JPH10136345A - Information service system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the information service system in which a video image picked up by a remote camera is converted into a video image with desired resolution and a desired frame rate and guide information is added to the converted image. SOLUTION: A camera 101 that revises an image pickup direction and a zoom magnification depending on a command from the user picks up a desired area. A camera controller 102 detects the image pickup direction and the zoom magnification of the camera 101 to convert the picked-up video image into that with a desired resolution and a desired frame rate and generates guide information. A terminal equipment 103 receives the video image picked up by the camera 101 via a network 105 and guide information to generate an output video image. A monitor 104 displays an output video image of the terminal equipment 103. The network 105 sends control data and a video image sent/received between the camera controller 102 and the terminal equipment 103.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention improves the operability of a remote camera in an information providing system or a surveillance system using a remote camera by adding guide information to an image or simulating the movement of the camera. Regarding technology
Particularly, real-time video display on a low-speed network is enabled by changing the resolution of the video.

[0002]

2. Description of the Related Art In recent years, it has become possible to connect a television camera located at a remote place to a telephone line or a computer network to view its image. In addition, a desired image can be obtained by controlling the camera remotely and controlling the shooting direction and the zoom magnification.

Japanese Patent Laid-Open Publication No. Hei 6-233169 discloses an invention which shows which part of a video image shot in wide mode is zoomed in order to accurately determine where the camera is facing in a zoomed state. Is disclosed.

[0004] Japanese Patent Application Laid-Open No. Hei 6-22193 discloses that
In order to realize comfortable camera control on a low-speed network, there is disclosed an invention in which a camera control end point is recorded and camera control is returned to that point.

Further, in the conventional remote camera system, it is possible to capture images captured by the camera electronically at several resolutions, and to select a low resolution video when the network transmission speed is low. Is possible.

[0006]

In a system using a remote camera, it is important to grasp information on a remote place in real time in an easy-to-understand manner. However, conventional systems do not adequately meet these requirements.

[0007] For example, in the system disclosed in Japanese Patent Laid-Open No. Hei 6-233169, a still image in a range that can be photographed by a camera is presented. However, a person who looks at the video of the remote camera on the monitor of the terminal for the first time cannot accurately determine what is shown in the video of the camera.

In the system disclosed in Japanese Patent Application Laid-Open No. 6-22193, the camera moves as operated by the operator of the camera, but when the frame rate (the number of frames) of the image is small, the next image is displayed. The camera must be controlled while making predictions, and an accurate operation cannot be performed.

Although a conventional remote camera can capture an image at several levels of resolution, the resolution of the image once captured cannot be changed. further,
Since the sampling resolution is changed by converting the sampling rate, the type of resolution is limited.

[0010]

In order to solve the above-mentioned problems in the prior art, the present invention is provided with a coordinate calculating means for determining an area of an image captured by a camera. As a result, it is possible to insert the guide information prepared in advance into the video captured by the camera.

Furthermore, since the motion of the camera can be simulated on the video receiving side by interpolating frames based on the coordinates of the photographing area, accurate camera control can be performed even at a low frame rate compared to the motion of the camera. It is possible to do.

In addition, by controlling the area of the image transmitted from the camera and the zoom magnification in association with each other based on the coordinates of the photographing area, it is possible to transmit an image having an arbitrary resolution or a frame rate.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION
A camera that can change the shooting direction and zoom magnification, a camera control device that controls the shooting direction and zoom magnification of the camera, and transmits a video shot by the camera, and a terminal that receives video shot by the camera and generates an output video, In an information providing system including a monitor that displays an output image of a terminal, and a network that transmits control data and video transmitted and received between the camera control device and the terminal, the camera control device converts a video captured by a camera. Image transmitting means for transmitting to a terminal via a network, camera information recording means for recording a photographing direction and zoom magnification, coordinate calculating means for calculating an area photographed by the camera based on the photographing direction and zoom magnification, Guidance information recording means for recording a position where information and guidance information are to be inserted, and guidance information recorded in the guidance information recording means are calculated by coordinate calculation means. If included in the imaging region that is,
Guide information determining means for calculating the display position of the guide information on the screen, and guide information transmitting means for transmitting the display position and the guide information calculated by the guide information determining means to the terminal via a network, wherein the terminal A video receiving means for receiving the video transmitted by the video transmitting means of the camera control device via the network, a guide information receiving means for receiving the guide information transmitted by the guide information transmitting means and its display position via the network, A guide information synthesizing means for synthesizing the video received by the video receiving means and the guide information received by the guide information receiving means in accordance with the display position of the guide information and outputting the synthesized information to a monitor; The guide information thus inserted can be inserted into the video on the terminal side.

According to a second aspect of the present invention, there is provided a camera capable of changing a photographing direction and a zoom magnification, a camera control device for controlling the photographing direction and the zoom magnification of the camera and transmitting a photographed image of the camera, and a camera. An information providing system including a terminal that receives a captured video and generates an output video, a monitor that displays an output video of the terminal, and a network that transmits control data and video transmitted and received between the camera control device and the terminal. In the above, the camera control device is configured to transmit a video to a terminal via a network, a video transmitting unit, a camera information recording unit for recording a capturing direction and a zoom magnification, and the camera capturing an image based on the capturing direction and the zoom magnification. Coordinate calculation means for calculating an area, guidance information recording means for recording guidance information and a position where the guidance information is to be inserted, and guidance information recording means When the inside information is included in the photographing area calculated by the coordinate calculating means, the guide information determining means for calculating the display position of the guide information on the screen, and the display position of the captured image of the camera calculated by the guide information determining means And video guide information synthesizing means for inserting guide information, wherein the terminal comprises video receiving means for receiving the video transmitted by the video transmitting means of the camera control device via a network and outputting the video to a monitor. Thus, guide information can be inserted into the video on the camera control device side.

According to a third aspect of the present invention, a camera control device further includes a command receiving means for receiving a control command from a terminal via a network, and a camera control means for controlling the camera in accordance with the command received by the command receiving means. Means, the terminal further comprising: a camera control interface for receiving a command for changing the photographing direction and zoom magnification of the camera from a user or an application; and a command receiving means for the camera control device via a network, the command received by the camera control interface. The camera can be controlled by sending a command from the terminal side, and guidance can be added to the video in conjunction with the camera control.

According to a fourth aspect of the present invention, the guidance information recording means further comprises means for recording the guidance information and the position where the guidance information is to be inserted, and recording the zoom magnification at which the guidance information is valid. , Guidance information determination means,
It is determined whether or not the insertion position of the guidance information recorded in the guidance information recording means is included in the shooting area calculated by the coordinate calculation means, and the camera position is set within the effective zoom magnification recorded in the guidance information recording means. Means for determining whether or not the current zoom magnification is included, so that the guidance information can be changed according to the zoom magnification.

According to a fifth aspect of the present invention, the terminal further comprises a guide information creation interface for inputting the content and the insertion position of the guide information by a user operation, and the camera control device further comprises a guide information creation interface. A registration coordinate calculation unit for calculating an insertion position of the guide information with respect to a photographing direction and a zoom magnification of the camera from a content and an insertion position of the guide information input through the interface, and registering the information in the guide information recording unit; The user can easily create and register guidance information.

In the invention according to claim 6 of the present invention, the guide information creation interface further holds a position specifying still image of the guide information, and pastes the position specifying still image onto a video on a monitor to guide information. Means for designating the insertion position of the terminal, and guide information can be easily created visually on the terminal side.

