JP2018046409A - Image receiver, image transmission equipment, imaging apparatus and system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique which can appropriately separate the use of duplicated image signal transmission of high reliability and the use of a non-duplicated image signal transmission of low reliability, depending on a situation.SOLUTION: An image receiver includes: reception means which can receive, from a plurality of transmission systems, a plurality of either identical or different image signals; display means which displays an image based on each image signal received by the reception means; set means which sets the display means into a first mode, in which one image based on one image signal is displayed, or a second mode in which a plurality of images based on the plurality of image signals are displayed; acquisition means which acquires additional information added to the image signals; and control means which, when the reception means receives the plurality of identical image signals from the plurality of transmission systems, controls the set means on the basis of the additional information acquired by the acquisition means.SELECTED DRAWING: Figure 7

Description

  The present invention relates to an image receiving device, an image transmission device, an imaging device, and a system.

In recent years, with the increase in the number of pixels of image elements, there is an increasing demand for image production of 4K resolution image content that is higher in resolution than the conventional full HD (High Definition). On the other hand, when trying to build a 4K infrastructure using SDI (Serial Digital Interface), which is a conventional image transmission method, the cable wiring and router size are required to be four times that of the conventional HD system, resulting in cost and space. There is a problem in terms.
In order to solve such problems, the image signal is converted into IP (Internet Protocol), and I
A technique for transmitting via a LAN cable using a P network (hereinafter referred to as IP transmission) has attracted attention. In IP transmission, if a communication failure or the like occurs on a transmission path on the way, an image may be lost. In order to suppress such a problem, there is a technique for improving reliability by using a double transmission path to prevent data loss when using IP transmission.

In image production sites such as TV broadcasts and commercials, reliability of IP transmission may or may not be required. For example, when an image signal being transmitted is being broadcast live or recorded, there is a problem if an image is lost in a broadcast image or a stored image, so reliability is required. On the other hand, the transmission of image signals, such as when adjusting each device before the actual recording or when playing back the content of an external recording device, requires reliability because even if images are lost, it does not matter so much. Absent. In such a case, there is no need to duplicate the transmission path.
In addition, when setting a camera at an image production site, it may be required to check images from a plurality of cameras on a single monitor. In such a case, the output image signals of a plurality of cameras are input to the monitor, and the images of the plurality of cameras are confirmed by simultaneously displaying the images on the monitor screen.
As an example of a technique for displaying images from a plurality of cameras on a single monitor, a technique for receiving an image signal obtained by multiplexing output image signals from a plurality of cameras and displaying only an image from a camera that detects specific information. (See Patent Document 1).

JP 2007-257568 A

  An object of the present invention is to provide a technique that can appropriately use image signal transmission with high reliability by duplication and image signal transmission with low reliability without duplication according to the situation.

The present invention comprises a receiving means capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems;
Display means for displaying an image based on the image signal received by the receiving means;
Setting means for setting the display means to a first mode for displaying one image based on one image signal or a second mode for displaying a plurality of images based on a plurality of image signals;
Acquisition means for acquiring additional information added to the image signal;
Control means for controlling the setting means based on the additional information acquired by the acquisition means when the reception means is receiving a plurality of identical image signals from a plurality of transmission systems;
Is an image receiving apparatus.

The present invention comprises a receiving means capable of receiving a plurality of identical image signals from a plurality of transmission systems,
Transmitting means for transmitting the image signal received by the receiving means;
Acquisition means for acquiring additional information added to the image signal;
When the receiving means receives a plurality of the same image signals from a plurality of transmission systems, based on the additional information acquired by the acquisition means, the transmitting means sends a plurality of the same image signals via the plurality of transmission systems. Control means for performing control to transmit,
With
When the additional information added to the image signal is information indicating that it is necessary to transmit a plurality of the same image signals via a plurality of transmission systems, the control unit transmits a plurality of information to the transmission unit. An image transmission apparatus that performs control to transmit a plurality of identical image signals via a transmission system.

The present invention comprises an imaging means;
Transmitting means capable of transmitting an image signal obtained by imaging of the imaging means via a plurality of transmission systems;
Instruction means for giving an instruction regarding recording processing for the image signal transmitted by the transmission means;
Control means for performing control to cause the transmission means to transmit a plurality of identical image signals via a plurality of transmission systems based on an instruction by the instruction means;
With
The control means controls the transmission means to transmit a plurality of identical image signals via a plurality of transmission systems when an instruction to start recording is given by the instruction means. An imaging device.

The present invention provides an image transmission apparatus capable of transmitting a plurality of identical image signals via a plurality of transmission systems;
An image receiving apparatus capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems;
An image transmission device that controls transmission of an image signal transmitted from the image transmission device to the image reception device;
A system comprising:
The image transmission device includes:
A transmission means capable of transmitting an image signal via a plurality of transmission systems;
Instruction means for giving an instruction regarding recording processing for the image signal transmitted by the transmission means;
Control means for performing control to cause the transmission means to transmit a plurality of identical image signals via a plurality of transmission systems based on an instruction by the instruction means;
The control means performs control to cause the transmission means to transmit a plurality of identical image signals via a plurality of transmission systems when an instruction to start recording is given by the instruction means.
The image receiving device includes:
Receiving means capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems;
Display means for displaying an image based on the image signal received by the receiving means;
Setting means for setting the display means to a first mode for displaying one image based on one image signal or a second mode for displaying a plurality of images based on a plurality of image signals;
Acquisition means for acquiring additional information added to the image signal;
Control means for controlling the setting means based on the additional information acquired by the acquisition means when the reception means is receiving a plurality of identical image signals from a plurality of transmission systems;
With
The image transmission device includes:
Receiving means capable of receiving a plurality of identical image signals from a plurality of transmission systems;
Transmitting means for transmitting the image signal received by the receiving means;
Acquisition means for acquiring additional information added to the image signal;
When the receiving means receives a plurality of the same image signals from a plurality of transmission systems, based on the additional information acquired by the acquisition means, the transmitting means sends a plurality of the same image signals via the plurality of transmission systems. Control means for performing control to transmit,
And when the additional information added to the image signal is information indicating that a plurality of identical image signals need to be transmitted via a plurality of transmission systems, In addition, the system performs control for transmitting a plurality of identical image signals via a plurality of transmission systems.

