JP3810343B2 - Video system, video device, software installation method, program for executing the method, and recording medium storing the program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a video system (for example, a video monitoring system) configured by connecting a plurality of video devices over a network and a video device (for example, a video recording / reproducing apparatus) configuring the system, and more particularly to each video device. It relates to software installation (including new installation and update installation).
[0002]
[Prior art]
FIG. 36 is a block diagram schematically showing a configuration of a conventional video surveillance system (video system) configured by connecting the time-lapse recording / reproducing apparatus 1 and a personal computer (PC) 18 to a network. In this video surveillance system, video captured by a plurality of cameras 16 is continuously (for example, 30 frames per second) or intermittent (for example, one frame or several minutes per second) by the time-lapse recording / reproducing apparatus 1. 1 frame). The video being captured or the recorded video is displayed on the entire screen of the external monitor 17 or on a split screen (for example, 4 splits, 9 splits, 16 splits, etc.). In addition, the image being recorded or the recorded image is transferred to the PC 18 through the network cable (line) 19 and displayed.
[0003]
The time lapse recording / reproducing apparatus 1 operates based on installed software. Software-based operations (functions) include a motion detector function that starts a recording operation when camera motion is detected, multiple types of display functions, multiple types of recording functions, etc. Various functions for realizing monitoring are included. The software is installed in the time lapse recording / reproducing apparatus 1 by causing a reading unit of the time lapse recording / reproducing apparatus 1 to read a recording medium (media) on which the software is recorded, or by downloading from the PC 18 through the line 19. .
[0004]
[Problems to be solved by the invention]
However, when installing software in a video surveillance system including a plurality of time-lapse recording / playback devices, the software installation operation must be repeated for each of the plurality of time-lapse recording / playback devices. For this reason, the installation of software in a large-scale video surveillance system with a large number of time-lapse recording / reproducing apparatuses is a troublesome operation requiring time and labor for the administrator.
[0005]
Therefore, the present invention has been made to solve the above-described problems of the prior art, and the object of the present invention is to reduce the burden of software installation work for each of a plurality of video devices connected to a network. Another object of the present invention is to provide a video system, a video device, a software installation method, a program for executing the method, and a recording medium storing the program.
[0006]
[Means for Solving the Problems]
  The video system according to claim 1 is a video system including a plurality of video devices that operate based on installed software, and a line that connects the plurality of video devices to a network, and each of the plurality of video devices. But,
  Installed software information indicating the software installed on itself,
  Version information indicating the version of software installed on the device;
  Model information indicating the model of the video device supported by the software installed in the device,
  Reference destination information for identifying a reference destination video device for detecting whether the software information and the version information of the software installed in the software is changed or not,
  Notification destination information for specifying a notification destination video device for notifying that the software information and the version information of the software installed in the device have been changed, and
  Download destination information for specifying the download destination for downloading to the self from the download destination;
  HoldHolding means to,
  A specific video device among the plurality of video devices is:The software information and the version information of another video device that is the reference destination video deviceSee thisAs a result of the reference, it is detected that the software information and the version information relating to the software installed in the specific video device are different from the software information and the version information relating to the software installed in the other video device. The software information and the version information related to the software installed in the specific video device are matched with the software information and the version information related to the software installed in the other video device. Installation of software on the specific video equipment by downloading through the line from the download destination specified by the download destination informationHaving control means to execute
  It is characterized by that.
[0007]
  In addition, the video system according to claim 2 is another specific video device among the plurality of video devices.IsThe software information and the version information of the other specific video equipmentSee thisAs a result of the reference, the software information and the version information related to the software installed in the further specific video device are the software information and the version information related to the software installed in the other specific video device. When it is detected that there is a difference, the software information related to the software installed on the other specific video device and the version information are the software information related to the software installed on the other specific video device, and Installation of software on the other specific video equipment by downloading through the line from the download destination specified by the download destination information so as to match the version informationHave other control means to performIt is characterized by that.
[0008]
  In addition, the video system according to claim 3 is another specific video device among the plurality of video devices.IsThe software information and the version information of the specific video equipmentSee thisAs a result of the reference, the software information and the version information related to the software installed in the further specific video device are different from the software information and the version information related to the software installed in the specific video device. Is detected, the software information and the version information related to the software installed in the further specific video device are converted into the software information and the version information related to the software installed in the specific video device. Installation of software on the other specific video device by downloading through the line from the download destination specified by the download destination information so as to matchHave other control means to performIt is characterized by that.
[0009]
  A video system according to claim 4 is:The control means of the specific video equipment is:Reference to the software information and the version information of the other specific video equipmentThe, Run at predetermined time intervalsDoIt is characterized by that.