According to a seventh aspect of the present invention, there is provided a camera capable of changing a photographing direction and a zoom magnification, a camera control device for controlling the photographing direction and the zoom magnification of the camera and transmitting a photographed image of the camera, and a camera. An information providing system including a terminal that receives a captured video and generates an output video, a monitor that displays an output video of the terminal, and a network that transmits control data and video transmitted and received between the camera control device and the terminal. In the above, the camera control device is configured to transmit a video to a terminal via a network, a video transmitting unit, a camera information recording unit for recording a capturing direction and a zoom magnification, and the camera capturing an image based on the capturing direction and the zoom magnification. Coordinate calculation means for calculating an area, command reception means for receiving a control command from a terminal via a network, and command reception means A camera control unit for controlling the camera in accordance with the command, and a display for obtaining a difference in a shooting area from the shooting direction and zoom magnification at the time of transmitting the video and the current shooting direction and zoom magnification recorded in the camera information recording means. Area calculation means, and display area transmission means for transmitting the difference information obtained by the display area calculation means to the terminal via the network, wherein the terminal transmits the video transmitted by the video transmission means of the camera control device to the network. Video receiving means for receiving a command via the network via a network, a camera control interface for receiving a command for changing the shooting direction and zoom magnification of the camera from a user or an application, and a command for the camera control device via the network. Command transmitting means for transmitting to the receiving means; A display area receiving means for receiving, via a network, the difference information transmitted by the area transmitting means, and a video to cut out a part of the video received by the video receiving means based on the difference information received by the display area receiving means and to output to a monitor The terminal is provided with an area cut-out unit, so that the terminal can easily grasp the area where the camera is shooting even when transmitting an image over a network that is slower than the movement of the camera.

In the invention according to claim 8 of the present invention, the display area calculating means further determines the size of the cutout area of the display image on the basis of the maximum change width of the display area which changes in the time required for transmitting one frame of image. Means to obtain an appropriate video clipping area that correctly follows the movement of the camera.

According to a ninth aspect of the present invention, the terminal further comprises a display size unifying means for converting display data so that the image cut out by the image area cutout means is always displayed at a constant size. That is, an image whose resolution and size dynamically change can always be displayed in a fixed size.

According to a tenth aspect of the present invention, there is provided a camera capable of changing a photographing direction and a zoom magnification, a camera control device for controlling the photographing direction and the zoom magnification of the camera and transmitting a photographed image of the camera, and a camera. An information providing system including a terminal that receives a captured video and generates an output video, a monitor that displays an output video of the terminal, and a network that transmits control data and video transmitted and received between the camera control device and the terminal. In the above, the camera control device is configured to transmit a video to a terminal via a network, a video transmitting unit, a camera information recording unit for recording a capturing direction and a zoom magnification, and the camera capturing an image based on the capturing direction and the zoom magnification. Coordinate calculation means for calculating an area, command reception means for receiving a control command from a terminal via a network, and reception by the command reception means Camera control means for controlling the camera in accordance with the command, transmission area calculation means for cutting out the shot image based on the zoom magnification of the camera so that the transmission image always becomes a fixed shooting area, and transmission area calculation means for cutting out the shot image. Video transmitting means for transmitting the video transmitted to the terminal via the network, wherein the terminal receives video transmitted by the video transmitting means of the camera control device via the network, and A camera control interface for receiving a command for changing the shooting direction and zoom magnification of the camera, and a command transmission unit for transmitting a command received by the camera control interface to a command reception unit of the camera control device via a network, and The shooting area can be shot at any resolution, and the same video can be shot at any resolution. It can be transmitted in Mureto.

According to an eleventh aspect of the present invention, when the command receiving means further receives a command for changing the photographing direction and zoom magnification of the camera, the command receiving means does not transmit the command to the camera control means and transmits the command to the transmission area calculating means. The transmission area calculation means further includes means for changing the position and size of the image cutout area, so that an image at a free position can be obtained without controlling the camera. it can.

According to a twelfth aspect of the present invention, the terminal further comprises a plurality of video synthesizing means for synthesizing a plurality of video images, and can transmit a plurality of video images in a fixed network band.

According to a thirteenth aspect of the present invention, the camera control device further comprises: guidance information recording means for recording guidance information and a position where the guidance information is to be inserted; and guidance information recorded in the guidance information recording means. A guide information determining means for calculating a display position of the guide information on the screen when included in the photographing area calculated by the coordinate calculating means; Video guide information synthesizing means for inserting information, and the terminal further comprises video receiving means for receiving the video transmitted by the video transmitting means of the camera control device via a network and outputting the video to a monitor. Yes, the camera control device can convert video and insert guidance information.

According to a fourteenth aspect of the present invention, the camera control device further comprises: guidance information recording means for recording guidance information and a position where the guidance information is to be inserted; and guidance information recorded in the guidance information recording means. A guide information determining means for calculating a display position of the guide information on the screen when included in the shooting area calculated by the coordinate calculating means; and a display position and the guide information calculated by the guide information determining means via a network. Guide information transmitting means for transmitting the guide information transmitted by the guide information transmitting means and the display position thereof via a network, and a video received by the video receiving means. And a guide information synthesizing means for synthesizing the guide information received by the guide information receiving means in accordance with the display position of the guide information and outputting the synthesized information to a monitor. Can be inserted guidance information to the video on the terminal side converts the image in 置側.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(First Embodiment) The first embodiment relates to an information providing system.
The object to be photographed by the camera is determined from the direction of the remote camera and the zoom magnification, and guidance information is added to the photographed image.

As shown in FIG. 1, this system includes a camera 101 capable of changing a shooting direction by, for example, an electric pan head, a camera control device 102 for detecting a shooting direction and a zoom magnification of the camera 101 and generating guide information of an image. A terminal 103 for receiving an image captured by the camera 101 and generating an output image, a monitor 104 for displaying the output image of the terminal, and transmitting control data and images transmitted and received between the camera control device 102 and the terminal 103. The network 105 is provided.

The camera control device 102 includes: a video transmitting unit 106 for transmitting the video of the camera 101 to the terminal 103; a command receiving unit 107 for receiving a camera shooting direction change command packet or a zoom magnification change command packet from the terminal 103;
Camera 1 according to the packet received by command receiving means 108
Camera control means 108 for controlling 01 and camera control means 108
Camera information recording means 109 for recording the photographing direction and zoom magnification changed every moment, coordinate calculating means 110 for calculating the photographing area where the camera 101 is photographing from the changed photographing direction and zoom magnification, Guidance information recording means 111 for recording the guidance information and the position where the guidance information is to be inserted; and whether or not the insertion position of the guidance information recorded in the guidance information recording means 111 is included in the shooting area calculated by the coordinate calculation means 110 Is searched, and if it is included, the guide information determining means 112 calculates the display position of the guide information on the screen from the insertion position.
And a guide information transmitting means 113 for transmitting the display position and the guide information calculated by the guide information determining means 112 to the terminal 103.

The terminal 103 is connected to a video receiving unit 1 for receiving the video transmitted by the video transmitting unit 106 of the camera control device 102.
14, the guide information transmitted by the guide information transmitting means 113 and the guide information receiving means 115 for receiving the display position thereof, and the video received by the video receiving means 114 and the guide information received by the guide information receiving means 115, Synthesize and monitor according to the display position of
Guidance information synthesizing means 116 to be output to 104, a camera control interface 117 for receiving a camera shooting direction from the user or an application, a zoom magnification change command,
A command transmission unit 118 that transmits a command received by the camera control interface 117 to the command reception unit 107 of the camera control device 102 is provided.

The camera control interface 117 receives a command from a user using a joystick or a graphical user interface displayed on the monitor 104, for example.

The network 105 is, for example, an ISD
N, LAN, Internet, mobile phone and the like.

The operation of the information providing system will be described.