The present invention is a receiving step capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems;
A display step of displaying an image based on the image signal received in the reception step;
A setting step for setting a first mode for displaying one image based on one image signal or a second mode for displaying a plurality of images based on a plurality of image signals in the display step;
An acquisition step of acquiring additional information added to the image signal;
When receiving a plurality of identical image signals from a plurality of transmission systems in the reception step, a control step for controlling the setting step based on the additional information acquired in the acquisition step;
This is a method for controlling an image receiving apparatus having.

The present invention includes a receiving step capable of receiving a plurality of identical image signals from a plurality of transmission systems;
A transmission step of transmitting the image signal received in the reception step;
An acquisition step of acquiring additional information added to the image signal;
When a plurality of identical image signals are received from a plurality of transmission systems in the reception step, a plurality of identical image signals are transmitted through the plurality of transmission systems in the transmission step based on the additional information acquired in the acquisition step. A control process for transmitting
In the control step, when the additional information added to the image signal is information indicating that it is necessary to transmit a plurality of identical image signals via a plurality of transmission systems, the transmission In the process, there is provided a control method for an image transmission apparatus, wherein a plurality of identical image signals are transmitted through a plurality of transmission systems.

The present invention includes an imaging step;
A transmission step capable of transmitting the image signal obtained by the imaging step via a plurality of transmission systems;
An instruction step for instructing a recording process for the image signal transmitted by the transmission step;
Based on the instruction by the instruction process, in the transmission process, a control process for performing control to transmit a plurality of the same image signals via a plurality of transmission systems;
In the control step, when an instruction to start recording is given in the instruction step, the transmission step causes a plurality of identical image signals to be transmitted through a plurality of transmission systems. It is the control method of the imaging device.

  According to the present invention, it is possible to appropriately use image signal transmission with high reliability by duplication and image signal transmission with low reliability without duplication according to the situation.

The figure which shows the structure of the image display system of Example 1. FIG. 1 is a block diagram illustrating a main configuration of an imaging apparatus according to a first embodiment. 1 is a block diagram illustrating a main configuration of an image display apparatus according to a first embodiment. Block diagram showing the main configuration of the IP manager of the first embodiment 1 is a block diagram showing the main configuration of an IP switcher according to a first embodiment. 1 is a block diagram showing the main configuration of an IP switcher according to a first embodiment. Signal output operation flow of IP manager of embodiment 1 Operation Flow of Image Display Device of Embodiment 1 Route switching operation flow of the IP manager of the first embodiment Relationship between the reception mode and the route in the first embodiment Example of image display of image display device of embodiment 1 The figure which shows the structure of the image display system of Example 2. FIG. FIG. 3 is a block diagram illustrating a main configuration of an imaging apparatus according to a second embodiment. Operation Flow of Imaging Device of Embodiment 2

Example 1
Embodiment 1 of the present invention will be described below with reference to the drawings.
The first embodiment relates to an image system in which a plurality of imaging devices and an image display device are connected by an IP network, and each image signal can be duplicated and transmitted. In this system, the IP manager determines whether to duplicate the image signal output to the image display device according to the recording state of the output signal of the imaging device. In this example, switching between the single display mode and the multi display mode is controlled in accordance with whether or not the same image signal transmitted in duplicate is received via a plurality of transmission paths. Here, duplexing of image signals means that two identical image signals are transmitted by two transmission systems. In the first embodiment, an example in which the number of multiplexing is two is shown. However, the present invention can be applied to a system that transmits a plurality of identical image signals by a plurality of transmission systems. The single display mode is a display mode (first mode) for displaying one image based on one image signal received by the image display device. The multi display mode is a display mode (second mode) for displaying a plurality of images based on a plurality of image signals.

  FIGS. 1A and 1B are diagrams illustrating the configuration of the image system in the first embodiment and the flow of image signals in each display mode. FIG. 1A shows the flow of an image signal when the monitor 103 is receiving a duplex image signal for which reliability is required. The monitor 103 displays the duplex image signal output from the camera 101. It is received as it is. In this case, the monitor 103 performs display in a single display mode in which an image based on one image signal is displayed. On the other hand, FIG. 1B shows the flow of an image signal when the monitor 103 receives a plurality of non-redundant image signals whose reliability is not required. The monitor 103 is output from the camera 101. The image signal and the image signal output from the camera 102 are received one by one. In this case, the monitor 103 can display in a multi-display mode that displays two images based on two different image signals, or a single display mode that displays an image based on one image signal selected from the two image signals. It is.

