determines that an abnormality has occurred in the lamp when the luminance information is less than a reference value or changes unstably And may alert it to itself.

In addition, each of the projection apparatuses 200 may collect temperature or humidity information inside the apparatus and transmit the collected information to the management apparatus 100 together with the identification information thereof. In this case, each of the projection devices 200 may include a temperature sensor, a humidity sensor, or the like within the device, and the temperature or humidity information may be collected through the sensor devices and transmitted to the management device 100. Meanwhile, each of the projection devices 200 may monitor the temperature or humidity inside thereof, and when the temperature or humidity deviates from a predetermined range, it may determine that there is an abnormality in the projection device and may alarm itself.

In addition, each projection apparatus 200 can sense its own position information and transmit the sensed position information to the management apparatus 100. Specifically, each of the projection devices 200 may include a position sensor (e.g., a three-axis acceleration sensor, a three-axis gyro sensor, or the like) for sensing the position of the projection device 200. The position information To the management apparatus 100 together. Accordingly, the management apparatus 100 can manage the position information of each projection apparatus 200 through this operation, and can identify the position of the specific projection apparatus when it changes unexpectedly. Meanwhile, each of the projection devices 200 may monitor the information sensed by the position sensor installed in the projector 200 itself and may alarm itself when the position information of the projector 200 changes unexpectedly.

The management apparatus 100 collectively manages the two or more projection apparatuses 200. The management apparatus 100 collectively controls the two or more projection apparatuses 200 and controls various types of projection apparatuses 200 related to the two or more projection apparatuses 200 Manage information. The management device 100 may be implemented by various electronic devices, and may be implemented by one electronic device or various electronic devices may be interconnected. For example, the management apparatus 100 may be implemented as a single server, or two or more servers may be interconnected. In addition, the management apparatus 100 may be realized by interconnecting servers and other electronic devices, or may be realized by other computing devices other than a server. In addition, the management apparatus 100 may form a parallel connection with the at least two projection apparatuses 200, and the projection apparatuses 200 may be individually or integrally controlled through the connection.

Meanwhile, the management apparatus 100 may correct the images projected by the two or more projection apparatuses 200, and may transmit the corrected images to the projection apparatuses 200. Specifically, the management apparatus 100 can independently correct the image of each projection apparatus 200 in consideration of the individual information of each projection apparatus 200, and transmit the corrected image to each projection apparatus 200 . The individual information considered by the management apparatus 100 for image correction includes information on the properties (material, color, reflectance, surface form, installed structure, etc.) of the projection surface projected by each projection apparatus 200, 200, and the like), and the information may be stored in the management device 100, preferably in the form of a DB.

In addition, the management apparatus 100 may correct the image in consideration of the performance difference information between the projection apparatuses 200. Specifically, the management apparatus 100 determines performance (brightness, contrast, brightness difference, resolution difference, and image quality difference information) between the two or more projection devices 200 It is possible to correct the image of each projection apparatus 200 in a direction that can reduce the heterogeneity of the image that may be caused by the difference.

The management apparatus 100 can reduce the image heterogeneity due to the brightness difference of each projection apparatus 200 through image correction. For example, suppose that the projector A has a brightness of 500 ANSI (Luminance), the brightness of the projector B is 1000 ANGSTROM, and the brightness of the projector C is 1500 ANGSTROM. . Specifically, the brightness ratio of the image projected by the projection apparatuses A, B, and C is corrected to 3: 2: 1, thereby canceling the image heterogeneity that may be caused by the brightness difference of the apparatus itself. On the other hand, the image correction based on the brightness difference is performed automatically every time the brightness (brightness) of each projection apparatus 200 is changed based on the brightness (brightness) information of each projection apparatus 200 collected in real time . Specifically, the projection apparatuses 200 may transmit the information to the management apparatus 100 after sensing the brightness (brightness) of a lamp installed therein. The management apparatus 100 may receive the information (Brightness) of each projection apparatus 200 can be detected. When a change in brightness (brightness) is detected, a new brightness difference can be calculated and a new image can be corrected.

