JP2012160831A - Intercom system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve visibility of a person in a display video, with no provision of a function for detecting a person.SOLUTION: A collective entrance unit 1 includes a slave unit monitor 14 which displays a video taken with a camera 2, a parameter storage part 16 which stores a weighting parameter of photometric area and photometric quantity used in an optimizing process of exposure, an operation part 17 for performing changing or setting operation with a parameter, a slave unit CPU 24 which controls changing or setting of the parameter, a real time clock 23 for storing a current day and time, and a video processing part 11 which processes the video taken with the camera 2 by using the set parameter, to be displayed on the slave unit monitor 14, and performs video processing by using the data stored in the parameter storage part 16 and transmits it to a room master unit 3. Upon parameter registration operation, a parameter is attached with the day/time information of the real time clock, which is registered in the parameter storage part 16.

Description

  The present invention relates to an interphone system that includes a camera that captures a visitor and has a TV function that allows a resident to talk while viewing the visitor image. The present invention relates to an intercom system that automatically adjusts video.

  Conventionally, there is a situation in which the sun (sunlight) is directly imaged as an installation environment of the intercom slave installed at the entrance. In such a situation, a visitor's image picked up by the camera, particularly the face part, becomes completely dark. Therefore, there has been a technology for providing a backlight correction button or automatically correcting the backlight to improve the situation. For example, in Patent Document 1, a captured image is divided into a plurality of areas, the brightness of each area is analyzed to obtain a photometric area setting value, and the presence of a person is detected from the captured image of the camera, regardless of the surrounding environment. The brightness was adjusted by weighting based on the photometric area setting values analyzed in this way to improve the visibility of the face image.

JP 2010-200256 A

  In Patent Document 1, it is possible to make the face image easy to visually recognize by calculating the brightness difference for each of the plurality of divided photometric areas and analyzing the brightness. However, the brightness analysis result greatly changes depending on the number of divisions and the division method of the plurality of photometric areas, and it is difficult to determine a person when the subject is small. For this reason, it is actually difficult to cope with all the environments where the camera is installed with one parameter.

  Further, the above-mentioned Patent Document 1 similarly applies to a creation unit for creating a photometric area setting value by performing a weighting calculation of the photometric quantity for each photometric area based on the calculation result of the analysis unit. It is actually difficult to make all of the weights of the environment correspond to the surrounding environment with one parameter. This is because the dynamic margin of the camera is finite, and if there is a photometry area where the sunlight exceeding the dynamic margin is very strong, the control works so as not to saturate the signal in that photometry area. Therefore, it was not possible to optimize the camera exposure settings so that the face did not become dark.

  As a process in this case, there is a method in which the background other than the person is completely whitened to brighten only the face of the person. However, when this setting is applied, the time and season (summer, winter) ), Etc., due to the influence of the incident light from the sun, the surroundings change greatly, and when the incident light is low, the whole screen tends to become dark, so it is not possible to respond to spot and time changes. It was.

  To solve these problems, if the calculation is performed while changing the number and division method of the multiple photometric areas and the weight of the photometric quantity for each photometric area little by little, the calculation processing amount and time become enormous. Increase in power consumption and cost. Also, in order to deal with all the surrounding environments of the camera installation, it is necessary to determine and set the optimal parameters while confirming with the human eyes according to the season and date. In the conventional configuration, since the monitor to be confirmed is in the room in the conventional configuration, at least two people, that is, the person to be imaged at the entrance and the person to be set in the dwelling unit, are required. It will take.

  Therefore, the present invention has been made to solve these problems, and it is not necessary to provide a function for detecting a person, and even if the imaging environment changes due to the difference in the surrounding environment or the date and time, the human vision in the display image is recognized. The purpose of the present invention is to provide an intercom system that can improve the performance and can easily set the optimum parameters.