Details of the structure illustrated in FIGS. 1A and 1B will be described.
Reference numerals 101 and 102 denote cameras. Image content such as TV programs and movies is captured. The camera 101 and the camera 102 have the same configuration.
Reference numerals 103 and 104 denote monitors. The monitors 103 and 104 are image receiving devices that display images based on received image signals, and also perform control communication with an IP manager connected via a network. The monitor 103 and the monitor 104 have the same configuration.
Reference numeral 105 denotes an IP manager. The IP manager 105 controls the transmission path of signals input / output from / to each connected device (camera 101, 102, monitor 103, 104 in the first embodiment) on the IP network by controlling the IP switcher 106. An image transmission apparatus is configured. For example, the IP manager 105 manages a transmission path to which monitor the image signal output from the camera is transmitted.

Reference numeral 106 denotes an IP switcher. The IP switcher 106 constitutes an image transmission apparatus that communicates with the IP manager 105 and performs processing for switching the transmission path of each signal based on the communication result.
Reference numerals 107 and 108 denote LAN cables. In order to duplicate and transmit the same image signal as the image output of the camera 101, the LAN cable constitutes two independent transmission systems. Similarly, 109 and 110, 111 and 112, 113 and 114, and 115 and 116 are LAN cables configured to be able to transmit duplex image signals.
A LAN cable 117 connects the IP manager 105 and the IP switcher 106. This is used to perform control communication between the IP manager 105 and the IP switcher 106. The IP manager 105 and the IP switcher 106 may be integrated, or may be configured by separate devices.
Reference numeral 118 denotes a storage. The image signals output from the cameras 101 and 102 are saved (recorded).

Details of the camera 101, the monitor 103, the IP manager 105, and the IP switcher 106 will be described below with reference to FIGS.
FIG. 2 is a block diagram showing the main configuration of the camera 101.
The imaging unit 201 generates an image signal obtained by imaging from a lens or an image sensor, and transmits the image signal to the reliability information adding unit 202 at the subsequent stage.

The reliability information adding unit 202 adds reliability information to the image signal received from the imaging unit 201 based on an instruction related to the recording process for the image signal instructed via the operation unit 203, and duplicates the image signal. Processing to transmit to the IP communication units 204 and 205 is performed. When the camera 101 is recording (when an instruction to record is input to the external device), the output image signal is stored in the storage 118. Image signal transmission control from the camera 101 to the storage 118 is performed by an image transmission apparatus including the IP manager 105 and the IP switcher 106. If a failure occurs in image signal communication during recording, there is a possibility that an image may be lost in the stored data. Therefore, the reliability of image signal transmission is required during recording. Therefore, in the first embodiment, information indicating whether or not recording is being performed is handled as reliability information.
When the user gives an instruction to start recording via the operation unit 203, the reliability information adding unit 202 transmits a plurality of identical image signals to the image signal via a plurality of transmission systems (image signal). Adds reliability information indicating that it is necessary to make a duplicate during transmission. The camera 101 adds the reliability information and transmits the image signal in a duplex manner. On the other hand, when the user gives an instruction to stop recording via the operation unit 203, the reliability information adding unit 202 transmits a plurality of identical image signals to the image signal via a plurality of transmission systems ( Reliability information indicating that there is no need to duplicate the image signal during transmission is added. The camera 101 adds the reliability information and transmits the image signal in a duplex manner. In the first embodiment, the image transmission from the camera 101 is always duplexed, but information indicating that recording is being performed is added to the image signal under the condition of recording that requires high reliability. Under the condition that recording is stopped, such information is not added, but the image signal is duplicated and transmitted.

The IP communication unit 204 performs processing for outputting the image signal received from the reliability information adding unit 202 to the LAN cable 107. Similarly, the IP communication unit 205 also outputs an image signal from the LAN cable 108. With these two systems of IP communication units, the camera 101 can duplicate and transmit image signals obtained by the imaging of the imaging unit 201.
The operation unit 203 changes the setting of the camera 101 in accordance with a user operation. Via the operation unit 203, the user can instruct the processing at the destination device for the image signal transmitted by the IP communication unit. In the first embodiment, the operation unit 203 allows the user to perform an operation of inputting a recording start / stop instruction. Recording information indicating the start / stop of recording is transmitted to the reliability information adding unit 202. The camera 101 controls duplexing of image signal transmission by the IP communication unit based on an instruction input from the operation unit 203.
Thus, the camera 101 always doubles and outputs the image signal generated by the imaging unit 201 and to which reliability information is added. Note that the camera 101 may be configured to be able to select output without duplication by a user operation or external control.

FIG. 3 is a block diagram showing the main configuration of the monitor 103.
The IP communication unit 301 communicates image signals and control signals via the LAN cable 111. Similarly, the IP communication unit 302 also communicates image signals and control signals via the LAN cable 112. The monitor 103 can receive image signals from the plurality of independent transmission systems, and can receive duplicated image signals or a plurality of different image signals.

The operation unit 303 is a button for operating the display. The user can change the setting of the monitor 103 by displaying and operating an OSD (On Screen Display) menu by operating the operation unit 303. In the first embodiment, it is used for the user to perform an operation of switching the display mode. The display mode includes a single display mode (first mode) for displaying an image based on one type of image signal and a multi-display mode (second mode) for displaying an image based on two types of image signals. In the single display mode, when one type of image signal to be displayed is not duplicated, it is received by one system, and when it is duplicated, the same image signal is received by two systems. In the multi-display mode, two types of image signals to be displayed are received by two systems. When an image signal that requires high reliability is received, the same duplicated image signal is received through two transmission paths and displayed in a single display mode. When an image signal that does not require high reliability is received, one image signal that is not duplexed is received through one transmission path and displayed in a single display mode, or two image signals that are not duplexed Are respectively received by two transmission paths and displayed in the multi-display mode.