In addition, the management apparatus 100 can reduce the image heterogeneity due to the contrast ratio difference of each projection apparatus 200 through image correction. For example, when the contrast ratio of the projection apparatus A is lower than the projection apparatus B, the difference in contrast between pixels of the image projected by the projection apparatus A is increased, or the contrast difference between pixels of the image projected by the projection apparatus B The contrast ratio difference can be canceled.

In addition, the management apparatus 100 may further include a plurality of images that can be generated due to a difference in resolution supported by each projection apparatus 200 or a difference between physical positions (e.g., a distance between the projection surface and the projection apparatus 200) Can be reduced through image correction. Specifically, the two or more projection apparatuses 200 may have different physical positions (e.g., distances to the projection plane) or different resolutions to be supported. In such a situation, the images of the projection apparatuses 200 may be all The image quality of the images reproduced by each projection apparatus 200 may be different from each other. The sizes of the unit pixels of the images reproduced on the projection surface may be different from each other due to the physical position difference and the specific projection apparatus 200 may not support the specific resolution. Therefore, it is preferable that the management apparatus 100 independently compensates the image of each projection apparatus 200 in consideration of these differences, and it is desirable to reduce the image quality difference of the images by this correction. For example, the management apparatus 100 may calculate unit pixel size information of an image that each projection apparatus 200 can reproduce in consideration of a supported resolution and a physical position of each projection apparatus 200, The image of each projection apparatus 200 can be corrected so that the unit pixel sizes of all the projection apparatuses 200 become the same.

Meanwhile, the management apparatus 100 may manage information related to the maintenance of the two or more projection apparatuses 200, and may transmit the information to the outside or may display the information externally. Specifically, the management apparatus 100 can manage 1) cumulative operation time information of a lamp or a cooling fan installed in each projection apparatus 200, and guide the replacement timing of the lamp or the cooling fan based on this information . Also, the management apparatus 100 can manage the luminous intensity information of the lamp installed in each projection apparatus 200, and can guide lamps to be replaced on the basis of such information. Also, the management apparatus 100 can manage the brightness difference information between the lamps installed in the two or more projection apparatuses 200, and can guide the necessity of the lamp replacement based on the information. Also, the management apparatus 100 can manage the position information of each projection apparatus 200 and guide the fact when the position of the specific projection apparatus is changed. The management apparatus 100 can manage the temperature or humidity information of each projection apparatus 200 and can prevent the projector 200 from malfunctioning or guide the necessity of the inspection based on the information. have.

Hereinafter, an operation related to the maintenance of the management apparatus 100 will be described in more detail.

First, the management apparatus 100 can manage cumulative operation time information of a lamp or a cooling fan installed in each projection apparatus 200, and can guide the replacement time of the lamp or the cooling fan on the basis of the managed information. have. Specifically, the current sensing device may be installed in the lamp or the cooling fan of each projection device 200, and the installed current sensing device may sense the current of the lamp or the cooling fan to collect operation information. The operation information may be transmitted to the management apparatus 100 and managed. Accordingly, the management apparatus 100 can calculate the secondary information by analyzing the transmitted information, and in particular, can calculate and manage cumulative use time information for each lamp or each cooling fan of each projection apparatus 200 . Here, when the cumulative operation time of the lamp or the cooling fan of each projection device 200 exceeds a predetermined reference value (for example, 2000 hours), the management apparatus 100 can recognize the fact. Or replacement of the cooling fan. For example, the management apparatus 100 may notify the manager computer connected to the management apparatus 100 of the fact, or guide the replacement information through a display unit provided in the management apparatus 100. Here, The information preferably includes identification information of the projection device 200 that requires replacement of the lamp or cooling fan.