In order to solve the above-described problems, the invention of claim 1 displays a camera for imaging a visitor, a front door having a function for a visitor to call a resident and make a call, and an image captured by the camera. An intercom system having a monitor and a room unit having a function of making a call in response to a call from the entrance machine, wherein the entrance machine activates the camera and a slave monitor that displays a captured image of the camera The remote control unit for displaying video on the remote monitor, and the photometric area and photometric quantity of the camera-captured video for each season and time zone used for exposure optimization processing to improve the visibility of the video displayed on the monitor A parameter storage unit for storing weighting parameters, a parameter setting unit for changing or setting parameters, a parameter control unit for controlling change or setting of parameters, and the current date and time Using the real-time clock for storage and the parameters set by the operation of the parameter setting unit, the captured video of the camera is processed and displayed on the slave monitor, and the camera is captured from the parameters stored in the parameter storage unit A parameter processing unit that receives a change or setting operation by the parameter setting unit, and takes a real-time clock into the changed parameter. The date and time information is attached and registered in the parameter storage unit.
According to this configuration, exposure optimization processing can be performed on the monitor and displayed on the monitor based on the photometric area of the camera-captured video for each season and time zone and the weighting parameter of the photometric quantity. Therefore, even if the imaging environment of the camera changes depending on the date and time, it is possible to improve the human visibility of the monitor display video without providing a person detection function.
Then, the parameter setting unit can be operated while displaying and confirming the captured image of the camera on the slave monitor, so that the photometric area and the photometric weighting parameter can be set and changed easily by one person. By changing the parameters, it is possible to set the video so that visitors can easily see it, and it can be set optimally for the installation environment according to the season and time.

The invention of claim 2 is the collective entrance machine having the function of selecting the dwelling unit and being installed at the collective entrance such as the entrance of the collective housing in the configuration according to claim 1, Is a dwelling unit that is installed in each dwelling unit of the housing complex, and the dwelling unit and the dwelling unit are connected via a controller that controls the video and audio transmission paths between them. Features.
According to this configuration, since the function of controlling the video and changing the parameters is provided in the collective entrance machine, the visibility of the monitors of the plurality of dwelling units can be improved by adjusting one place, and necessary circuits are also gathered. It is sufficient to provide as many entrance machines as possible, and cost increases can be minimized.

According to a third aspect of the present invention, there is provided a camera for capturing an image of a visitor, a front door having a function for a visitor to call a resident and making a call, a monitor for displaying an image captured by the camera, and a call from the front door Intercom system having a function of making a call in response to the telephone, and the entrance unit is used for each season and time period used for exposure optimization processing for improving the visibility of the image displayed on the monitor. A parameter storage unit for storing the photometry area of the camera-captured video and the weighting parameter of the photometric amount, a parameter control unit for controlling change or setting of the parameter, a real-time clock for storing the current date and time, and a parameter storage unit The video processing unit extracts the data corresponding to the camera's imaging date and time from the parameters stored in the video, processes the video, and transmits the video to the room unit. A video storage unit that stores the visitor video together with the imaging date and time, while the entrance machine has a parameter change operation unit and a video display unit that change parameters of the parameter storage unit via the Internet The video processing unit receives the video display operation of the parameter changing unit, processes the recorded video of the video storage unit with the recording date and time parameter, and transmits the processed video to the video changing unit. In response to the parameter change or setting operation of the parameter changing means, the imaging date and time parameters of the extracted recorded video are changed or set.
According to this configuration, exposure optimization processing can be performed on the monitor and displayed on the monitor based on the photometric area of the camera-captured video for each season and time zone and the weighting parameter of the photometric quantity. Therefore, even if the imaging environment of the camera changes depending on the date and time, it is possible to improve the human visibility of the monitor display video without providing a person detection function.
And you can set or change the photometric area and weighting parameter of photometric quantity while taking an image while watching the recorded video, so the recorded visitor video even if there is no person in front of the entrance It is possible to change the parameters while watching the video so that a video that makes it easy to see the visitor can be displayed. Therefore, it can be set optimally for the installation environment according to the season and time.
In addition, it is possible to make adjustments at a time in an external organization and the like, and it is not necessary for the resident or user to set it one by one.