[0010]
  The video system according to claim 5 is:The other control means of the other specific video equipment is:Reference to the software information and the version information of the other specific video equipmentThe, Run at predetermined time intervalsDoIt is characterized by that.
[0011]
  A video system according to claim 6 is:The other control means of the other specific video equipment is:Reference to the software information and the version information of the specific video equipmentThe, Run at predetermined time intervalsDoIt is characterized by that.
[0012]
  A video system according to claim 7 is:The other specific video equipment is:When there is a change in the software information and the version information of the other specific video device, the other specific video device is notified to the video device designated by the notification destination information held by itself. Notifying that the software information and the version information of the specific video equipment have changedHas notification meansIt is characterized by that.
[0013]
  An image system according to claim 8 isThe other specific video equipment is:When there is a change in the software information and the version information of the other specific video device, the other specific video device is connected to all other video devices connected to the network. Notify that there has been a change in the software information and the version information of the video equipmentHas notification meansIt is characterized by notifying that.
[0014]
  A video system according to claim 9 is:The specific video equipment isWhen the software information and the version information of the specific video device are changed, the specific video device is connected to the video device specified by the notification destination information held by the specific video device. Notify that the software information and the version information have changedHas notification meansIt is characterized by that.
[0015]
  A video system according to claim 10 is:The specific video equipment isWhen the software information and the version information of the specific video device are changed, the software information of the specific video device is transmitted to all video devices connected to the network by the specific video device. And that the version information has changedHas notification meansIt is characterized by that.
[0016]
The video system according to claim 11 is characterized in that the other specific video device has a recording medium reading unit, and software installation to the other specific video device is performed by the recording medium reading unit. It is characterized by being executed using software read from the program.
[0017]
  An image system according to claim 11The other specific video device includes a recording medium reading unit and means for executing installation of software on the other specific video device using software read from the recording medium by the recording medium reading unit. It is characterized by having.
[0018]
  Claims12The video system according to the present invention is characterized in that a download destination specified by the download destination information held by the specific video device is the other specific video device.
[0019]
  Claims13In the video system according to the present invention, the download destination specified by the download destination information held by the further specific video device is the other specific video device.
[0020]
  Claims14In the video system according to the present invention, the download destination specified by the download destination information held by the further specific video device is the specific video device.
[0021]
  Claims15A video system having a host device connected to the line and controlling the operation of the plurality of video devices, wherein the download destination specified by the download destination information held by the other specific video device is the It is a host device.
[0022]
  Claims16In the video system according to the present invention, the download destination specified by the download destination information held by the specific video device and the other specific video device is the host device.
[0023]
  Claims17The video system has a host device that is connected to the line and controls operations of the plurality of video devices, and the download destination information held by the specific video device and the other specific video device is The download destination to be specified is the host device.
[0024]
  Claims18In the video system according to the present invention, the installation of software for each of the plurality of video devices includes both a new installation that installs the installation target software for the first time and an update installation that rewrites all or part of the already installed software. It is characterized by that.
[0028]
  The video device according to claim 19 is a video device having a network interface for network connection to another video device through a line and operating based on installed software,
  Installed software information indicating the software installed on itself,
  Version information indicating the version of software installed on the device;
  Model information indicating the model of the video device supported by the software installed in the device,
  Reference destination information for identifying a reference destination video device for detecting whether the software information and the version information of the software installed in the software is changed or not,
  Notification destination information for specifying a notification destination video device for notifying that the software information and the version information of the software installed in the device have been changed, and
  Download destination information for specifying the download destination for downloading to the self from the download destination;
  HoldHolding means to,
  Refer to the software information and the version information of the other video equipment that is the reference video equipment, the result of this reference,When it is detected that the software information and the version information relating to software installed in the device are different from the software information and the version information relating to software installed in another video device designated by the reference destination information In addition, the software information and the version information related to the software installed in itself are matched with the software information and the version information related to the software installed in the other video device specified by the reference destination information. Software installation by downloading from the download destination specified by the download destination information through the lineControl means to execute
  HaveIt is characterized by that.
[0029]
  The video device according to claim 20 changes the software information and the version information to another video device specified by the notification destination information when the software information and the version information of the video device are changed. Notify that there wasHas notification meansIt is characterized by that.
[0030]
  Claims21The video equipment according to the present invention is characterized in that the installation of the software on the video equipment includes both a new installation that installs the installation target software for the first time and an update installation that rewrites all or part of the already installed software. Yes.
[0031]
  A video device according to claim 22 is a video recording device.Recording meansAnd playbackPlayback meansAt least one ofHaveIt is a video recording / reproducing apparatus.