Next, the management apparatus 100 can manage the luminous intensity information of the lamp installed in each projection apparatus 200, and can guide lamps to be replaced on the basis of such information. Specifically, the lamp of each projection apparatus 200 may be provided with a luminous intensity sensing (sensor) apparatus, and the luminous intensity sensing apparatus provided may collect luminous intensity information of the lamp. To be managed. Therefore, the management apparatus 100 can collect the luminous intensity information of the lamp installed in each of the projection devices 200, and collect information on luminous intensity change with time. Here, the management apparatus 100 may recognize the brightness when the luminosity (brightness) of the lamp installed in each projection apparatus 200 is lower than the reference value or the brightness of the lamp changes unstably according to the change of time. These events can guide the need for lamp replacement. For example, the management apparatus 100 may notify the manager computer connected to the management apparatus 100 of the fact, or guide the replacement information through a display unit provided in the management apparatus 100. Here, The information preferably includes identification information of the projection device 200 that requires replacement of the lamp.

Next, the management apparatus 100 can manage lightness difference information between lamps installed in the two or more projection apparatuses 200, and can guide the necessity of lamp replacement based on such information. Specifically, the management apparatus 100 can calculate and manage the brightness difference information between the lamps based on the individual brightness information of the collected lamps. In this case, the management apparatus 100 can calculate the brightness difference information The image of each projection apparatus 200 is corrected in the direction in which the lightness difference can be canceled out. However, if the brightness difference between the lamps is severely widened, this image correction can not cancel the image heterogeneity. Therefore, when the brightness difference between the lamps is out of the limit that can be canceled by the correction, the management apparatus 100 identifies the lamp of the projection apparatus 200 causing the brightness difference, . For example, the management apparatus 100 may notify the manager computer connected to the management apparatus 100 of the fact, or guide the replacement information through a display unit provided in the management apparatus 100. Here, The information preferably includes identification information of the projection device 200 that requires replacement of the lamp.

Next, the management apparatus 100 can manage the position information of each projection apparatus 200, and based on the managed information, the position of the specific projection apparatus may fluctuate unexpectedly (e.g., ). Specifically, a position sensing device (e.g., a three-axis acceleration sensor, a three-axis gyro sensor, or the like) may be installed in each projection device 200, and the installed position sensing device senses the position of the projection device, The collected location information may be transmitted to the management apparatus 100 and managed. Here, the management apparatus 100 can recognize the fact when the position of each projection apparatus 200 is changed, and can inform the fact of the position of the projection apparatus when the event occurs. For example, the management apparatus 100 may notify a manager computer connected to the management apparatus 100 of the fact, or may alert a position change through a display unit provided therein, It is preferable that the alarm information includes identification information of the projection apparatus 200 whose position has changed.

Next, the management apparatus 100 can manage temperature or humidity information of each projection apparatus 200, and based on this information, it is possible to prevent failure of each projection apparatus 200 or to guide the necessity of inspection have. The temperature sensing device or the humidity sensing device may be installed in the projection device 200. The temperature sensing device or the humidity sensing device may include temperature or humidity information inside the projection device 200, The collected temperature or humidity information may be transmitted to the management apparatus 100 and managed. When the temperature of the interior of the specific projection device 200 exceeds a reference value (for example, 80 DEG C) or the humidity of the interior of the specific projection device 200 exceeds a reference value (e.g., 80%), the management device 100 stops the projection device 200, Can be stopped remotely. In addition, it is possible to guide the information requesting the inspection of the projection apparatus 200 together with the identification information of the projection apparatus 200 in which the operation is stopped.

On the other hand, the two or more projection apparatuses 200 can project images onto a plurality of projection surfaces that are not parallel to each other. In addition, the two or more projection apparatuses 200 can project images synchronized with each other on the plurality of projection surfaces. At this time, it is preferable that an image having a sense of unity is reproduced over the plurality of projection surfaces, and a separate image may be reproduced on the plurality of projection surfaces depending on the situation.

Here, the plurality of projection surfaces may be arranged so as not to be parallel to each other. If the conventional technique is to project an image only on a screen disposed on the front of the auditorium and the viewer to view the image reproduced on the two-dimensional screen or if the 3D technique is applied to the image reproduced on the plane, According to the present invention, a plurality of projection planes are arranged in a three-dimensional manner so as not to be parallel to each other, so that a stereoscopic image and a highly immersive image can be provided to a viewer through a plurality of projection planes arranged three-dimensionally without applying 3D technology or the like to the image itself.