The invention of claim 4 is the collective entrance machine having the function of selecting the dwelling unit and being installed at the collective entrance such as the entrance of the collective house in the configuration according to claim 3, Is a dwelling unit that is installed in each dwelling unit, and the collective entrance unit and the dwelling unit are connected via a controller that controls the video and audio transmission paths between them, and the controller is connected to the Internet. And the collective entrance machine communicates with the parameter changing means through the controller.
According to this configuration, since the collective entrance machine is provided with the function of controlling the image and changing the parameters, the visibility of the monitor of each dwelling unit can be improved by adjusting one place, and the necessary circuits are also installed in the collective entrance machine. It is sufficient to provide as many as the number of machines, and the cost increase can be minimized. In addition, by connecting to the Internet via a controller, it is not necessary to provide an interface for connecting to the Internet for each dwelling unit master.

According to a fifth aspect of the present invention, in the configuration according to any one of the first to fourth aspects, the entrance machine includes a pattern recognition unit that reads the two-dimensional information such as a barcode when the camera captures the two-dimensional information, and the read two-dimensional information. And a parameter information storage unit that stores parameter associations, and the parameter control unit reads the corresponding parameter from the pattern information storage unit based on the two-dimensional information read by the pattern recognition unit, and stores the parameter in the parameter storage unit. It is characterized by registering.
According to this configuration, since the parameter can be changed simply by holding a predetermined two-dimensional image on the camera, if the parameter to be set is determined, it can be easily changed by a simple operation, which is convenient.

  According to the present invention, the exposure optimization process is performed according to the photometric area of the camera-captured video image for each season and time zone and the weighting parameter of the photometric quantity is displayed on the monitor. However, it is possible to improve the visibility of the person in the displayed video without providing a person detection function. In addition, since it is possible to check whether the visibility of a person is optimal by changing parameters with an entrance machine or an external device, the parameters can be easily set by one person, and the parameters can be optimally set for the installation environment.

It is a schematic block diagram which shows an example of the intercom system which concerns on this invention. It is the block diagram which showed each apparatus of FIG. 1 with the block diagram. It is explanatory drawing which sets a parameter with a collective entrance machine. It is explanatory drawing which shows a mode that a photometry area | region is changed according to daytime.

DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, embodiments of the invention will be described in detail with reference to the drawings. FIG. 1 is a schematic configuration diagram showing an example of an intercom system according to the present invention, and shows a configuration applied to an apartment house. In FIG. 1, 1 is installed at a collective entrance such as an entrance, and is equipped with a camera 2 and a collective entrance machine (entrance machine) for a visitor to select a visited dwelling unit and call a resident, 3 is an individual dwelling unit A dwelling unit parent unit (room unit) that is provided with a main unit monitor 4 that displays a captured image of the camera 2 and that allows a resident to respond to a call from the collective entrance unit 1, and 5 represents the collective entrance unit 1 and the dwelling unit A control unit 6 for controlling communication between the master unit 3 and a personal computer (hereinafter referred to as a PC) for adjusting an image displayed on the master unit monitor 4.
The collective entrance machine 1 is connected to the controller 5 via the transmission line L1, and the dwelling unit parent machine 3 is connected to the controller 5 via the parent machine trunk line L2. The PC 6 is connected to the controller 5 via the Internet N.

  FIG. 2 is a block diagram showing individual devices in a block diagram, and the configuration of each device will be specifically described based on FIG. The collective entrance machine 1 includes a slave unit video processing unit 11 that performs video processing with predetermined parameters in order to make the captured video of the camera 2 easy to see, a slave unit video storage unit 12 that includes a RAM for recording video, and a two-dimensional display such as a barcode. A pattern recognition unit 13 for recognizing information, a slave unit monitor 14 for displaying a captured image of the camera 2, a monitor drive unit 15 for driving and controlling the slave unit monitor 14, a parameter storage unit 16 including a ROM for storing a photometric area and parameters, An operation unit 17 for changing / setting a call operation and a parameter, a pattern information storage unit 18 for storing an association between two-dimensional information and a parameter, a slave unit voice processing unit 22 to which a microphone 20 and a speaker 21 are connected, a real-time clock A real-time clock 23 for outputting signals and a slave CPU 24 for controlling each circuit of the collective entrance 1 including the slave image processing unit 11 And a set entrance machine IF25 like to communicate with the controller 5.