  The determination unit 304 determines whether or not display mode switching can be performed depending on whether or not the IP communication units 301 and 302 have received duplex images. When the duplexed image signal is received, the image signal for which reliability is required is received, and the determination unit 304 sets the display mode to the single display mode. The determination unit 304 automatically sets the display mode to the single display mode when detecting the reception of the duplexed image signal in the state set to the multi display mode. On the other hand, when an image signal that has not been duplicated is received, an image signal for which reliability is not required is received, and therefore the determination unit 304 does not automatically set the reception mode to the single display mode. do not do. The determination unit 304 maintains the setting of the single display mode if the display unit 306 is set to the single display mode, and maintains the setting of the multi display mode if the display unit 306 is set to the multi display mode. In addition, when switching from the single display mode to the multi display mode or switching from the multi display mode to the single display mode is requested, the determination unit 304 performs switching of the display mode as requested. In addition, when the duplexed image signal is received, if there is a request to switch the display mode from the single display mode to the multi display mode, the display mode is not switched. Note that switching to the multi-display mode may be permitted only when there is an explicit request from the user when receiving a duplex image signal.

The display processing unit 305 performs image signal display processing. The display processing includes processing such as scaling processing for enlarging / reducing the image signal and layout processing for arranging the images so that images based on the two image signals are displayed side by side, vertically, or in a grid pattern.
The display unit 306 displays an image based on the image signal acquired from the display processing unit 305.

FIG. 4 is a block diagram showing the main configuration of the IP manager 105. When the image signal received by the IP switcher 106 is duplicated, the IP manager 105 performs processing for causing the IP switcher 106 to transmit the duplicated image signal. In addition, when the image signal received by the IP switcher 106 is not duplexed, the IP manager 105 causes the IP switcher 106 to transmit a non-duplexed image signal.
The IP communication unit 401 communicates with the IP switcher 106. In the first embodiment, the IP communication unit 401 acquires reliability information that is additional information added to the output image signal of the camera. The IP communication unit 401 performs communication of a control signal indicating a received image switching instruction of each monitor and communication path information indicating a communication path of an image signal of the IP switcher 106.

The duplex determination unit 402 determines whether to duplex the image signal output from the IP switcher 106 based on the reliability information acquired from the IP communication unit 401. When the reliability information is information indicating that reliability is required for image transmission, the duplex determination unit 402 determines to duplex the image transmission. When the image signal received by the IP switcher 106 is duplexed and the additional information added to the image signal is information indicating that it is necessary to duplex when transmitting the image signal, the duplex determination unit 402 106 causes the duplexed image signal to be transmitted. On the other hand, when the reliability information is information indicating that reliability is not required for image transmission, the duplex determination unit 402 determines that duplex is unnecessary. The duplex determination unit 402 determines that the IP switcher 106 receives the IP signal when the image signal received by the IP switcher 106 is duplexed and the additional information of the image signal is information that does not need to be duplexed when the image signal is transmitted. The non-duplicated image signal is transmitted.
When the additional information is information indicating that the image signal is recorded or information indicating that the image signal is being transmitted live, it is necessary to duplex the additional information when transmitting the image signal. It may be determined that the information is present. Further, the duplex determination unit 402 duplexes the additional information when transmitting the image signal when the additional information is information indicating that the image signal is an image signal obtained by reproducing an image recorded in the external recording device. It may be determined that the information is not necessary.

  The path control unit 403 performs control to transmit communication path information indicating the communication path of the IP switcher 106 determined based on the determination result of the duplex determination unit 402 to the IP switcher 106 via the IP communication unit 401. The path control unit 403 is also a control for transmitting communication path information to the IP switcher 106 via the IP communication unit 401 even when the IP communication unit 401 communicates a control signal indicating a received image switching instruction of each monitor. I do. The received image switching instruction of the monitor is, for example, a single display mode for displaying one image based on one image signal on one screen, and a multi-display mode for displaying a plurality of images based on a plurality of image signals on one screen. This is an instruction for switching.

5A and 5B show a case where the main configuration of the IP switcher 106 and the reception mode of the monitor 103 are operating in the single reception mode (A) and a case where the operation is in the multiple reception mode. It is a block diagram which shows the flow of the image signal of (B).
The IP communication unit 501 communicates the image signal of the camera 101 connected by the LAN cable 107 and transmits the received image signal to the IP signal control unit 512.
The IP communication unit 502 communicates the image signal of the camera 101 connected by the LAN cable 108 and transmits the received image signal to the IP signal control unit 512.
The IP communication unit 503 communicates the image signal of the camera 102 connected by the LAN cable 109 and transmits the received image signal to the IP signal control unit 512.
The IP communication unit 504 communicates the image signal of the camera 102 connected by the LAN cable 110 and transmits the received image signal to the IP signal control unit 512.
The IP switcher 106 can receive duplicated image signals transmitted from the camera 101 by the IP communication units 501 and 502.

The IP communication unit 505 transmits the image signal received from the IP signal control unit 512 to the monitor 103 connected by the LAN cable 111. In addition, a control signal indicating a received image switching instruction received from the monitor 103 is transmitted to the IP signal control unit 512.
The IP communication unit 506 transmits the image signal received from the IP signal control unit 512 to the monitor 103 connected by the LAN cable 112. In addition, a control signal indicating a received image switching instruction received from the monitor 103 is transmitted to the IP signal control unit 512.
The IP communication unit 507 transmits the image signal received from the IP signal control unit 512 to the monitor 104 connected by the LAN cable 113. In addition, a control signal indicating a received image switching instruction received from the monitor 104 is transmitted to the IP signal control unit 512.
The IP communication unit 508 transmits the image signal received from the IP signal control unit 512 to the monitor 104 connected by the LAN cable 114. In addition, a control signal indicating a received image switching instruction received from the monitor 104 is transmitted to the IP signal control unit 512.
The IP switcher 106 can transmit the image signal received from the camera 101 to the monitor 103 by the IP communication units 505 and 506.