[0035]
  Claims23The software installation method according to the present invention includes a plurality of video devices that operate based on installed software, and a line that connects the plurality of video devices to a network, and each of the plurality of video devices includes:Installed software information indicating software installed on itself, version information indicating the version of software installed on itself, model information indicating the model of a video device supported by the software installed on itself, and , Reference destination information for identifying a reference destination video device for detecting whether the software information and the version information of the software installed in the device are changed, and installed in the device itself. Notification destination information for specifying a video device as a notification destination for notifying that the software information and version information of software have changed, and specifying the download destination for downloading from the download destination to the self Download destination information and RetentionA software installation method for a video system, wherein a specific video device of the plurality of video devices is connected to another specific video device of the plurality of video devices.The software information and the version informationAnd refer to the software installed on the specific video device.The software information and the version informationIs related to software installed on the other specific video equipmentThe software information and the version informationRelated to software installed on the specific video deviceThe software information and the version informationThe software installed on the other specific video equipmentThe software information and the version informationTo matchSpecify the download destination from the download destinationSoftware installation for the specific video equipment is executed by downloading through the line.
[0054]
  Claims24The recording medium according to the present invention includes a plurality of video devices that operate based on installed software, and a line that connects the plurality of video devices over a network,
  Each of the plurality of video devices isInstalled software information indicating software installed on itself, version information indicating the version of software installed on itself, model information indicating the model of a video device supported by the software installed on itself, and , Reference destination information for identifying a reference destination video device for detecting whether the software information and the version information of the software installed in the device are changed, and installed in the device itself. Notification destination information for specifying a video device as a notification destination for notifying that the software information and version information of software have changed, and specifying the download destination for downloading from the download destination to the self Download destination information and RetentionA recording medium storing a program for executing a process for installing software in the specific video device, wherein the specific video device is a recording medium of the other specific video device.The software information and the version informationAnd the software installed in the specific video deviceThe software information and the version informationIs related to software installed on the other specific video equipmentThe software information and the version informationRelated to software installed on the specific video deviceThe software information and the version informationThe software installed on the other specific video equipmentThe software information and the version informationTo matchSpecify the download destination from the download destinationAnd a process of installing software for the specific video equipment by downloading through the line.
[0057]
  Claims25The program according to the invention includes a plurality of video devices that operate based on installed software, and a line that connects the plurality of video devices to a network.
  Each of the plurality of video devices isInstalled software information indicating software installed on itself, version information indicating the version of software installed on itself, model information indicating the model of a video device supported by the software installed on itself, and , Reference destination information for identifying a reference destination video device for detecting whether the software information and the version information of the software installed in the device are changed, and installed in the device itself. Notification destination information for specifying a video device as a notification destination for notifying that the software information and version information of software have changed, and specifying the download destination for downloading from the download destination to the self Download destination information and RetentionIn the video system, a program for executing a process of installing software on the specific video device, wherein the specific video device is connected to the other specific video device.The software information and the version informationAnd the software installed in the specific video deviceThe software information and the version informationIs related to software installed on the other specific video equipmentThe software information and the version informationRelated to software installed on the specific video deviceThe software information and the version informationThe software installed on the other specific video equipmentThe software information and the version informationTo matchSpecify the download destination from the download destinationAnd a process of installing software for the specific video equipment by downloading through the line.
[0060]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a block diagram schematically showing a configuration of a video system according to Embodiment 1 of the present invention.
[0061]
As shown in FIG. 1, the video system according to Embodiment 1 includes a plurality of video devices and a line 100 that connects the plurality of video devices over a network. FIG. 1 shows a first video device 111 and a second video device 112 among a plurality of video devices. Each of the plurality of video devices is, for example, a video recording / playback apparatus having at least one of video recording and playback functions, and the video system is, for example, a video monitoring system. The line 100 is, for example, a local area network using Ethernet (registered trademark) technology. The line 100 may be either wired or wireless.
[0062]
The first video equipment 111 incorporates a storage device such as a hard disk device or a semiconductor memory, and operates based on software installed in itself. The second video equipment 112 has a built-in storage device such as a hard disk device or a semiconductor memory, and operates based on software installed in itself. The first video device 111 and the second video device 112 include all devices that operate based on installed software. The first video device 111 and the second video device 112 are usually the same model, but are not necessarily the same model. In addition, the same software is usually installed in the first video equipment 111 and the second video equipment 112, but the models of the first video equipment 111 and the second video equipment 112 are different or required. Different software may be installed if performance is different.