Preferably, the plurality of projection surfaces are disposed so as to surround the viewer's seat in the movie theater. Therefore, through the synchronized image realized through the plurality of projection surfaces, the audience can be perceived to be surrounded by the space created by the image, thereby maximizing the three-dimensional feeling, immersion feeling, and virtual reality felt by the viewer.

Further, the angle formed by the plurality of projection surfaces is not limited to a specific angle, and may be arranged at various angles as long as the viewer can feel a three-dimensional effect.

In addition, the plurality of projection surfaces may be disposed adjacent to each other or may be disposed apart from each other, but in this case, it is also preferable that the projection surfaces are disposed in a manner to surround the viewer's seat.

3 is an embodiment in which the plurality of projection surfaces are disposed on the front surface, the left surface, and the right surface with respect to the viewer's seat, and the drawings attached to FIG. 4 show an example in which the plurality of projection surfaces face the front The right side, and the upper side. 5 is an embodiment in which the plurality of projection surfaces are disposed on the front surface, the left surface, the right surface, the upper surface, and the lower surface with respect to the viewer's seat.

The plurality of projection surfaces may be formed of different types of projection surfaces. For example, it may be a mixture of screen and wall, a mixture of different kinds of screens, or a mixture of different kinds of wall. Therefore, the present invention can be applied to a conventional general theater including only one screen and a plurality of walls, and a multi-screening service can be realized even without a plurality of screens. However, in such an environment, there is a problem that a sense of heterogeneity may occur between images reproduced on a plurality of projection surfaces due to a sense of shear (color, reflectance, etc.) between the screen and the wall surface. However, It can be solved by a correcting operation. Specifically, the management apparatus 100 can independently correct an image projected on each projection surface in consideration of the relative properties (color, reflectance, material, surface shape, etc.) of the screen and the wall surface, It is possible to realize an image having no sense of heterogeneity over the entire projection surface of the projection optical system.

In addition, the number of the projection devices 200 projecting images onto the respective projection surfaces may be configured differently depending on the sizes of the projection surfaces. For example, in a relatively large-sized projection surface, two or more projection apparatuses 200 can project an image together to reproduce an image taken by the projection surface. In a relatively small-sized projection surface, It is possible to reproduce an image taken by the projection surface by using only the projection optical system 200. On the other hand, when two or more projection apparatuses 200 project an image on one projection surface, the overlapping portions of the images of the projection apparatuses 200 may not be smooth. Can be solved by image correction of edge blending.

Meanwhile, the management apparatus 100 may preferably perform image correction (correction 1) considering the performance difference of the projection apparatuses 200 and image correction (correction 2) taking into consideration the properties of the plurality of projection surfaces And the unity of the images projected on the plurality of projection surfaces can be further improved through the image correction (correction 1, correction 2) of the two stages.

The correction 1 is a correction considering the performance difference of the projection devices 200, and has been described in detail above.

The correction 2 is an image correction method considering the properties of the plurality of projection surfaces, and can be performed by the management apparatus 100. Here, the properties of the projection surface may include various properties related to the projection surface. For example, the projection surface may include various properties such as the material, color, reflectance, surface shape, and installed structure of the projection surface.

In more detail, the management apparatus 100 may correct an image projected by the at least two projection apparatuses 200 considering the properties of the plurality of projection planes. Specifically, the management apparatus 100 may individually or relatively analyze the shape, material, color, reflectance, brightness, etc. of the plurality of projection surfaces, and may implement an image in which the two or more projection apparatuses 200 have a sense of unity It is possible to correct the image in a certain direction. For example, the management apparatus 100 may analyze a color difference, a reflectance difference, a brightness difference, and the like of each projection surface, and correct the image in a direction in which the analyzed differences can be canceled. In addition, the management apparatus 100 may perform image warping correction, masking correction, and the like considering the surface shape of each projection surface. Through these corrections, it is possible to prevent individual image distortion of each projection surface can do. In addition, the management apparatus 100 can improve the unity of images through edge blending correction considering the shapes of the projection surfaces.