Here, it is assumed that a command for changing the shooting direction of the camera has been generated by a user operation. The camera control interface 117 transmits this command to the camera control device 102 via the command transmission means 118. FIG. 2 shows an example of a packet transmitted through the network 105 at this time. The command transmission unit 118 specifies a camera to be controlled by adding a camera address to the transmission packet. The command receiving unit 107 of the camera control device 102 identifies the address of the packet, and determines whether the camera to be controlled is connected to the camera control device.

If the address of the packet is that of the camera to be controlled by itself, the command receiving means 107 transmits the command in the packet to the camera control means 108. The camera control means 108 controls the camera 101 according to the transmitted command. The command in FIG. 2 indicates that the vertical angle of the camera is increased by 10 °.

FIG. 3 shows an example of the photographing direction and zoom magnification of the camera 101 before receiving the command. In this example, camera 101
Has a horizontal angle of 60 °, a vertical angle of 20 ° and a zoom magnification of 10
Doubled. The reference value of 0 ° may be true north or anywhere. Here, it is assumed that 0 ° is when the camera is rotated to the left most and when it is rotated to the lowest. In addition, the zoom magnification is set to 1 at the time of wide-angle shooting. After receiving the command, the camera control unit 108 increases the vertical angle of the camera 101 by 10 °. Thereby, the shooting direction of the camera 101 is changed as shown in FIG.

The camera information recording means 109 records the photographing direction and zoom magnification of the camera 101 as camera information.
This camera information is updated at certain intervals in accordance with changes in the shooting direction and magnification of the camera. This interval may be synchronized with, for example, the transmission of one frame of video, or may be a predetermined fixed time. Here, it is assumed that the command is updated for the first time when the control of the command is completed, that is, when the vertical angle is increased by 10 °. With the update of the camera information recording means 109, guidance information to be added to the captured video is transmitted from the camera control device 102. Hereinafter, the operation will be described with reference to FIG.

With the update of the camera information recording means 109, the coordinate calculation section 110 calculates the shooting area currently being shot by the camera 101 from the shooting direction and the zoom magnification. Although the shooting area is uniquely determined from the shooting direction and the zoom magnification, there are various methods for mapping the shooting area to what kind of coordinate system, that is, how to convert the shooting area into a numerical value as a logical value. Here, as an example, it is assumed that the photographing area is obtained as a logical value by the conversion equation shown in (Equation 1). Each constant in (Equation 1) has no special meaning and may be a constant that is easy to calculate. (Equation 1) Conversion equation from camera angle and zoom magnification to logical coordinates Center point of photographing x coordinate = horizontal angle × 3 (Equation 1-1) y coordinate = vertical angle × 3 (Equation 1) 2) Photographing area (logical coordinates) x (left end) = (x coordinate of center point−600 / zoom magnification) (Equation 1-3) x (right end) = (x coordinate of center point + 600 / zoom magnification) (Equation 1-4) y (lower end) = (y coordinate of center point−500 / zoom magnification) (expression 1-5) y (upper end) = (y coordinate of center point + 500 / zoom magnification) ) (Equation 1-6)

By substituting the values of FIG. 4 into (Equation 1), the photographing area shown in FIG. 5 is obtained. This is, as shown in FIG. 6, a part of the entire range (capturable area) in which the camera can take a picture by swinging or changing the zoom magnification. It indicates that it was done.

The guide information recording means 111 records the guide information to be added to the image shot by the camera and the insertion position. The guidance information may be, for example, text information, a still image, a moving image,
Link information to another medium may be used. That is, any information that can be visualized by any method may be used. Here, it is assumed that the guidance information shown in FIG. 7 is recorded.

The guide information determining means 112 searches the information recorded in the guide information recording means 111 for information included in the current photographing area. Here, the guidance information included in the photographing area is only “This is Tokyo Tower”. FIG.
FIG. 7 shows the relationship between the guidance information and the shooting area included in FIG.

When the guide information determining means 112 finds the guide information included in the photographing area, it calculates at which position on the display screen the found guide information is displayed. Here, the display screen is set to 100 × 100 as an example of calculating the display position.
And determine the display position. The reason why the display area is always defined as an area having a constant size is to keep the display coordinates for the display area constant even when the shooting area changes due to zooming or the like. (Formula 2) shows a formula for obtaining the display coordinates from the insertion position of the guide information. (Equation 2) Expression for calculating display coordinates Absolute coordinates = insertion position of guidance information−upper left corner of imaging area (Equation 2-1) Display coordinates = absolute coordinates × (100 / width of imaging area) (Equation 2) 2-2)

This equation is used to determine the position of the insertion position in the photographing area.
This means that mapping is performed in the display area of 00. Since the insertion position of the guidance information "This is Tokyo Tower" is (200, 90), it is converted to (66.6, 30) by using (Equation 2). FIG. 9 shows an image of calculation using this equation.

The guide information transmitting means 113 transmits the guide information in the photographing area searched by the guide information determining means to the terminal 103 together with the calculated display coordinates. FIG. 10 shows the packet transmitted at this time.

It is assumed that the video transmitting means 106 continuously transmits video data to the terminal 103 while the camera 101 is capturing a video. The video data may be analog data, digital data, compressed video data, or any format. FIG. 11 shows a packet transmitted from the video transmission means 106 at this time.

The video receiving means 114 of the terminal 103 receives the video data transmitted by the video transmitting means 106 of the camera control device 102. At this time, if the video data is compressed video data, it is desirable to decompress the video data. The guide information receiving unit 115 receives the guide information and the display position transmitted by the guide information transmitting unit of the camera control device 102. Guidance information synthesis means 11
6 combines the guidance information received by the guidance information receiving means 115 with the video received by the video receiving means 114 (see FIG. 12) at the display position (see FIG. 13). With the above operation, it is possible to insert the guidance information into the video taken by the camera.

(Second Embodiment) The second embodiment relates to an information providing system. In this system, different guide images can be added to a photographed image according to a zoom magnification.

In this system, guidance information recording means
111 records the guide information and the insertion position where the guide information is added, and also records the zoom magnification at which the guide information is valid.

The guide information determining means 112 determines whether or not the insertion position of the guide information recorded in the guide information recording means 111 is included in the photographing area calculated by the coordinate calculating means 110, and at the same time, determines whether the guide information is recorded. It is determined whether or not the current zoom magnification of the camera 101 is included in the effective zoom magnification recorded in the means 111, and if it is, the display position of the guide information is calculated. Other configurations are the same as those of the first embodiment.

The operation of the second embodiment will be described below. The guidance information recording unit 111 holds not only the position where the guidance information is inserted but also the zoom magnification at which the guidance information is valid. Here, it is assumed that the guidance information shown in FIG. 15 is recorded. It is also assumed that the camera information recording unit 109 holds the horizontal angle, the vertical angle, and the zoom magnification shown in FIG.

First, the command receiving means 107 receives a camera control command in the same procedure as in the first embodiment. Here, it is assumed that the packet shown in FIG. 16 has been received. The camera control means 108 receives a command in the packet received by the command receiving means 107 and controls the camera 101. Here, since the command is to increase the zoom magnification by 10, the zoom magnification of the camera 101 is increased by 10. It is assumed that the value of the camera information recording unit 110 is updated when the camera control ends. Here, the camera information is recorded in the camera information recording unit 110 in a form in which the zoom magnification is increased by 10 and increased to 20 as shown in FIG. The coordinate calculation means calculates the shooting area from the camera information in FIG. The calculation method is the same as in the first embodiment. FIG. 18 shows the photographing area of the calculation result.