The IP communication unit 509 transmits the image signal received from the IP signal control unit 512 to the storage 118 connected by the LAN cable 115.
The IP communication unit 510 transmits the image signal received from the IP signal control unit 512 to the storage 118 connected by the LAN cable 116.

The IP communication unit 511 communicates control signals with the IP manager 105 connected by the LAN cable 117.
The IP signal control unit 512 communicates with the IP manager 105 via the IP communication unit 511 and acquires communication path information indicating which image signal is transmitted to each monitor and the storage 118. Based on this, control is performed to transmit each image signal received from the IP communication units 501 to 504 to any of the IP communication units 505 to 510. The IP manager 105 also communicates a control signal indicating a received image switching instruction of each monitor.

The flow of the image signal of the IP switcher 106 shown in FIGS. 5A and 5B will be described.
FIG. 5A shows an image signal when the monitor 103 and 104 receive a duplex image signal in the single display mode when high reliability is required and store the output image signal of the camera 101 in the storage 118. Shows the flow. The IP signal control unit 512 controls the image signal received by the IP communication unit 501 to be transmitted to the IP communication unit 505 and the IP communication unit 509. Similarly, the image signal received by the IP signal unit 502 is sent to the IP communication unit 506 and the IP communication unit 510, the image signal received by the IP signal unit 503 is sent to the IP communication unit 507, and the image signal received by the IP signal unit 504 is sent. Control is performed for transmission to each of the IP communication units 508.

  On the other hand, FIG. 5B stops storing the output image signal of the camera 101 in the storage 118 from the state of FIG. 5A, and the monitor 103 is switched to the multi-display mode where high reliability is not required. The example of the flow of the image signal in the case is shown. The IP signal control unit 512 performs control to transmit the image signal received from the IP communication unit 503 to the IP communication units 506 and 507 without transmitting the image signal received by the IP communication unit 502 anywhere. The IP communication units 509 and 510 connected to the storage 118 are controlled not to transmit image signals.

FIG. 6 is an operation flow for determining whether or not to duplicate and output an image signal based on the reliability information acquired from the IP switcher 106 by the IP manager 105 and controlling the communication path of the IP switcher 106.
In S <b> 601 of FIG. 6, the IP manager 105 acquires image signal reliability information from the IP switcher 106 via the IP communication unit 401. In the first embodiment, recording information added to the output image signal of the camera is acquired as the reliability information.

  In step S602, the duplex determination unit 402 determines whether or not the recording information is recording start. If the recording information is recording start, it is determined that the image signal needs to be duplicated and output because reliability is required, and the process proceeds to S603. In the case of recording stop, since reliability is not required, it is determined that there is no need to duplicate and output, and the process proceeds to S604.

  In step S603, the path control unit 403 creates communication path information on which the image signal output from the IP switcher 106 to the monitor is duplexed based on the determination result that it is necessary to duplex and output in step S602. To the unit 401.

  In step S604, based on the determination result that the route control unit 403 does not need to output the duplicated signal in step S602, communication path information on which the image signal output from the IP switcher 106 to the monitor is transmitted by one transmission system is obtained. It is created and transmitted to the IP communication unit 401.

  In step S <b> 605, the IP communication unit 401 transmits the communication route information acquired from the route control unit 403 to the IP switcher 106 and controls the communication route of the IP switcher 106.

FIG. 7 shows the operation of the monitor 103 that detects the user's instruction to switch to the multi-display mode and controls the switch to the multi-display mode depending on whether or not the same duplicated image signal is received. Indicates. This process is mainly executed by the determination unit 304.
In step S <b> 701, the monitor 103 determines whether the operation unit 303 has an instruction to switch from the single display mode to the multi display mode by a user operation. If there is a switching instruction, the operation unit 303 issues a determination instruction to the determination unit 304, and the process proceeds to S702. If there is no switching instruction, the flow ends.

  In step S702, the determination unit 304 determines whether a duplicated image signal is received. The determination unit 304 acquires information on whether or not the received image signal is duplexed from the IP communication units 301 and 302. If the image signal is not duplicated, the process proceeds to S703. If the image signal is duplicated, the flow ends. The determination unit 304 determines that a duplexed image signal is received when the same image signal is received by two transmission systems (IP communication units).

  Note that the determination unit 304 acquires additional information added to the image signal, and when the additional information added to the image signal is information indicating that the image signal is duplicated, the duplicated image signal is obtained. May be determined to be received. For example, the determination unit 304 receives the duplexed image signal when the additional information is information indicating that the image signal is recorded or information indicating that the image signal is being transmitted live. May be determined. Further, when the additional information is information indicating that the image signal is an image signal obtained by reproducing the image recorded in the external recording device, the determination unit 304 does not receive the duplicated image signal. You may judge.

  In step S <b> 703, the determination unit 304 instructs the IP communication unit 301 to switch the display mode from the single display mode to the multi display mode. The IP communication unit 301 is set to be able to receive an image signal different from that of the IP communication unit 302.