Various embodiments for ensuring the unity of the images projected by the two or more projection apparatuses 200 have been described. Specifically, 1) image correction considering the performance difference of each projection apparatus 200, 2) image correction considering both the performance difference of each projection apparatus 200 and the nature of the projection surface.

Meanwhile, the management apparatus 100 can assure a sense of unity of images through other embodiments other than this embodiment. Hereinafter, another embodiment will be briefly described.

According to another embodiment of the present invention, the management apparatus 100 may perform the image correction considering the nature of the projection surface as described above, and then maintain the same output values of the lamps included in each projection apparatus 200 A sense of heterogeneity may occur between images if the output values of the lamps are different from each other). That is, the management apparatus 100 can guarantee the unity of the images by performing the correction taking into consideration the properties of the plurality of projection surfaces, and controlling the output values of the lamps of the projection apparatuses 200.

Here, the lamp included in each projection apparatus 200 is preferably composed of a lamp whose output value (brightness) can be changed by electronic control, and can be controlled by the management apparatus 100. In addition, the management device 100 can sense the output value of the lamp in real time through the sensor device included in each projection device 200. Accordingly, the management device 100 can integrally manage the output values of the lamps included in the two or more projection devices through such configurations, and when the output value of the lamp included in the specific projection device is changed, The output value can be changed again through the signal.

Meanwhile, the correction considering the properties of the plurality of projection surfaces is the same as the correction 2 described above, so a detailed description will be omitted.

That is, each projection apparatus 200 receives the corrected image from the management apparatus 100 according to the properties of the projection surface (e.g., the shape, material, color, reflectance, brightness, etc. of the projection surface) The corrected image is projected. At this time, if the performance of each projection apparatus 200 (e.g., the output value of the lamp) is different, the color or sense of unity between images may be somewhat lowered even if the corrected image is projected. Therefore, if the management device 100 adjusts the state of all the projection devices 200 (e.g., the output value (sharpness) of the lamps) in the screening tube to the same level, the problem is compensated for. Thus, Can be output.

It is obvious that the management apparatus 100 can change the projection angle and installation position of each projection apparatus 200 based on an external input signal in order to precisely match the positions of images projected on a plurality of projection surfaces . Here, the projection angle of each projection apparatus 200 is preferably configured to be changeable by electronic control, and can be controlled by the management apparatus 100. Similarly, it is preferable that the installation position of each projection apparatus 200 is constituted by a structure that can be changed by electronic control (for example, a structure in which a rail is provided on a mounting surface of the projection apparatus and movement control is performed by the coordinate value) , And can be controlled by the management apparatus 100.

Hereinafter, the maintenance operation performed by the apparatus management system of the projection apparatus 200 according to an embodiment of the present invention will be described in detail with reference to FIG. 6 to FIG.

7, the management apparatus 100 includes an image correction unit 110, a maintenance management unit 120, a temperature management unit 130, a humidity management unit 140, a display unit 150, a storage unit 160, , And a control unit 170. [

The image correcting unit 110 corrects an image projected by the two or more projection apparatuses 200. [ It is preferable that the image correcting unit 110 performs image correction independent of each projection apparatus 200. In particular, in consideration of a difference in brightness (brightness) between the projection apparatuses 200, 200) is preferably differentially corrected.

The maintenance management unit 120 collectively manages information related to the maintenance of the at least two projection apparatuses 200, and processes or guides various information related to maintenance. For example, the maintenance management unit 120 can calculate the cumulative operation time of the lamp or the cooling fan installed in each projection apparatus 200, and can guide the replacement timing of the lamp or the cooling fan, 200 can be analyzed to determine the need for lamp replacement. Also, the maintenance management unit 120 may recognize the necessity of replacing the lamp by recognizing the brightness difference information between the projection devices 200. In addition, the maintenance management unit can manage the position information of each projection apparatus 200, and can identify the position of the specific projection apparatus when it changes unexpectedly.