Next, the guide information determining means 112 searches the guide information recorded in the guide information recording means 111 for information whose insertion position is included in the coordinate calculating means 110 and which is valid at the current zoom magnification. I do. The information in the photographing area in FIG. 18 and including the effective zoom magnification of 20 times includes “first observatory” and “second observatory”. Guidance information determination means 112
Converts the insertion position of these pieces of information into the display position. The conversion procedure is the same as in the first embodiment (see FIG. 19).

The guidance information transmitting means 113 is the guidance information determining means 1
The guide information and the display position obtained by 12 are transmitted to the terminal 103.
The transmission packet at this time is shown in FIG. The terminal 103 generates an output video to the monitor 104 in the same procedure as in the first embodiment and outputs it to the monitor (see FIG. 21).

With the above operation, it is possible to display guidance information according to the zoom magnification.

(Third Embodiment) The third embodiment relates to an information providing system. In this system, new guidance information can be registered on the terminal side.

This system has a first system as shown in FIG.
In addition to the configuration of the embodiment, the terminal 103 is provided with a guide information creation interface 2201 for inputting, by a user operation, what part of the displayed video of the camera and what kind of guide information should be displayed. , Camera control device 102
Calculates the position of the guide information to be inserted for the camera's shooting direction and zoom magnification based on the display position of the guide information for the camera image input in the guide information creation interface 2201, and records the result in the guide information record There is provided registered coordinate calculation means 2202 for registration in the means 111. Other configurations are the same as those of the first embodiment.

The operation of the third embodiment will be described below. The guide information creation interface 2201 receives from the user what kind of guide information is displayed at which position in the camera image. FIG. 23 shows an example of user input. In this example, an image 2301 of the camera 101 is displayed on the monitor 104,
A still image 2302 for guidance information registration is displayed. The user pastes the still image 2302 on the video 2301 using, for example, a mouse. After the attachment, characters are input into the still image 2302 by, for example, double-clicking the mouse.
As described above, by adding the guide information directly to the video displayed on the monitor, the guide information and its position can be input by a simple operation.

The guide information creation interface 2201 is a
From the position of the still image 2302 with respect to 2301, it is determined at which position in the video the guidance information is to be displayed. Here, the coordinates (6
At 6.6, 30), guidance information is displayed. As the contents of the guidance information, characters input in the still image 2302 are used.
Here, it is assumed that the guide information “This is Tokyo Tower” has been input.

The guidance information creation interface 2201 transmits the display position and the contents of the guidance information to the camera control device 102 via the command transmission means 118. The packets transmitted at this time are shown in FIG. The command receiving means 107 of the camera control apparatus 102 receives the packet from the command receiving means 118 of the terminal 103, and if the content is for guidance information registration, transmits the packet to the registered coordinate calculating means 2202.

The registered coordinate calculating means 2202 receives the display position of the guide information from the command receiving means 107, and converts it into coordinates corresponding to the photographing direction of the camera and the zoom magnification.
That is, the reverse of the conversion from the insertion position in the photographing area to the display position performed in the first embodiment is performed. Here, the insertion position is obtained using the conversion equation (Equation 3), which is the inverse conversion equation of (Equation 2). (Equation 3) Expression for calculating insertion position Absolute coordinate = display coordinate / (width of imaging area / 100) (Equation 3-1) Insertion position = absolute coordinate + upper left corner of imaging area (Equation 3-2) )

Here, the display coordinates of the guidance information are (66.
6, 30), the insertion position (200, 90) is obtained by substituting into (Equation 3). Figure 2 shows the image of this calculation.
It is shown in FIG. When the calculation is completed, the registered coordinate calculation means 2202 registers the resulting coordinates and the guidance information in the recorded contents of the guidance information registration means 111 (see FIG. 26). Through the above operation, the guide information can be registered in the camera control device from the terminal side.

(Fourth Embodiment) A fourth embodiment is directed to
The present invention relates to an information providing system for operating a remote camera via a network. When the transmission speed of the network is slower than the movement of the camera and the number of frames of a video that can be displayed on a terminal side per second is small, the camera operation is performed. Is to solve the drawback that it becomes difficult.

In this system, as shown in FIG. 27, a camera control device 102 includes a video transmitting means 106 for transmitting a video of a camera 101 to a terminal 103, a camera photographing direction change command packet and a zoom magnification change command from the terminal 103. Command receiving means 107 for receiving a packet, and command receiving means 1
A camera control means 108 for controlling the camera 101 in accordance with the packet received by the camera 08, and a camera information recording means 109 for recording the photographing direction and zoom magnification changed by the control every moment.
Calculates the area where the camera 101 is shooting from the shooting direction and zoom magnification recorded in the camera information recording means 109, and the shooting area at the time when the video transmission means 106 finished transmitting the previous video and the current shooting area And a display area transmitting means 2702 for transmitting the difference information obtained by the display area calculating means 2701 to the terminal 103.

The terminal 103 is connected to a video receiving unit 1 for receiving the video transmitted by the video transmitting unit 106 of the camera control device 102.
14, a camera control interface 117 for receiving a camera shooting direction change command and a zoom magnification change command from a user or an application, and a command transmission unit 118 for transmitting a command received by the camera control interface to a command reception unit 107 of the camera control apparatus 102. A display area receiving means 2703 for receiving the difference information transmitted by the display area transmitting means 2702 of the camera control apparatus 102; and a reception video receiving means based on the difference information received by the display area receiving means 2703.
An image area cutout means 2704 for cutting out a part of the image received by the 114 and outputting it to the monitor 104 is provided. Other configurations are the same as those of the first embodiment.

The operation of the fourth embodiment will be described below. The image area extracting means 2704 is an image receiving means
A portion of the video received by 114 is cut out and displayed. An appropriate constant value is used for the size of the display area to be cut out. Here, the x coordinate is 0 to 100, and the y coordinate is 0 to 100.
With respect to the received image in the region of, the region where the x coordinate is 20 to 80 and the y coordinate is 20 to 80 is set as the display region (see FIG. 28).

Here, the terminal 10 is operated in the same procedure as in the first embodiment.
Assume that a camera control packet has been transmitted from 3. The transmission packet at this time is shown in FIG. The camera control command in this packet sets the horizontal angle of camera 101 to 10 ° per second.
Is rotated in the plus direction at the speed of. FIG.
FIG. 31 shows the shooting direction and zoom magnification of the camera 101 before receiving the command, and FIG. 31 shows the shooting area at that time.

In the present embodiment, unlike the first embodiment, the value of the camera information recording means 109 is updated every 0.1 seconds, and the video transmitting means 106 transmits one frame of video every 0.5 seconds. The operation will be described.

When the value of the camera information recording means 109 is updated, the display area calculation means 2701 calculates the shooting area where the camera 101 is shooting. This calculation method is the same as in the first embodiment. Next, the display area calculation unit 2701 calculates a difference between the display area from the difference between the previously calculated shooting area and the currently calculated shooting area. This difference value is reset to 0 each time the video transmitting unit 106 transmits a video. Here, (Equation 4) is used as an equation for calculating the difference value. (Equation 4) Expression for calculating difference of display area Difference of display area = Difference of imaging area × (100 / width of imaging area) (Equation 4-1) where constant 100 indicates the size of the display area. Value.

This equation shows that when the photographing area changes to 1 ° right, the display area is moved to the right by 1 ° and the display area is changed in accordance with the change of the image being photographed. Means FIG. 32 shows a change in the display area. In this example, since the video is transmitted every 0.5 seconds, the difference value is reset to 0 after 0.5 seconds, and the display area becomes the original area. When the display area calculation means 2701 calculates a new display area, the terminal 103 is calculated via the display area transmission means 2702.
Is transmitted to the display area receiving means 2703. FIG. 33 shows the transmission packet after 0.1 second. The video clipping means 2704 clips and displays a part of the video received by the video receiving means 114 based on the display area received by the display area receiving means 2703 (see FIG. 34). Similarly, the transmission packet after 0.2 seconds is shown in FIG.
FIG. 36 shows the display area at that time in FIG. Also, 0.5
After two seconds, the display area is reset to the original value, so that the transmission packet is as shown in FIG. 37, and the display area is as shown in FIG.