In step S <b> 704, the IP communication unit 301 performs control communication requesting the IP manager 105 to switch transmission images so as to transmit a plurality of image signals. In the first embodiment, control communication is performed so that the LAN cable 111 transmits the image signal of the camera 101 and the LAN cable 112 transmits the image signal of the camera 102 to the monitor 103 from the IP switcher 106 as before the switching.

In step S <b> 705, the IP communication unit 301 receives the image signal of the camera 101 from the LAN cable 111, and the IP communication unit 302 receives the image signal of the camera 102 from the LAN cable 112. The display processing unit 305 performs a scaling process for enlarging / reducing an image, a layout process for arranging an image on the display unit 306, and the like on the two image signals. In the first embodiment, as shown in FIG. 10B, scaling processing and layout processing are performed so that two received images A (image of the camera 101) and image B (image of the camera 102) are displayed side by side. Do.
In this example, when a request for switching to the multi display mode is detected, if the received image signal is not duplicated, an example of controlling to execute switching to the multi display mode as shown is shown. Such control is also possible. For example, when the monitor 103 is set to the multi display mode and the image of two different image signals is displayed and a duplicated image signal is received, a control to automatically switch to the single display mode is performed. May be. By performing such control, the user can display the image in the display mode when reception of an image signal that requires high reliability is started while the image signal that does not require high reliability is displayed on two screens. The single display mode can be automatically switched without being aware of switching. Therefore, convenience and reliability are improved.

FIG. 8 is a flowchart showing an operation in which the IP manager 105 controls the IP switcher 106 when a control signal is received from the monitor 103 in S704 of FIG.
In step S801, when the IP manager 105 receives a request for transmitting a plurality of image signals from the monitor 103, the process proceeds to step S802. If not, the flow ends.

  In step S <b> 802, the IP manager 105 controls the IP switcher 106 to transmit image transmission to the monitor 103 from a state where one image signal is transmitted by one system, and a plurality of different image signals respectively by a plurality of systems. Switch as follows.

  In the first embodiment, as shown in FIG. 9, in the single display mode before the display mode is switched, the IP manager 105 sets the IP switcher 106 to transmit the image signal of the camera 101 to the LAN cable 111 to the monitor 103. Control. Further, the IP switcher 106 is controlled so that no image signal is transmitted to the LAN cable 112. Thereby, an image signal that does not require high reliability is transmitted without being duplicated. After switching the display mode to the multi-display mode, the IP manager 105 controls the IP switcher 106 so that the LAN cable 111 transmits the image signal of the camera 101 and the LAN cable 112 transmits the image signal of the camera 102 to the monitor 103. . It is also possible to receive and display a duplicated image signal in the single display mode. In that case, the IP manager 105 controls the IP switcher 106 so as to transmit the image signal of the camera 101 through both the LAN cables 111 and 112. In the state of FIG. 5A, the image signal of the camera 101 received from the camera 101 via the LAN cable 108 is transmitted to the LAN cable 112, and the duplexed image signal is transmitted.

In the first embodiment, the IP manager controls the determination of reliability and switching of the image signal communication path. However, the control function described above may be configured inside the IP switcher or the monitor. For example, when a request for switching from the single display mode to the multiple display mode is input from the user in the monitor, the monitor transmits the request to the IP switcher, and the IP manager duplexes the image signal transmitted to the request source monitor. It is determined whether or not. When the image signal is duplicated, the switching request from the monitor is not executed. When the image signal is not duplicated, the display mode is switched to the multi display mode according to the switching request from the monitor.
In the first embodiment, an example is shown in which the camera adds reliability information. However, other connected devices may add reliability information, and the monitor may switch the reception mode according to the information. For example, when an image of an external recording device connected via an IP network is displayed on a monitor, the external recording device outputs an output signal as reliability information indicating whether or not an image stored in the external recording device is being output. May be added. In addition, whether or not live transmission is being performed may be added to the image signal output to the monitor by the IP manager as reliability information.

  As described above, the first embodiment relates to an image system in which a plurality of imaging devices and an image display device are connected by an IP network. In this system, the IP manager determines whether to duplicate the image signal output to the image display device according to the recording state of the image signal. When the user instructs the image display apparatus to switch the reception mode, the image reception mode is switched according to whether or not the received image signal is duplicated.

  Thus, for example, an image system is assumed in which a plurality of cameras that are capturing images in the same studio and a plurality of monitors that check images of the respective cameras are connected via an IP network. In this system, when receiving an image signal that requires reliability, such as during live broadcasting or recording, the reliability can be ensured by receiving the duplicated image signal. On the other hand, when an image signal that does not require reliability is received, images of a plurality of image signals including images of different cameras can be displayed simultaneously on the monitor. Can be confirmed at the same time, and convenience is improved. No additional equipment such as an additional monitor is required.

(Example 2)
Example 2 of the present invention will be described below with reference to the drawings. In the description of the second embodiment, the description of the portions common to the above-described first embodiment will be omitted as appropriate.
In the first embodiment, the IP manager determines whether to duplicate the image signal output to the image display device according to the recording state of the imaging device. On the other hand, the second embodiment shows an example in which it is determined whether or not the image signal output by the imaging apparatus is to be duplexed according to the recording state, and whether the output is not duplexed or the duplexed output is switched.

FIG. 11 shows the configuration of the image system according to the second embodiment.
Details of the camera 1101 according to the second embodiment will be described below with reference to FIG. The configuration of the monitor 103, the IP manager 105, and the IP switcher 106 is the same as that of the first embodiment, and a description thereof will be omitted.