The temperature management unit 130 and the humidity management unit 140 are configured to manage temperature or humidity information within the two or more projection apparatuses 200. [ The temperature management unit 130 and the humidity management unit 140 may analyze the temperature or humidity information of each projection apparatus 200 to prevent the projection apparatus 200 from failing or to guide the necessity of the inspection. The operation of the projection apparatus 200 can be stopped remotely and the inspection of the projection apparatus 200 can be guided when the internal temperature or humidity of the specific projection apparatus 200 exceeds the reference value.

The display unit 150 is a configuration that the management apparatus 100 can selectively include and can display various kinds of information managed by the management apparatus 100. FIG. In this case, it is preferable that the information related to each maintenance is displayed together with the identification information of the projection device 200 in which the problem has occurred. Meanwhile, the display unit 150 may be integrally included in the management apparatus 100 or may be configured as a separate external connection apparatus, and may be implemented by various display apparatuses.

The storage unit 160 stores various kinds of information related to the operation of the management apparatus 100. The storage unit 160 may be temporarily or permanently stored with information related to the above-described maintenance.

The control unit 170 may control the operation of the image processing apparatus including the image correction unit 110, the maintenance management unit 120, the temperature management unit 130, the humidity management unit 140, (100). The controller 170 may be implemented by various computing devices.

8, each projection apparatus 200 includes an image projection unit 210, a current sensing unit 220, a brightness sensing unit 230, a temperature sensing unit 240, a humidity sensing unit 250, (260).

The image projecting unit 210 is configured to project the corrected image transmitted from the management apparatus 100 onto the projection surface. The image projecting unit 210 may receive the corrected image from the management apparatus 100 and project the corrected image onto the projection surface. In this case, the corrected image may include characteristics (e.g., brightness, material, color, reflectance, Surface shape, installed structure, etc.) and the performance of the projection apparatus (for example, brightness, contrast ratio, resolution, etc.). Meanwhile, the image projection unit 210 may include a lamp, and the brightness of the image projected by the lamp may be adjusted.

The current sensing unit 220 is configured to sense the operation of a cooling fan or a lamp installed in the projection device 200. Specifically, the current sensing unit 220 senses a current flowing into the cooling fan or lamp, identifies an operation of the cooling fan or the lamp, and transmits the identified information to the management apparatus 100. [ .

The brightness sensing unit 230 senses brightness of a lamp included in the image projection unit 210 and transmits the sensed brightness information to the management device 100. The brightness sensing unit 230 may be implemented by various sensor devices.

The temperature sensing unit 240 and the humidity sensing unit 250 may sense temperature or humidity inside the projection device 200 and transmit sensed temperature or humidity information to the management device 100 . The temperature sensing unit 240 and the humidity sensing unit 250 may be implemented by various sensor devices.

The position sensing unit 260 senses the position of the projection device 200 and transmits the sensed position information to the management device 100. The position sensing unit 260 may be realized by a variety of sensor devices for sensing a position, for example, a three-axis acceleration sensor or a three-axis gyro sensor.

Referring to FIGS. 6 to 8, the maintenance operation performed by the projection apparatus 200 management system may be roughly divided into five maintenance operations. 1) maintenance operation according to the operating time of the lamp or cooling fan installed in each projection apparatus 200 2) maintenance operation according to the individual luminous intensity information of the lamp installed in each projection apparatus 200 3) Maintenance operation according to the luminous intensity difference information of the lamps installed in the apparatuses 200; maintenance operation according to position information of each projection apparatus 200; maintenance operation according to temperature or humidity information of each projection apparatus 200; Can be divided into actions.

First, the maintenance operation according to the operation time of the lamp or the cooling fan installed in each projection apparatus 200 will be described. First, the current sensing unit 220 of each projection apparatus 200 controls the lamp Or the current flowing into the cooling fan, and collects the operation on information of the lamp or the cooling fan. All the operation information collected by the current sensing unit 220 of each projection apparatus 200 is transmitted to the maintenance management unit 120 of the management apparatus 100. The maintenance management unit 120 stores the collected information The cumulative operation time information of the lamp or the cooling fan is calculated and managed for each projection apparatus 200. Meanwhile, when the accumulated operation time of the specific lamp or the cooling fan exceeds a predetermined reference value (e.g., 2000 hours, etc.), the maintenance management unit 120 may recognize the fact. In this case, the maintenance management unit 120 May guide the replacement of the lamp or the cooling fan in association with the display unit 150. [ Here, it is preferable that the information for guiding the replacement of the lamp or the cooling fan includes the identification information of the projection device 200 that needs to be replaced. The maintenance management unit 120 may calculate the cumulative operation time of the lamp or the cooling fan of each projection apparatus 200 in real time and guide the user through the display unit 150 in real time, When the cumulative operation time is 500 hours, 1000 hours, 1500 hours, 2000 hours).