According to the series of operations described above, the displayed image changes with the movement of the camera 101 even if the photographed image is updated every 0.5 seconds due to the limitation of the transmission speed of the network. As a result, camera control with excellent operability can be realized, and a moving image can be provided.

In the present embodiment, the size of the cutout of the display area is appropriately determined such that the x-coordinate is 20 to 80 and the y-coordinate is 20 to 80. A method for obtaining an appropriate cutout area will be described below. The appropriate size of the cropping area depends on the camera 101
Is determined by deciding the size of one frame of the video to be displayed so that the maximum value of the display area, which is changed by the above control, can be secured as a margin (see FIG. 39). Here, the maximum angular velocity, that is, the maximum value of the change in the horizontal angle and the vertical angle of the camera 101 is set to 13.3 ° per second. If the time required to transmit one frame of video is 0.5 seconds, the margin is 2
It becomes 0. With the above operation, an appropriate size of the video clipping region can be calculated.

(Fifth Embodiment) In the fifth embodiment,
The present invention relates to an information providing system capable of performing a zoom operation of a remote camera, and solves a drawback that the camera operation becomes difficult when the number of frames of a video that can be displayed per second on a terminal is small due to a limitation of a network transmission speed. .

This system, as shown in FIG.
103 is characterized in that it comprises a display size unifying means 4001 for always displaying a video clipped by the video area clipping means 2704 in a fixed size. Other configurations are the same as in the fourth embodiment.

The operation of the fifth embodiment will be described below. First, in the same procedure as in the first embodiment,
It is assumed that a camera control packet has been transmitted from 103 to the camera control device 102. The packet at this time is shown in FIG. The camera control command of this packet indicates that the zoom magnification is increased by 10 per second. The camera control device 102 calculates the display area in the same procedure as in the fourth embodiment, and transmits the result to the display area receiving means 2703 of the terminal 103. FIG. 42 shows the transmitted packet. Here, the magnification increases by 10 in one second, that is, the original magnification is 10 times, so 1
Since the magnification becomes 20 seconds later, the magnification becomes 11 times 0.1 seconds later. When this is calculated using (Equation 1) and (Equation 2), the display area has x coordinates 23 to 77, y coordinates 22.
5 to 77.5.

The video clipping means 2704 of the terminal clips a display area from the video received by the video receiving means 114. It should be noted here that the displayed image is reduced because the display area of the image is reduced. In the first and second embodiments, even when the zoom magnification was changed, the resolution of the video itself did not change, so that the display size was constant.

The display size unifying means outputs images of any resolution to the monitor in the same size. That is, even a very small display area is stretched to a certain size and displayed (see FIG. 44). With the above operation, when simulating a zoom operation, the image can always be viewed on a screen of a fixed size even if the size of the display area changes, so while watching a screen close to the actual zoom image The remote camera can be operated.

(Sixth Embodiment) In the sixth embodiment,
The present invention relates to an information providing system capable of operating a remote camera, and converts a captured image into images of various resolutions by controlling a zoom magnification of the camera.

In this system, as shown in FIG. 45, the camera control device 102 comprises: a command receiving means 107 for receiving a camera shooting direction change instruction or a transmission video resolution change instruction from the terminal 103; Camera control means 108 for controlling the camera 101 in accordance with the received packet, camera information recording means 109 for recording the photographing direction and zoom magnification changed by the control from time to time, and transmission video based on the zoom magnification of the camera. The image processing apparatus includes a transmission area calculation unit 4501 that cuts out a shot image so as to always have a fixed shooting area, and an image transmission unit 106 that transmits the image cut out by the transmission area calculation unit 4501 to the terminal 103.

The terminal 103 includes a video receiving unit 114 for receiving the video transmitted by the video transmitting unit 106 of the camera control device 102,
The camera control interface 117 receives a command to change the shooting direction or the resolution of the camera from a user or an application, and a command transmission unit 118 that transmits the command received by the camera control interface to the command reception unit 107 of the camera control device 102. ing.
Other configurations are the same as those of the first embodiment.

Hereinafter, the operation of the sixth embodiment will be described. The transmission area calculation unit 4501 cuts out a part of the captured video as an initial state. Here, for an imaging region where the x coordinate is 0 to 100 and the y coordinate is 0 to 100,
It is assumed that an area where the x coordinate is 25 to 75 and the y coordinate is 25 to 75 (see FIG. 46).

The video transmission means 106 is provided with a transmission area calculation means 4501
Transmits the clipped video to the terminal 103. In the terminal 103, the video receiving unit 114 receives the video transmitted by the video transmitting unit 106 and outputs the video to the monitor 104.

Now, it is assumed that the camera control packet has been transmitted from the terminal 103 in the same procedure as in the first embodiment. The packet at this time is shown in FIG. The camera control command of this packet means that the resolution is improved by 10 per second from the current state. Here the resolution value is the camera
It is assumed that it corresponds to a zoom magnification of 101. That is,
Assuming that the resolution when the zoom magnification is 1 is 1, the resolution when the zoom magnification is 2 is 2 and the resolution when the zoom magnification is 10 is 10. Therefore, increasing the resolution by 10 means increasing the zoom magnification by 10.

The camera control means 108 includes the command receiving means 1
07 receives a camera control command via the camera 101
Control. Here, it is assumed that the camera 101 is controlled as shown in FIG. Here, as in the fourth embodiment, it is assumed that the value of the camera information recording unit 109 is updated every 0.1 seconds. The photographing area calculation means 4501 obtains a photographing area from the camera information recorded in the camera information recording means 109. The method of calculating the photographing area is the same as in the first embodiment. FIG. 49 shows an initial photographing region and a photographing region after 0.1 second.

Next, the photographing area calculation means 4501 cuts out the photographed image so that the transmitted image is in the same area even if the zoom magnification changes. In other words, the captured image is 1
If the image is enlarged by a factor of 0, a 10-fold wider range of the captured video is cut out and transmitted. In this case, since the video of the same range of the subject is cut out, the resolution, that is, the number of pixels changes. Here, similarly to the first embodiment, the shooting area of 120 × 100 is set to 100 × 10
Since the data is converted to the area of 0, the transmission area is converted as shown in FIG. The video transmission means 106 is a transmission area calculation means 450
1 transmits the cut-out area (see FIG. 51).

With the above operation, it is possible to transmit an image of the same area of the subject even when the zoom magnification changes.
This means that the resolution of the transmission video can be freely selected by controlling the zoom magnification. Since the data amount of the transmission video is proportional to the square of the resolution, if the resolution is doubled, the data amount is quadrupled. Conversely, when the resolution is reduced to 1/2, the data amount is reduced to 1/4, so that the transmission time is reduced to 1/4.

Therefore, when it is desired to transmit a moving image in real time, it is necessary to reduce the zoom magnification and shoot the image so that a low-resolution image is transmitted more per unit time. If it is desired to send a fine drawing or the like, the zoom magnification may be increased and a high-resolution image may be sent over time.

As described above, the resolution can be easily changed by controlling the zoom magnification. Therefore, in a video conference or a remote monitoring system, the selection of the transmission of the moving image and the transmission of the detailed image is made by the zoom. It can be realized simply by changing the magnification.

In the traffic monitoring system, when monitoring the state of traffic flow, monitoring is performed in the motion priority mode with a low resolution, and when observing the state of an accident or the like in detail, monitoring is performed in the resolution priority mode with a slow motion. Can be applied.