FIG. 12 is a block diagram illustrating a main configuration of the camera 1101.
The duplex determination unit 206 determines whether or not to duplex the output image signal based on the recording start / stop information set by the user operating the operation unit 203.
The IP communication unit 204 performs processing for outputting the image signal received from the imaging unit 201 from the LAN cable 107. Similarly, the IP communication unit 205 performs processing for outputting an image signal from the LAN cable 108.

FIG. 13 is an operation flow in which the camera 1101 determines whether to output an image signal in a duplex manner according to the start / stop state of recording, and outputs the image signal.
In step S1301 of FIG. 13, the camera 1101 determines whether recording has started. The duplex determination unit 206 acquires the recording information operated / set by the user from the operation unit 203. When the recording information is recording start, that is, when an instruction to start recording is given by the user via the operation unit 203, the duplex determination unit 206 needs to duplex and output the image signal because reliability is required. It is determined that there is, and the process proceeds to S1302. When recording is stopped, that is, when an instruction to stop recording is given by the user via the operation unit 203, the duplex determination unit 206 determines that there is no need to duplex and output because reliability is not required. The process proceeds to S1303.

  In step S <b> 1302, the camera 1101 duplexes and transmits the image signal acquired from the imaging unit 201. The IP communication unit 204 is duplicated by outputting an image signal to the LAN cable 107 and the IP communication unit 205 to the LAN cable 108, respectively.

In step S1303, the camera 1101 transmits the image signal acquired from the imaging unit 201 only for one system, that is, without duplication. The IP communication unit 204 outputs the image signal acquired from the imaging unit 201 to the LAN cable 107. The IP communication unit 205 does not output an image signal. In addition, when transmitting without duplicating an image signal, the image signal may be transmitted using either of two IP communication units.
Since the operations of the monitor 103 and the IP manager 105 in the second embodiment are the same as the operations in the flow of FIGS. 7 and 8 described in the first embodiment, description thereof will be omitted.

As described above, in the second embodiment, in an image system in which a plurality of imaging devices and an image display device are connected by an IP network, it is necessary to duplex the image signal output by the imaging device according to the recording state. And switching whether or not to output a duplicated image signal. When the user instructs the image display apparatus to switch the display mode, it is possible to control the switching of the image display mode depending on whether or not the received image signal is duplicated.
As a result, the user can check the images of a plurality of cameras on a single monitor, and can reduce the bandwidth of the transmission path of the output image signal of the camera when reliability is not required for transmission. .
In each of the above-described embodiments, the monitor has been described as an example of the image receiving device. For example, the present invention can be applied to an image receiving apparatus having the following configuration. The image receiving apparatus includes receiving means capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems. The image receiving apparatus further sets a first mode in which image processing is performed on one image based on one image signal, or a second mode in which image processing is performed on a plurality of images based on a plurality of image signals. Have The image receiving apparatus further includes an acquiring unit that acquires additional information added to the image signal, and when the receiving unit receives a plurality of identical image signals from a plurality of transmission systems, the additional information acquired by the acquiring unit. And a control means for controlling the setting of the setting means. According to this image receiving device, when it is determined that it is necessary to receive a plurality of the same image signals via a plurality of transmission systems based on the additional information, the setting means sets the image receiving device to the first mode. Can be set to In addition, when it is determined that it is not necessary to receive a plurality of identical image signals via a plurality of transmission systems based on the additional information, the setting unit sets the image receiving apparatus to the first mode or the second mode. can do. In particular, when a plurality of different image signals are received from a plurality of transmission systems, it is possible to perform image processing on a plurality of different images in parallel or simultaneously by setting the second mode. In addition, the examples (recording, live transmission, etc.) given in the above-described embodiments as conditions that require high-reliability transmission by duplexing are merely examples, and are not limited thereto.

(Other examples)
The present invention supplies a program that realizes one or more functions of the above-described embodiments to a system or apparatus via a network or a storage medium, and one or more processors in a computer of the system or apparatus read and execute the program This process can be realized. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.

101, 102: camera, 103, 104: monitor, 105: IP manager, 106: IP switcher, 206: duplex determination unit, 304: switching permission determination unit, 305: display processing unit, 306: display unit, 402: duplex determination Section, 403: path control section

Claims (13)