Although the projection device 200 has been described as being informed of the replacement timing of the lamp or cooling fan from the management device 100 in the foregoing description, (For example, an alarm using a display unit or a speaker provided in the projection device) after determining the replacement timing of the lamp or the cooling fan based on the operation information.

Second, the maintenance operation considering the individual luminous intensity information of the lamp installed in each projection apparatus 200 will be described. First, the luminous intensity detection unit 230 of each projection apparatus 200 displays the lamps And collects information on the change in brightness according to the change of time. All the information collected by the luminosity detecting unit 230 of each projection apparatus 200 is transmitted to the maintenance management unit 120 of the management apparatus 100. The maintenance management unit 120 receives the information The performance of the lamp installed in each projection apparatus 200 is diagnosed. Specifically, when the luminosity (brightness) of the lamp provided in the specific lamp angle projection device 200 is less than the reference value or the luminous intensity of the lamp changes unstably according to the change of the time, The display unit 150 can be informed of the necessity of replacing the lamp when such an event occurs. Here, it is preferable that the information for guiding the replacement of the lamp includes the identification information of the projection device 200 that needs to be replaced. In addition, the maintenance management unit 120 may provide the brightness information of the lamp installed in each projection apparatus 200 through the display unit 150 in real time.

On the other hand, when the luminous intensity of the projection apparatus 200 changes from unacceptable or unstable based on the luminous intensity information collected by the luminous intensity sensing unit 230, it is determined that the projection apparatus 200 is abnormal (E.g., an alarm using a display unit or a speaker provided in the projection apparatus).

Third, the maintenance management unit 120 considers brightness difference information between the lamps installed in the projection apparatuses 200. First, the maintenance management unit 120 determines, based on individual brightness information of each lamp, The brightness difference information between the lamps installed in the two or more projection apparatuses 200 can be calculated and managed. Here, the image correcting unit 110 can correct the image of each projection apparatus 200 in such a direction that the difference in brightness between the lamps can be canceled by referring to the calculated brightness difference information. However, If the difference is severe, such image correction can not cancel the image heterogeneity. Accordingly, the maintenance management unit 120 recognizes the case where the difference in brightness of the light between the lamps is out of the limit that can be canceled by the correction (recognizes that a difference in brightness of the reference value or more occurs) It is possible to identify the lamp of the lamp 200 and guide the replacement of the identified lamp. Here, it is preferable that the information for guiding the replacement of the lamp includes the identification information of the projection device 200 that needs to be replaced. In addition, the maintenance management unit 120 may provide brightness difference information between the projection devices 200 through the display unit 150 in real time.

Fourth, the maintenance operation considering the position information of each projection apparatus 200 will be described. First, the position sensing unit 260 of each projection apparatus 200 collects position information of each projection apparatus 200, The collected information is transmitted to the maintenance management unit 120 of the management apparatus 100. [ Here, the maintenance management unit 120 determines whether the position of each projection apparatus 200 is changed based on the collected information. Specifically, it is determined whether or not the three-dimensional position of each projection apparatus changes. As a result of the determination, when the position of the specific projection device is changed, the maintenance management unit 120 can alarm the fact through the display unit 150. Here, it is preferable that the information for alerting the position change of the specific projection device 200 includes the identification information of the specific projection device 200 whose position has been changed.

Meanwhile, the maintenance management unit 120 may directly correct the position of the specific projection apparatus that has been changed through electronic control. In this case, it is preferable that each of the projection devices is structured such that the position can be changed by electronic control (for example, a structure in which a rail is provided on a mounting surface of the projection device so as to move and control the coordinate value).