In a security system or the like, monitoring can be performed with a low resolution when searching for a wide range of abnormalities in a short time, and with a high resolution when a specific location is to be inspected precisely.

When the resolution is selected manually, it can be realized by using a continuously variable lever which gives priority to motion and resolution, and when it is selected automatically, the compression ratio does not increase in the image data compression process. In this case, it can be understood that the scene is a scene with a lot of movement. Therefore, it is sufficient to change the zoom magnification according to the degree of the scene and to select a high-speed transmission of a moving image at a low resolution.

[0092] As in the fifth embodiment, the terminal 103 may display the received video by expanding it to a fixed size, or may display it as it is.

Next, an operation when a packet for changing the photographing position of the camera 101 or the zoom magnification is transmitted from the terminal 103 will be described. Here, it is assumed that the packet shown in FIG. 52 has been transmitted from terminal 103.

If the command of the received packet is a change in the shooting direction of the camera, the command receiving unit 107 transmits the command to the transmission area calculation unit 4501 instead of the camera control unit 108. The transmission area calculation means 4501 changes the transmission area according to the received command. Here, since the command is to add the horizontal angle by 10 °, when the change of the display area is calculated in the same manner as in the fourth embodiment, it moves to the right by 2.5 seconds after 0.1 second (see FIG. 53). The transmission area calculation unit 4501 cuts out a captured video in the new transmission area. With the above operation, the camera
The video requested by the terminal 103 can be transmitted without controlling the terminal 101.

(Seventh Embodiment) A seventh embodiment is different from the seventh embodiment in that
An information providing system in which a plurality of remote cameras are connected to a network, in which the terminal can combine the images from the plurality of cameras with reduced resolutions by controlling the zoom magnification of the cameras and simultaneously view the plurality of images. It is.

As shown in FIG. 54, this system comprises a plurality of cameras 101a, 101b, 101c, 101d and a camera controller 10
The terminal 103 includes 2a, 102b, 102c, and 102d, and the terminal 103 includes a multiple video combining unit 5401 that combines a plurality of videos in addition to the configuration of the sixth embodiment. Other configurations are the same as in the sixth embodiment.

Hereinafter, the operation in the seventh embodiment will be described. It is assumed that the camera control device 102 outputs a low-resolution video in the same procedure as in the sixth embodiment.
Here, 102a is 55a in FIG. 55, 102b is 55b, and 102c is 55
It is assumed that c and 102d are transmitting 55d at a resolution of 解像度, respectively. If the resolution is ２, the number of pixels is (１ ／) × (１ ／) = １ ／, so the data amount is １ ／.

[0098] The video receiving means 114 of the terminal 103 receives all the video data transmitted from the camera control device 102 to the terminal 103 and transmits it to the plural video synthesizing means 5401. The multiple video synthesizing unit 5401 determines the resolution required of the camera according to the number of video images sent. In other words, each camera is notified so that the resolution is changed to な ら ば if four images are transmitted and １ ／ if nine images are transmitted. When four images are transmitted, the zoom magnification of the camera is increased, for example, from 10 times to 5 times.
/ 2 and the resolution to １ ／. Here, since four images are sent, if the resolution is reduced to １ ／, the data amount is reduced to ４. Therefore, the multiple video combining means 5401 combines the four videos into one video and outputs it to the monitor 104. . With the above configuration, camera images can be displayed at a resolution corresponding to the number of images to be displayed.

(Eighth Embodiment) An eighth embodiment is directed to
The present invention relates to an information providing system for adding guidance information on a video transmission side of a remote camera.

FIG. 57 illustrates a system in which guide information is added to a video by the camera control device 102 on the transmission side. Guide information synthesizing means 116 is provided in the camera control device 102,
The guide information from the guide information determining means 112 is added to the video from the camera 101. Other configurations are not shown, but by adding the configurations of Embodiments 2 to 7,
Obviously, the configuration according to claims 4 to 12 can be realized. Since the guide information is added on the transmitting side, the guide information transmitting means and the guide information receiving means are not required, and the apparatus configuration is simplified. In the case where there is one camera and there are a plurality of terminals, it is not necessary to provide a guide information synthesizing means in each terminal, so that the configuration of the apparatus is simplified.

As in the first embodiment, a command is transmitted to change the direction of the camera or the zoom magnification, and the camera is controlled via the camera control means. Embodiment 2 is a mechanism for changing the guide information according to the zoom magnification.
Is the same as When there is no designation of the zoom magnification in the guide information, the guide information is always displayed as long as the coordinates of the guide information exist in the display image. The registration of the guide information using the designated still image is the same as in the third embodiment. Similar to the fourth embodiment, the terminal side performs frame interpolation on the terminal side to simulate the movement of the camera.

It is also possible to unify the display size in the fifth embodiment.
Is the same as In order to keep the display size constant, it is necessary to enlarge or reduce the size of the received video, but it is clear that this can be easily realized by applying a known enlargement / reduction unit. A known interpolation means may be used to increase the size, and a known reduction means may be used to reduce the size.

Changing the resolution by changing the zoom magnification is the same as in the sixth embodiment. When the camera is rotated at a high speed for panning, the image can be transmitted at a low resolution and at a high speed by reducing the zoom magnification and transmitting only a narrow area at the center.

The composition of a plurality of images is the same as in the seventh embodiment. By controlling multiple cameras with one terminal and controlling the resolution of each camera individually,
The movement and the definition can be obtained according to the shooting target. 1
By photographing one subject with two cameras in different modes, it is possible to observe movement and details at the same time.

[0105]

As is clear from the above description, the information providing system of the present invention has the following effects.

By detecting the photographing direction and zoom magnification of the camera, guidance can be added to the image photographed by the camera.

Further, by adding a remote control function of a camera, guidance can be added to an image in conjunction with camera control.

Also, by determining the zoom magnification,
The guide information can be changed according to the zoom magnification.

Further, by calculating how the current photographed image corresponds to the photographing direction and zoom, the guide information can be easily created on the terminal side.

Further, by adding the guide information while watching the photographed video, the guide information can be visually created.

Further, by simulating the change of the photographed image on the display side, the area where the camera is photographing can be easily grasped even on a low-speed network.

Further, by obtaining the maximum change width of the display screen, an appropriate video clipping area can be set, and a natural simulation of camera movement can be performed.

Further, by converting the size of the display image, an image whose resolution dynamically changes can always be displayed at a constant size.

Further, by controlling the zoom magnification and the cutout of the transmission area, it is possible to generate an image having an arbitrary resolution.

By changing the cutout position of the transmission area, it is possible to obtain an image at a free position without controlling the camera.