[0063]
The first video equipment 111 holds management information relating to installed software (for example, version information for identifying installed software) in the storage device. Similarly, the second video equipment 112 holds management information related to installed software (for example, version information specifying the installed software) in the storage device. Further, the second video equipment 112 has first reference destination information (one piece of linkage information for linking video equipments) indicating that the reference destination of the management information is the first video equipment 111 in the recording device. .) Here, the “reference destination information” is information that identifies another video device that holds management information to be compared with management information related to software installed in itself. The second video equipment 112 detects the management information of the first video equipment 111 that is the reference destination specified by the first reference destination information at every predetermined time interval. Note that the management information may include other information such as model information of video equipment to which the software can be applied and information indicating that the software is not installed.
[0064]
As a result of referring to the management information related to the software installed in the first video equipment 111, the second video equipment 112 receives the management information related to the software installed in the second video equipment 112 as the first video equipment 111. When it is detected that the management information is different from the management information related to the software installed in the first video device 112, the management information related to the software installed in the first video device 111 is changed to the management information related to the software installed in the first video device 111. The software is installed on the second video equipment 112 by downloading through the line 100 so as to match the above. The installation includes both a new installation that installs software to be installed for the first time and an update installation that rewrites all or a part of already installed software. This installation is normally executed automatically, but a configuration may be adopted in which the installation start time is determined by an operation of the administrator. In the first embodiment, the download is executed using software stored in the first video equipment 111. In the first embodiment, the second video equipment 112 holds download destination information for specifying a download destination for downloading through the line 100 to itself. In the first embodiment, the download destination specified by the download destination information held by the second video equipment 112 is the first video equipment 111.
[0065]
Next, the operation of the video system according to Embodiment 1 will be described. The software is installed in the first video equipment 111 using the recording medium 101 holding the installation software (which may include an installer which is a setup program). With this installation, management information related to software installed in the first video equipment 111 is also updated. Thereafter, when the second video device 112 refers to the management information related to the software installed in the first video device 111, the management information related to the software installed in the first video device 111 becomes the second video. It is detected that the management information regarding the software installed in the device 112 is different. At this time, the second video equipment 112 matches the management information related to the software installed in the second video equipment 112 with the management information related to the software installed in the first video equipment 111. The software is installed in the second video equipment 112 by downloading from the video equipment 111.
[0066]
As described above, according to the video system according to the first embodiment, when software is installed on the first video device 111 using the recording medium 101, the second video device 112 is automatically In addition, since the software is installed, the burden of software installation work can be reduced even when there are a large number of video devices constituting the video system. In other words, the administrator can handle the installation of software as if the entire video system is a single device.
[0067]
Note that the first video equipment 111 and the second video equipment 112 can acquire the software automatic installation function as described above from a recording medium holding the program or by downloading the program. .
[0068]
Embodiment 2. FIG.
FIG. 2 is a block diagram schematically showing the configuration of the video system according to Embodiment 2 of the present invention. In FIG. 2, the same reference numerals are given to the same or corresponding components as those in FIG.
[0069]
As shown in FIG. 2, the video system according to Embodiment 2 includes a plurality of video devices, a personal computer (PC) 102, and a line 100 that connects these to the network. FIG. 2 shows a first video device 111 and a second video device 112 among a plurality of video devices. The configurations of the first video equipment 111 and the second video equipment 112 are the same as those in the first embodiment (FIG. 1). In the second embodiment, the second video device 112 stores download destination information indicating that the software download destination is the first video device 111.
[0070]
Next, the operation of the video system according to Embodiment 2 will be described. First, using the PC 102 in which the recording medium 101 holding the installation software (which may include an installer) is inserted into the reading unit, or using the PC 102 that already holds the installation software, the first video is displayed. Software is installed in the device 111. With this installation, management information related to software installed in the first video equipment 111 is also updated. Thereafter, when the second video device 112 refers to the management information related to the software installed in the first video device 111, the management information related to the software installed in the first video device 111 becomes the second video. It is detected that the management information regarding the software installed in the device 112 is different. At this time, the second video equipment 112 matches the management information related to the software installed in the second video equipment 112 with the management information related to the software installed in the first video equipment 111. The software is installed in the second video equipment 112 by downloading from the video equipment 111.
[0071]
As described above, according to the video system according to the second embodiment, if software is installed on the first video equipment 111 using the PC 102, the second video equipment 112 is automatically Since the software is installed, the burden of software installation work can be reduced even when there are many video devices that make up the video system. In other words, the administrator can handle the installation of software as if the entire video system is a single device.
[0072]
In the second embodiment, points other than those described above are the same as those in the first embodiment.
[0073]
Embodiment 3 FIG.