Receiving means capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems;
Display means for displaying an image based on the image signal received by the receiving means;
Setting means for setting the display means to a first mode for displaying one image based on one image signal or a second mode for displaying a plurality of images based on a plurality of image signals;
Acquisition means for acquiring additional information added to the image signal;
Control means for controlling the setting means based on the additional information acquired by the acquisition means when the reception means is receiving a plurality of identical image signals from a plurality of transmission systems;
An image receiving apparatus comprising: When the control means determines that it is necessary to receive a plurality of identical image signals via a plurality of transmission systems based on additional information added to the image signal, the setting means displays the display means. The image receiving apparatus according to claim 1, wherein the image receiving apparatus is set to the first mode.   When the additional information is information indicating that the image signal is recorded or information indicating that the image signal is being transmitted live, a plurality of transmission systems are used. When it is determined that it is necessary to receive the same image signal, and the additional information is information indicating that the image signal is an image signal obtained by reproducing an image recorded in an external recording device, The image receiving apparatus according to claim 2, wherein it is determined that it is not necessary to receive a plurality of identical image signals via a plurality of transmission systems. Receiving means capable of receiving a plurality of identical image signals from a plurality of transmission systems;
Transmitting means for transmitting the image signal received by the receiving means;
Acquisition means for acquiring additional information added to the image signal;
When the receiving means receives a plurality of the same image signals from a plurality of transmission systems, based on the additional information acquired by the acquisition means, the transmitting means sends a plurality of the same image signals via the plurality of transmission systems. Control means for performing control to transmit,
With
When the additional information added to the image signal is information indicating that it is necessary to transmit a plurality of the same image signals via a plurality of transmission systems, the control unit transmits a plurality of information to the transmission unit. An image transmission apparatus that performs control to transmit a plurality of identical image signals via a transmission system.   When the additional information added to the image signal is information indicating that it is not necessary to transmit a plurality of identical image signals via a plurality of transmission systems, The image transmission apparatus according to claim 4, wherein control is performed to transmit a plurality of identical image signals via a transmission system.   When the additional information is information indicating that the image signal is recorded or information indicating that the image signal is being transmitted live, a plurality of transmission systems are used. When it is determined that it is necessary to receive the same image signal, and the additional information is information indicating that the image signal is an image signal obtained by reproducing an image recorded in an external recording device 6. The image transmission device according to claim 4, wherein it is determined that it is not necessary to receive a plurality of identical image signals via a plurality of transmission systems. Imaging means;
Transmitting means capable of transmitting an image signal obtained by imaging of the imaging means via a plurality of transmission systems;
Instruction means for giving an instruction regarding recording processing for the image signal transmitted by the transmission means;
Control means for performing control to cause the transmission means to transmit a plurality of identical image signals via a plurality of transmission systems based on an instruction by the instruction means;
With
The control means controls the transmission means to transmit a plurality of identical image signals via a plurality of transmission systems when an instruction to start recording is given by the instruction means. Imaging device.   8. The imaging apparatus according to claim 7, wherein the control unit causes the transmission unit to transmit the image signal via one transmission path when an instruction to stop recording is given by the instruction unit.   The control means adds information indicating that a plurality of identical image signals need to be transmitted via a plurality of transmission systems to the image signal when an instruction to start recording is given by the instruction means. And when the instruction means instructs to stop recording, the image signal is added with information indicating that it is not necessary to transmit a plurality of identical image signals via a plurality of transmission systems. The imaging apparatus according to 7 or 8. An image transmission device capable of transmitting a plurality of identical image signals via a plurality of transmission systems;
An image receiving apparatus capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems;
An image transmission device that controls transmission of an image signal transmitted from the image transmission device to the image reception device;
A system comprising:
The image transmission device includes:
A transmission means capable of transmitting an image signal via a plurality of transmission systems;
Instruction means for giving an instruction regarding recording processing for the image signal transmitted by the transmission means;
Control means for performing control to cause the transmission means to transmit a plurality of identical image signals via a plurality of transmission systems based on an instruction by the instruction means;
The control means performs control to cause the transmission means to transmit a plurality of identical image signals via a plurality of transmission systems when an instruction to start recording is given by the instruction means.
The image receiving device includes:
Receiving means capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems;
Display means for displaying an image based on the image signal received by the receiving means;
Setting means for setting the display means to a first mode for displaying one image based on one image signal or a second mode for displaying a plurality of images based on a plurality of image signals;
Acquisition means for acquiring additional information added to the image signal;
Control means for controlling the setting means based on the additional information acquired by the acquisition means when the reception means is receiving a plurality of identical image signals from a plurality of transmission systems;
With
The image transmission device includes:
Receiving means capable of receiving a plurality of identical image signals from a plurality of transmission systems;
Transmitting means for transmitting the image signal received by the receiving means;
Acquisition means for acquiring additional information added to the image signal;
When the receiving means receives a plurality of the same image signals from a plurality of transmission systems, based on the additional information acquired by the acquisition means, the transmitting means sends a plurality of the same image signals via the plurality of transmission systems. Control means for performing control to transmit,
And when the additional information added to the image signal is information indicating that a plurality of identical image signals need to be transmitted via a plurality of transmission systems, And a control system for transmitting a plurality of identical image signals via a plurality of transmission systems. A receiving step capable of receiving a plurality of identical image signals or a plurality of different image signals from a plurality of transmission systems;
A display step of displaying an image based on the image signal received in the reception step;
A setting step for setting a first mode for displaying one image based on one image signal or a second mode for displaying a plurality of images based on a plurality of image signals in the display step;
An acquisition step of acquiring additional information added to the image signal;
When receiving a plurality of identical image signals from a plurality of transmission systems in the reception step, a control step for controlling the setting step based on the additional information acquired in the acquisition step;
A method for controlling an image receiving apparatus. A receiving step capable of receiving a plurality of identical image signals from a plurality of transmission systems;
A transmission step of transmitting the image signal received in the reception step;
An acquisition step of acquiring additional information added to the image signal;
When a plurality of identical image signals are received from a plurality of transmission systems in the reception step, a plurality of identical image signals are transmitted through the plurality of transmission systems in the transmission step based on the additional information acquired in the acquisition step. A control process for transmitting
In the control step, when the additional information added to the image signal is information indicating that it is necessary to transmit a plurality of identical image signals via a plurality of transmission systems, the transmission A method of controlling an image transmission apparatus, comprising: transmitting a plurality of identical image signals via a plurality of transmission systems in the process. Imaging process;
A transmission step capable of transmitting the image signal obtained by the imaging step via a plurality of transmission systems;
An instruction step for instructing a recording process for the image signal transmitted by the transmission step;
Based on the instruction by the instruction process, in the transmission process, a control process for performing control to transmit a plurality of the same image signals via a plurality of transmission systems;
In the control step, when an instruction to start recording is given in the instruction step, the transmission step causes a plurality of identical image signals to be transmitted through a plurality of transmission systems. Control method for imaging apparatus.

Images