  Here, the camera 2 outputs an image signal by capturing an image of the vicinity of a dwelling entrance with a visitor as a subject as a center, and is configured by various imaging media such as a CCD and a CMOS, for example. The The subunit | mobile_unit image | video memory | storage part 12 is for image | photographing with the camera 2, and preserve | saves a video signal in a time series, and various storage media, such as EEPROM, are used besides RAM. In addition, the slave unit image processing unit 11 generates an interrupt signal from the real-time clock 23 to the slave unit CPU 24 when the preset date and time are reached, and parameter storage of the photometry area and the weighting parameter of the photometric quantity adapted to the date and time The slave CPU 24 refers to the unit 16 and performs signal processing on the video signal so as to optimize the exposure of a plurality of photometric areas depending on the installation environment of the collective entrance 1 based on the photometric area setting values. This signal-processed video signal is output from the collective entrance IF 25 after FM modulation or amplification, for example.

  The dwelling unit 3 includes a monitor driving unit 32 that drives the parent unit monitor 4, a parent unit image processing unit 33 that generates an image to be displayed on the parent unit monitor 4, a parent unit image storage unit 34 that includes a RAM that stores images, Controls the base unit storage unit 35 including a ROM for storing various settings, an operation unit 36 for performing various operations, a base unit voice processing unit 39 to which a microphone 37 and a speaker 38 are connected, and the dwelling unit base unit 3 as a whole. A master unit CPU 40, a master unit IF 41 that communicates with the controller 5, and the like are provided.

  The controller 5 relays the video processing unit 51 for relaying the video transmitted from the collective entrance 1 to the dwelling unit 3, similarly the audio processing unit 52 for relaying the audio signal, and similarly relays the data. A data processing unit 53, a storage unit 54 comprising a RAM for storing the relationship between the dwelling unit number and the dwelling unit, a controller CPU 55 for controlling the entire control unit 5, and a controller for communicating with the collective entrance unit 1 1 IF 56, a controller second IF 57 for communicating with the dwelling unit 3, a controller third IF 58 for connecting to the Internet N and communicating with the external PC 6, and the like. Reference numeral 7 denotes a HUB that relays signals.

  The operation of the intercom system configured as described above will be described below. However, in order for the visitor to call the resident, the collective unit 1 is operated to call the dwelling unit 3, and the resident visits while watching the parent device monitor 4 displaying the visitor image captured by the camera 2. Since the operation for making a call is the same as in the prior art, a description thereof will be omitted. Here, the flow of setting parameters and the like for automatic adjustment so that the visitor video displayed on the master monitor 4 is displayed in an easily visible manner is described. The operation will be described.

This setting can be performed by operating the collective entrance machine 1 or by causing the slave camera 2 of the collective entrance machine 1 to capture two-dimensional information such as a barcode or QR code. Furthermore, it can be implemented by the PC 6 via the Internet N.
First, an operation for setting parameters by operating the collective entrance 1 will be described. FIGS. 3A and 3B are explanatory diagrams for setting the parameters used in the video processing by the collective entrance machine 1, in which FIG. 3A shows the state of the collective entrance machine 1 before the operation, and FIG. As shown in FIG. 3, the operation unit 17 includes an operation button row 17 a having a numeric keypad, a button row 17 b for performing various settings, a touch button 17 c that is incorporated in the child device monitor 14 and is touch-operated. Yes. Note that M indicates an operator, and Ma indicates an operator displayed on the slave monitor 14.