In addition, when each projection apparatus 200 recognizes that its position has been changed based on the position information collected by the position sensing unit 260, the projection apparatus 200 notifies the fact that the position has been changed by itself (for example, A display unit, a speaker, and the like).

The temperature sensing unit 240 or the humidity sensing unit 250 of each projection device 200 may be installed in each projection device 200. In this case, Detect internal temperature or humidity and collect relevant information. The information collected by the temperature sensing unit 240 or the humidity sensing unit 250 of each projection apparatus 200 is transmitted to the temperature management unit 130 or the humidity management unit 140 of the management apparatus 100 The temperature management unit 130 or the humidity management unit 140 may analyze the transmitted temperature information or humidity information to prevent the failure of each projection device 200 or to guide the necessity of the inspection. Specifically, when the internal temperature of the specific projection device 200 exceeds a reference value (for example, 80 DEG C) or the humidity of the interior exceeds a reference value (e.g., 80%), the temperature management unit 130 or the humidity management unit 140 The operation of the projection apparatus 200 can be stopped remotely. In addition, the display unit 150 can display information for requesting inspection of the projection apparatus 200 together with the identification information of the projection apparatus 200 in which the operation is stopped.

When the temperature or humidity deviates from the reference value on the basis of the temperature information or the humidity information collected by the temperature sensing unit 240 or the humidity sensing unit 250, It is possible to make an alarm (e.g., alarm using a display unit, a speaker, and the like provided in the projection apparatus).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, , Changes and additions should be considered as falling within the scope of the claims of this patent.

100: management apparatus 110: image correction unit
120: maintenance management unit 130: temperature management unit
140: humidity management unit 150: display unit
160: Storage unit 170: Control unit
200: projection device 210: image projection part
220: Current sensing unit 230: Light intensity sensing unit
240: temperature sensing unit 250: humidity sensing unit
260: Position sensing unit

Claims (12)

At least two projection devices for projecting an image onto a projection surface; And
A management device that corrects an image projected by each projection device in consideration of information of each projection device, and manages information for maintenance of each projection device;
Wherein the at least two projection devices are installed in the same screen.
The method according to claim 1,
Wherein the two or more projection devices project images onto a plurality of projection surfaces that are not parallel to each other.
3. The method of claim 2,
Wherein the two or more projection devices project images synchronized with each other.
The method of claim 3,
The management apparatus includes:
The image projected by each projection device is corrected in consideration of the properties of the plurality of projection surfaces,
Wherein each projection device controls to project an image of the same brightness.
The method according to claim 1,
In the information for maintenance,
And operation time information of a lamp or a cooling fan installed in each projection device.
6. The method of claim 5,
A current sensing device is installed in the lamp or the cooling fan,
Wherein the management device obtains operating time information of the lamp or the cooling fan based on information collected by the current sensing device.
6. The method of claim 5,
The management apparatus generates replacement guide information when the operation time of the lamp or the cooling fan exceeds a reference value,
Wherein the replacement guide information includes identification information of a projection device that needs to be replaced.
The method according to claim 1,
In the information for maintenance,
Wherein the position information of each projection device is included.
9. The method of claim 8,
Each projection device is equipped with a position sensing device,
Wherein the management apparatus acquires position information of each projection apparatus based on information collected by the position sensing apparatus.
10. The method of claim 9,
The management apparatus generates alarm information for guiding the fact when the position of the specific projection apparatus is changed,
Wherein the alarm information includes identification information of the projection device whose position has changed.
The method according to claim 1,
Each projection device can sense the temperature or humidity inside the device,
Wherein the management device stops the operation of the projection device when the temperature or humidity of the specific projection device rises above a reference value.
The method according to claim 1,
The management apparatus includes:
An image correcting unit for correcting an image projected by each projection apparatus based on information of each projection apparatus; And
A maintenance management unit for integrally managing information for maintenance of each of the projection devices;
Wherein the projection device management system comprises:

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