By changing the cutout position of the transmission area, a plurality of images can be transmitted in a fixed network band.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an information providing system according to a first embodiment of the present invention;

FIG. 2 is a camera control packet diagram in the information providing system according to the first embodiment;

FIG. 3 is a camera information diagram before control in the information providing system according to the first embodiment,

FIG. 4 is a camera information diagram after control in the information providing system according to the first embodiment;

FIG. 5 is a photographing area diagram in the information providing system according to the first embodiment;

FIG. 6 is a diagram showing a relationship between a photographable area and a photographing area in the information providing system according to the first embodiment;

FIG. 7 is a guide information diagram in the information providing system according to the first embodiment;

FIG. 8 is a diagram showing a relationship between guide information and a shooting area in the information providing system according to the first embodiment;

FIG. 9 is a conversion diagram from an insertion position to a display coordinate in the information providing system according to the first embodiment;

FIG. 10 is a guide information packet diagram in the information providing system according to the first embodiment;

FIG. 11 is a video packet diagram in the information providing system according to the first embodiment;

FIG. 12 is a photographed video diagram in the information providing system of the first embodiment,

FIG. 13 is a display video diagram in the information providing system according to the first embodiment;

FIG. 14 is a diagram showing a guidance information output algorithm in the information providing system according to the first embodiment;

FIG. 15 is a guide information map corresponding to zoom in the information providing system according to the second embodiment;

FIG. 16 is a camera control packet diagram in the information providing system according to the second embodiment;

FIG. 17 is a camera information diagram in the information providing system according to the second embodiment;

FIG. 18 is a photographing area diagram in the information providing system according to the second embodiment;

FIG. 19 is a conversion diagram from an insertion position to a display coordinate in the information providing system according to the second embodiment;

FIG. 20 is a guide information packet diagram in the information providing system according to the second embodiment;

FIG. 21 is an output video diagram in the information providing system according to the second embodiment;

FIG. 22 is a system configuration diagram of the information providing system according to the third embodiment;

FIG. 23 is a user interface diagram in the information providing system according to the third embodiment;

FIG. 24 is a guide information registration packet diagram in the information providing system according to the third embodiment;

FIG. 25 is a conversion diagram from display coordinates to an insertion position in the information providing system according to the third embodiment;

FIG. 26 is a guide information diagram in the information providing system according to the third embodiment;

FIG. 27 is a system configuration diagram in an information providing system according to a fourth embodiment;

FIG. 28 is a display area diagram in the information providing system according to the fourth embodiment;

FIG. 29 is a camera control packet diagram in the information providing system according to the fourth embodiment;

FIG. 30 is a camera information diagram in the information providing system according to the fourth embodiment;

FIG. 31 is a photographing area diagram in the information providing system according to the fourth embodiment;

FIG. 32 is a diagram illustrating a change in coordinates in the information providing system according to the fourth embodiment;

FIG. 33 is a display area transmission packet diagram after 0.1 second in the information providing system according to the fourth embodiment;

FIG. 34 is a display area after 0.1 second in the information providing system according to the fourth embodiment;

FIG. 35 is a display area transmission packet diagram after 0.2 seconds in the information providing system according to the fourth embodiment;

FIG. 36 is a display area after 0.2 seconds in the information providing system according to the fourth embodiment;

FIG. 37 is a display area transmission packet diagram after 0.5 seconds in the information providing system according to the fourth embodiment;

FIG. 38 is a display area after 0.5 seconds in the information providing system according to the fourth embodiment;

FIG. 39 shows a size of a display area in the information providing system according to the fourth embodiment;

FIG. 40 is a system configuration diagram of the information providing system according to the fifth embodiment;

FIG. 41 is a camera control packet diagram in the information providing system according to the fifth embodiment;

FIG. 42 is a display area transmission packet diagram after 0.1 second in the information providing system according to the fifth embodiment;

FIG. 43 is a display area diagram in the information providing system according to the fifth embodiment;

FIG. 44 is a display area size conversion diagram in the information providing system according to the fifth embodiment;

FIG. 45 is a system configuration diagram in the information providing system according to the sixth embodiment;

FIG. 46 is a transmission area diagram in the information providing system according to the sixth embodiment;

FIG. 47 is a camera control packet diagram in the information providing system according to the sixth embodiment;

FIG. 48 is a camera information diagram in the information providing system according to the sixth embodiment;

FIG. 49 is a photographing area diagram in the information providing system according to the sixth embodiment;

FIG. 50 is a transmission area diagram in the information providing system of the sixth embodiment;

FIG. 51 is a transmission area diagram after control in the information providing system according to the sixth embodiment;

FIG. 52 is a photographing direction change packet diagram of a camera in the information providing system according to the sixth embodiment;

FIG. 53 is a transmission area diagram when the imaging direction is changed in the information providing system according to the sixth embodiment;

FIG. 54 is a system configuration diagram in an information providing system according to a seventh embodiment;

FIG. 55 is a transmission area diagram in the information providing system of the seventh embodiment;

FIG. 56 is a display video diagram in the information providing system according to the seventh embodiment;

FIG. 57 is a system configuration diagram of the information providing system according to the eighth embodiment.

[Explanation of symbols]

 101 camera 102 camera control device 103 terminal 104 monitor 105 network 106 video transmission means 107 command reception means 108 camera control means 109 camera information recording means 110 coordinate calculation means 111 guidance information recording means 112 guidance information determination means 113 guidance information transmission means 114 video Receiving means 115 Guide information receiving means 116 Guide information synthesizing means 117 Camera control interface 118 Command transmitting means 1401 Camera information input 1402 Shooting area calculation 1403 Guide information extraction 1404 Guide information exists 1405 In shooting area 1406 Display coordinate calculation 1407 Guide information transmission 2201 Guidance Information creation interface 2202 Registration coordinate calculation means 2301 Camera image 2302 Still image for guidance information registration 2701 Display area calculation means 2702 Display area transmission means 2703 Display area reception means 2704 Video area cutout means 4001 Display size unification means 4501 Transmission area calculation means 5401 Multiple Video synthesis means

Claims (14)