The operation unit 17 is operated as means for determining the optimum photometry area and weighting parameter of the photometric quantity at a specific time and storing them in the parameter storage unit 16. By a predetermined operation of the operation unit 17, a touch button 17c for changing a parameter is displayed on the child device monitor 14 as shown in FIG. By this operation, the video signal picked up after the camera 2 is activated is corrected in luminance by the photometry area and the weighting parameter of the photometry quantity set in advance by the slave unit video processing unit 11, and the image subjected to the exposure optimization process Is displayed on the slave monitor 14 by the monitor driving unit 15.
At this time, the self-portrait Ma of the operator M is displayed on the slave monitor 14 as shown in FIG. At the same time, information for changing parameters is displayed, and as shown in FIG. 3B, a photometric area E and a parameter input value (not shown) are displayed in the photometric area.
In this way, according to the image displayed by itself, it is possible to change the photometry area E and parameters by operating the operation unit 17c while viewing this display.

When the parameter is changed by operating the touch button 17c, the slave unit video processing unit 11 performs video processing with the changed parameter under the control of the slave unit CPU 24 and is displayed on the slave unit monitor 14. In this way, the operator can change or set the optimum photometric area and parameters while viewing the displayed video.
The slave CPU 24 receives the setting operation and writes the parameters set in the parameter storage unit 16. Specifically, the set date and time are read from the real-time clock 23, and the time information is attached to the determined parameter and written to the parameter storage unit 16. In this way, the video with the changed parameters can be confirmed on the slave monitor 14 of the collective entrance 1 and can be set to an optimum value. Further, exposure setting can be performed by one setter without operating the dwelling unit parent unit 3.

FIG. 4 shows how the photometric area is changed according to the date and time. In FIG. 4, (a) shows the case of September 23, (b) shows December 22, (c) shows March 21, and (d) shows June 23, respectively, at 7:00 am and noon. An example of a photometric area at 4 o'clock is shown. S represents the sun.
When setting the optimal parameters, as shown in FIG. 4, at least the incident light (angle) of the sun, the season when the brightness is expected to fluctuate greatly (autumn, winter solstice, spring equinox, summer solstice) and the day It is effective to change and set the photometric area and the weight of the photometric quantity every time that greatly fluctuates in one day (for example, 7 am, noon, 4 pm as shown in FIG. 4). By setting the parameters based on the above, it is possible to obtain a good brightness that makes it easy to check the brightness of the visitor displayed on the master monitor 4. This is only an example, and there is no limit to the location and shape of the photometric area and the number of set values for weighting.

In this way, exposure optimization processing can be performed on the basis of the photometric area of the camera 2 captured image and the weighting parameter of the photometric quantity for each season and time period, and the image can be displayed on the master monitor 4. Even if it changes by this, the visibility of the person of the image | video displayed on the main | base station monitor 4 can be improved, without providing a person detection function. In addition, the user can operate the operation unit 17 while displaying and confirming the captured image of the camera 2 on the slave monitor 14 to set or change the photometric area and the weighting parameter of the photometric quantity. Parameters can be easily set to the optimal data for the installation environment.
In addition, since the collective entrance machine 1 is provided with a function for controlling images and changing parameters, the visibility of the base unit monitors 4 of the plurality of base unit base units 3 can be increased by adjusting one place, and necessary circuits are provided. However, it is sufficient to provide as many as the number of the collective entrance machines 1, and the cost increase can be minimized.

  Next, a description will be given of a case where parameters are set by inputting two-dimensional information such as a barcode or QR code to the camera 2. This setting operation is suitable when the setting of the date / time parameter is specifically changed, not the current time parameter. By inputting two-dimensional information such as a barcode or QR code to the camera 2, the pattern recognition unit 13 recognizes it, and the slave CPU 24 stores a plurality of date / time information and photometric areas stored in the pattern information storage unit 18 in advance. The corresponding data is read from the information and weighting information. The read parameter information is written into the parameter storage unit 16 by the slave CPU 24. In this way, parameter information of an arbitrary date and time can be set / changed.

  As described above, since the parameter can be changed simply by holding a predetermined two-dimensional image on the camera 2, when the date and parameter to be set is determined, it can be easily changed by a simple operation. In particular, when inputting parameters throughout the year as shown in FIG. 4 at the time of system construction or the like, it is convenient because it can be input at once.

The operation of setting by the PC 6 from the outside via the Internet N is as follows. The PC 6 includes a keyboard for input operation and a monitor (none of which is shown) for displaying information and video, and operates a slave CPU 24 of the collective entrance 1 to set parameters and the like. The program is installed. A parameter control signal is output by a predetermined operation of the PC 6 and transmitted to the controller 5 via the Internet N. The controller CPU 55 that has received the parameter control signal via the controller third IF 58 recognizes that it is a parameter control signal for adjusting the brightness of the captured image of the camera 2, and transfers from the controller first IF 56 to the collective entrance 1. A parameter control signal is transmitted.
The collective entrance machine 1 that has received the parameter control signal controls the transition to the parameter setting mode in which the slave CPU 24 sets the parameters, and by this mode change, the parameter by the PC 6 is set in the same manner as the parameter setting by the operation of the collective entrance machine 1 described above. Setting is possible.

Further, in the case of setting by the PC 6, it is possible to take out the recorded video from the slave unit video storage unit 24 and change the setting of the recording time parameter of the recorded video. Specifically, in response to a predetermined operation of the PC 6, the slave CPU 24 extracts the video stored in the slave video storage unit 12 together with the imaging time information and transmits it to the PC 6. The video output from the collective entrance machine 1 is transmitted to the PC 6 via the controller 5 and the Internet N and displayed on a monitor (not shown) of the PC 6. Thus, the video is displayed on the PC 6, and the optimum value of the parameter at the imaging date and time of the displayed video can be set while viewing the displayed video. Then, the set parameters are written into the parameter storage unit 16.
The video recorded by the slave unit video storage unit 12 may be recorded automatically in accordance with the imaging operation of the camera 2 or may be recorded by a predetermined operation of the dwelling unit base unit 3.

In this way, the parameters can be changed from the outside using the PC 6. However, in this case, since there is no operator in front of the collective entrance 1, it is difficult to optimally adjust the real-time brightness setting, but the visitor video recorded in advance in the slave unit video storage unit 12 is stored in the PC 6. The parameter can be changed or set by displaying. Therefore, the parameters are set by operating the collective entrance 1 described above by setting or changing the photometric area of the date and time when the video captured by the camera 2 was recorded using the PC 6 and the weighting parameter of the photometric quantity. As with, it can be set optimally for the installation environment according to the season and time.
In addition, since parameters can be set or changed by an external PC 6, it is possible to make adjustments at the same time in an external organization that manages video such as a security company, and it is necessary for residents and users to set them one by one. Easy to use.

In the above embodiment, the collective housing intercom system has been described as an example, but the present invention can also be applied to an intercom system of a detached house. However, in the case of an intercom system installed in a detached house, a controller is not necessary. Therefore, when setting can be performed by the PC 6, it is preferable to provide an interface for connecting the Internet N to the dwelling unit parent unit 3.
In addition, although the configuration in which three types of setting modes are possible is shown, the parameter can be optimally set only by enabling the parameter setting by at least the collective entrance machine 1.
Furthermore, in the case of a configuration in which parameters can be set from the outside using the PC 6, it is not necessary to operate the collective entrance machine, so the slave monitor 14 need not be provided, and the collective entrance machine 1 can be configured simply.
Further, the configuration in which the collective entrance machine 1 is controlled from the outside via the Internet N by the PC 6 is illustrated, but a device dedicated to parameter setting may be used instead of the PC 6.