[Claims] 1. A camera (101) capable of changing a shooting direction and a zoom magnification, and a camera (101) controlling a shooting direction and a zoom magnification of the camera (101).
A camera control device (102) for transmitting the captured video of (101), a terminal (103) for receiving the video captured by the camera (101) and generating an output video, and a monitor for displaying the output video of the terminal (103) (104) and a network (105) for transmitting control data and video transmitted and received between the camera control device (102) and the terminal (103), wherein the camera control device (102) A video transmitting means (106) for transmitting video captured by the camera (101) to the terminal (103) via the network (105); and a camera information recording means (1) for recording a shooting direction and a zoom magnification.
09), a coordinate calculating means (110) for calculating an area where the camera (101) is shooting from the shooting direction and the zoom magnification, and a guide information recording means (111) for recording guide information and a position where the guide information is to be inserted. ), And when the guidance information recorded in the guidance information recording means (111) is included in the shooting area calculated by the coordinate calculation means (110), the guidance information determination for calculating the display position of the guidance information on the screen. Means (112), and a guide information transmitting means (113) for transmitting the display position and the guide information calculated by the guide information determining means (112) to the terminal (103) via the network (105); (103) a video receiving means for receiving the video transmitted by the video transmitting means (106) of the camera control device (102) via the network (105);
(114), guide information receiving means (115) for receiving the guide information transmitted by the guide information transmitting means (113) and its display position via the network (105), and a video received by the video receiving means (114). And guidance information receiving means
The guide information combining means (11) which combines the guide information received by (115) with the display position of the guide information and outputs the combined information to the monitor (104).
6) An information providing system comprising: 2. A camera (101) that can change a shooting direction and a zoom magnification, and a camera (101) that controls a shooting direction and a zoom magnification of the camera (101).
A camera control device (102) for transmitting the captured video of (101), a terminal (103) for receiving the video captured by the camera (101) and generating an output video, and a monitor for displaying the output video of the terminal (103) (104) and a network (105) for transmitting control data and video transmitted and received between the camera control device (102) and the terminal (103), wherein the camera control device (102) A video transmission means (106) for transmitting video to the terminal (103) via the network (105); and a camera information recording means (1) for recording a shooting direction and a zoom magnification.
09), a coordinate calculating means (110) for calculating an area where the camera (101) is shooting from the shooting direction and the zoom magnification, and a guide information recording means (111) for recording guide information and a position where the guide information is to be inserted. ), And when the guidance information recorded in the guidance information recording means (111) is included in the shooting area calculated by the coordinate calculation means (110), the guidance information determination for calculating the display position of the guidance information on the screen. Means (112), and a video guide information synthesizing means (116) for inserting guide information at a display position calculated by the guide information determining means (112) of the captured image of the camera (101), the terminal ( 103) comprises a video receiving means (114) for receiving the video transmitted by the video transmitting means (106) of the camera control device (102) via the network (105) and outputting to the monitor (104). Information providing system. 3. A command receiving means (107) for receiving a control command from the terminal (103) via a network (105), and a command received by the command receiving means (107). Camera control means (108) for controlling the camera (101) according to the above, wherein the terminal (103) further receives a shooting direction of the camera (101) and a zoom magnification change command from a user or an application. Command transmitting means (118) for transmitting the command received by the camera control interface (117) to the command receiving means (107) of the camera control apparatus (102) via the network (105).
The information providing system according to claim 1 or 2, further comprising: 4. The guide information recording means (111) further comprises means for recording guide information and a position at which the guide information is inserted, and recording a zoom magnification at which the guide information is valid, and determining the guide information. The means (112) further determines whether or not the insertion position of the guidance information recorded in the guidance information recording means (111) is included in the photographing area calculated by the coordinate calculation means (110), and furthermore, records the guidance information. Means (11
4. An information providing system according to claim 3, further comprising means for determining whether or not the current zoom magnification of the camera (101) is included in the effective zoom magnification recorded in (1). 5. The terminal (103) further comprises a guide information creation interface (2201) for inputting the content and the insertion position of the guide information by a user operation, and the camera control device (102) further comprises: From the content and insertion position of the guide information input at the information creation interface (2201), calculate the insertion position of the guide information with respect to the shooting direction and the zoom magnification of the camera (101), and register it in the guide information recording means (111). Coordinate calculation means (2202)
The information providing system according to claim 3, comprising: 6. The guide information creation interface (2201)
Further comprises means for holding a position specifying still image of the guide information, and specifying a guide information insertion position by pasting the position specifying still image to a video on the monitor (104). The information providing system according to claim 5. 7. A camera (101) that can change a shooting direction and a zoom magnification, and a camera that controls the shooting direction and the zoom magnification of the camera (101).
A camera control device (102) for transmitting the captured video of (101), a terminal (103) for receiving the video captured by the camera (101) and generating an output video, and a monitor for displaying the output video of the terminal (103) (104) and a network (105) for transmitting control data and video transmitted and received between the camera control device (102) and the terminal (103), wherein the camera control device (102) A video transmission means (106) for transmitting video to the terminal (103) via the network (105); and a camera information recording means (1) for recording a shooting direction and a zoom magnification.
09), a coordinate calculation means (110) for calculating an area where the camera (101) is shooting from the shooting direction and the zoom magnification, and a command for receiving a control command from the terminal (103) via the network (105). Receiving means (107), camera control means (108) for controlling the camera (101) in accordance with the command received by the command receiving means (107), and video transmitted from the camera information recording means (109). A display area calculation means (2701) for obtaining a difference between the shooting areas from the current shooting direction and zoom magnification and the current shooting direction and zoom magnification; and a network (105) for obtaining the difference information obtained by the display area calculation means (2701). Display area transmitting means for transmitting to the terminal (103) via the
(2702), wherein the terminal (103) receives an image transmitted by the image transmission means (106) of the camera control device (102) via the network (105) and outputs the image to the monitor (104). Receiving means (114), a camera control interface (117) for receiving a command to change the shooting direction and zoom magnification of the camera (101) from a user or an application, and a command received by the camera control interface (117) via a network (105). Command transmitting means (118) for transmitting to the command receiving means (107) of the camera control device (102)
Display area receiving means (270) for receiving the difference information transmitted by the display area transmitting means (2702) via the network (105).
3) and a video area cutout unit (2704) that cuts out a part of the video received by the video reception unit (114) based on the difference information received by the display area reception unit (2703) and outputs it to the monitor (104). An information providing system comprising: 8. The display area calculation means (2701) further comprises means for obtaining the size of the cutout area of the display image based on the maximum change width of the display area which changes during the time required for transmitting one frame of image. The information providing system according to claim 7, wherein: 9. The terminal (103) further comprises a display size unifying means (4001) for converting display data so that an image cut out by the image area cutout means (2704) is always displayed at a constant size. The information providing system according to claim 7, wherein: 10. A camera (101) that can change a shooting direction and a zoom magnification, and a camera that controls the shooting direction and the zoom magnification of the camera (101).
A camera control device (102) for transmitting the captured video of (101), a terminal (103) for receiving the video captured by the camera (101) and generating an output video, and a monitor for displaying the output video of the terminal (103) (104) and a network (105) for transmitting control data and video transmitted and received between the camera control device (102) and the terminal (103), wherein the camera control device (102) A video transmission means (106) for transmitting video to the terminal (103) via the network (105); and a camera information recording means (1) for recording a shooting direction and a zoom magnification.
09), a coordinate calculation means (110) for calculating an area where the camera (101) is shooting from the shooting direction and the zoom magnification, and a command for receiving a control command from the terminal (103) via the network (105). Receiving means (118), camera control means (108) for controlling the camera (101) in accordance with the command received by the command receiving means (107), and the transmission video is always constant based on the zoom magnification of the camera (101). Transmission area calculation means (4501) for cutting out a captured image so as to be a shooting area, and video transmission means for transmitting the image cut out by the transmission area calculation means (4501) to the terminal (103) via the network (105). (Ten
6), the terminal (103), video receiving means (114) for receiving the video transmitted by the video transmitting means (106) 7 of the camera control device (102) via the network (105), A camera control interface (117) for receiving a command for changing the shooting direction and zoom magnification of the camera (101) from a user or an application; and a command receiving means (107) for the camera control device (102) for receiving the command received by the camera control interface (117). Command transmitting means (118) for transmitting to the network via the network (105)
An information providing system comprising: 11. When the command receiving means (107) further receives a command to change the photographing direction and zoom magnification of the camera (101), the command receiving means (107) does not transmit the command to the camera control means (108), but calculates the transmission area. 11. The information providing apparatus according to claim 10, further comprising: means for transmitting the information to the means (4501); and the transmitting area calculating means (4501) further comprising means for changing the position and size of the image cutout area. system. 12. The information providing system according to claim 11, wherein the terminal further comprises a plurality of video combining means for combining a plurality of videos. 13. The guide information recording means (111) for recording the guide information and the position where the guide information is to be inserted, wherein the camera control device (102) further comprises: guide information recorded in the guide information recording means (111). Is included in the shooting area calculated by the coordinate calculating means (110), the guide information determining means (112) for calculating the display position of the guide information on the screen, and the guide information of the image shot by the camera (101). Video guidance information synthesizing means (116) for inserting guidance information at the display position calculated by the deciding means (112), wherein the terminal (103) further comprises a video transmission means (106) of the camera control device (102). 13. The information providing system according to claim 7, further comprising: a video receiving unit (114) for receiving the video transmitted by the third party via a network (105) and outputting the video to a monitor. 14. The camera control device (102) further includes: guidance information recording means (111) for recording guidance information and a position at which the guidance information is inserted; and guidance information recorded in the guidance information recording means (111). Is included in the photographing area calculated by the coordinate calculating means (110), a guide information determining means (112) for calculating a display position of the guide information on the screen, and a display calculated by the guide information determining means (112). A guide information transmitting means (113) for transmitting the position and the guide information to the terminal (103) via the network (105), wherein the terminal (103) further comprises a guide transmitted by the guide information transmitting means (113). Guidance information receiving means (115) for receiving information and its display position via the network (105); and a video and guidance information receiving means received by the video receiving means (114).
The guide information combining means (11) which combines the guide information received by (115) with the display position of the guide information and outputs the combined information to the monitor (104).
6. The method according to claim 7, wherein
2. The information providing system according to 2.