  1 ・ ・ Collecting entrance machine (entrance machine) 2 ・ ・ Camera 3 ・ ・ Dwelling unit master unit (room unit) 4 ・ ・ Monitoring unit 5 ・ ・ Control unit 6 ・ ・ PC (parameter changing means) 11 .... Video processing unit, 12 .... Slave unit video storage unit, 13 .... Pattern recognition unit, 14 .... Slave unit monitor (entrance unit monitor), 16 .... Parameter storage unit, 17 .... Operation unit (parameter setting) Part), 18 .. pattern information storage part, 23 .. real time clock, 24 .. slave CPU (parameter control part), 58 .. controller third IF (interface).

Claims (5)

A camera for imaging a visitor, a front door equipped with a function for a visitor to call a resident, and a call, a monitor for displaying an image captured by the camera, and a call in response to a call from the front door An intercom system having a room machine with a function to
The entrance unit raises the visibility of the video displayed on the slave unit monitor that displays the captured image of the camera, the slave unit operation unit that activates the camera and displays the video on the slave unit monitor, and Therefore, a parameter storage unit that stores a photometric area of a camera-captured video image for each season and time zone used for exposure optimization processing and a parameter for weighting the photometric amount, a parameter setting unit that changes or sets the parameter, A parameter control unit for controlling change or setting of a parameter, a real-time clock for storing the current date and time, and a video set by the camera using the parameters set by the operation of the parameter setting unit Displayed on the monitor of the slave unit, and according to the imaging date and time of the camera from the parameters stored in the parameter storage unit And image processing is taken out over data, while having an image processing unit to be transmitted to the room unit,
When the parameter control unit receives a change or setting operation by the parameter setting unit, the parameter control unit attaches date and time information of the real-time clock to the changed parameter and registers it in the parameter storage unit. The entrance machine is a collective entrance machine installed at an entrance of an apartment house or the like and having a function of selecting and calling a dwelling unit, and the living room machine is a dwelling unit base unit installed in each dwelling unit of the apartment house. The intercom system according to claim 1, wherein the collective entrance unit and the dwelling unit base unit are connected via a controller that controls a video and audio transmission path between the two units. A camera for imaging a visitor, a front door equipped with a function for a visitor to call a resident, and a call, a monitor for displaying an image captured by the camera, and a call in response to a call from the front door An intercom system having a room machine with a function to
The entrance machine stores a parameter for weighting the photometric area and photometric quantity of the camera-captured video for each season and time zone used for exposure optimization processing for improving the visibility of the video displayed on the monitor A parameter control unit for controlling change or setting of the parameter, a real-time clock for storing the current date and time, and data corresponding to the imaging date and time of the camera is extracted from the parameters stored in the parameter storage unit A video processing unit that performs video processing and transmits the video to the room unit, and a video storage unit that stores a visitor video imaged by the camera together with an imaging date and time,
The entrance machine communicates with a parameter changing unit including a parameter changing operation unit and a video display unit for changing parameters of the parameter storage unit via the Internet,
The video processing unit receives a video display operation of the parameter changing unit, processes the recorded video of the video storage unit with a recording date and time parameter, and transmits the processed video to the video changing unit.
The interphone system, wherein the parameter control unit changes or sets a parameter of an imaging date and time of the recorded video that has been taken out in response to a parameter change or setting operation of the parameter changing unit. The entrance machine is a collective entrance machine installed at a collective entrance such as an entrance of an apartment house and having a function of selecting and calling a dwelling unit, and the dwelling unit is a dwelling unit base unit installed in each dwelling unit, The collective entrance machine and the dwelling unit are connected via a controller that controls video and audio transmission paths between the two, and the controller includes an interface that connects to the Internet.
4. The intercom system according to claim 3, wherein the collective entrance machine communicates with the parameter changing means via the controller. The entrance machine includes a pattern recognition unit that reads two-dimensional information such as a barcode by the camera, and a pattern information storage unit that stores the association between the read two-dimensional information and the parameter,
The parameter control unit reads a corresponding parameter from the pattern information storage unit based on the two-dimensional information read by the pattern recognition unit, and registers the parameter in the parameter storage unit. An intercom system according to any one of the above.

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