FIG. 3 is a block diagram schematically showing the configuration of the video system according to Embodiment 3 of the present invention. 3, the same reference numerals are given to the same or corresponding components as those in FIG.
[0074]
The video system according to the third embodiment is different from the second embodiment in that the software installation to the second video equipment 112 is executed by downloading from the PC 102 by downloading from the first video equipment 111. It is different from the video system. That is, in the video system according to the third embodiment, the second video equipment 112 stores download destination information indicating that the software download destination is the PC 102.
[0075]
In the third embodiment, points other than those described above are the same as those in the first or second embodiment.
[0076]
Embodiment 4 FIG.
FIG. 4 is a block diagram schematically showing the configuration of the video system according to Embodiment 4 of the present invention. In FIG. 4, the same reference numerals are given to the same or corresponding components as those in FIG.
[0077]
The video system according to the fourth embodiment includes a plurality of video devices and a line 100 that connects the plurality of video devices over a network. FIG. 4 shows a first video device 111, a second video device 112, and a third video device 113 among a plurality of video devices. Each of the plurality of video devices is, for example, a video recording / playback apparatus having at least one of video recording and playback functions, and the video system is, for example, a video monitoring system.
[0078]
The third video equipment 113 includes a storage device such as a hard disk device or a semiconductor memory, and operates based on software installed in itself. The first to third video devices 111 to 113 are usually the same model, but are not necessarily the same model. In addition, the same software is usually installed in the first to third video devices 111 to 113, but when the models of the first to third video devices 111 to 113 are different or required performance is obtained. If different, different software may be installed.
[0079]
The third video equipment 113 holds management information relating to installed software (for example, version information for identifying installed software) in the storage device. Further, the third video equipment 113 has the recording device with second reference destination information (one piece of linkage information for linking the video equipments) indicating that the reference destination of the management information is the first video equipment 111. .) The third video equipment 113 detects the management information of the first video equipment 111 that is the reference destination specified by the second reference destination information at every predetermined time interval. Note that the management information may include other information such as model information of video equipment to which the software can be applied and information indicating that the software is not installed.
[0080]
As a result of referring to the management information related to the software installed in the first video equipment 111, the third video equipment 113 receives the management information related to the software installed in the third video equipment 113 as the first video equipment 111. When it is detected that the management information is different from the management information related to the software installed in the first video device 111, the management information related to the software installed in the first video device 111 is changed to the management information related to the software installed in the first video device 111. The software is installed on the third video equipment 113 by downloading through the line 100 so as to match the above. The installation includes both a new installation that installs software to be installed for the first time and an update installation that rewrites all or a part of already installed software. This installation is normally executed automatically, but a configuration may be adopted in which the installation start time is determined by an operation of the administrator. In the fourth embodiment, the download is executed using software stored in the first video equipment 111. In the fourth embodiment, the download destination specified by the download destination information held by the third video equipment 113 is the first video equipment 111.
[0081]
Next, the operation of the video system according to Embodiment 4 will be described. The software is installed in the first video equipment 111 using the recording medium 101 holding the installation software (which may include an installer which is a setup program). With this installation, management information related to software installed in the first video equipment 111 is also updated. Thereafter, when the second video device 112 refers to the management information related to the software installed in the first video device 111, the management information related to the software installed in the first video device 111 becomes the second video. It is detected that the management information regarding the software installed in the device 112 is different. At this time, the second video equipment 112 matches the management information related to the software installed in the second video equipment 112 with the management information related to the software installed in the first video equipment 111. The software is installed in the second video equipment 112 by downloading from the video equipment 111.
[0082]
Similarly, when the third video device 113 refers to the management information related to the software installed in the first video device 111, the management information related to the software installed in the first video device 111 becomes the third video. It is detected that the management information regarding the software installed in the device 113 is different. At this time, the third video equipment 113 matches the management information related to the software installed in the third video equipment 113 with the management information related to the software installed in the first video equipment 111. The software is installed in the third video equipment 113 by downloading from the video equipment 111.
[0083]
As described above, according to the video system according to the fourth embodiment, if the software installation is executed on the first video device 111 using the recording medium 101, the second video device 112 and the third video device Since the software is automatically installed in the video equipment 113, the burden of software installation work can be reduced even when there are many video equipments constituting the video system. In other words, the administrator can handle the installation of software as if the entire video system is a single device.
[0084]
In the fourth embodiment, points other than the above are the same as those in any of the first to third embodiments.
[0085]
Further, the third video equipment 113 can acquire the automatic software installation function as described above from a recording medium holding the program or by downloading the program.
[0086]
Embodiment 5. FIG.
FIG. 5 is a block diagram schematically showing the configuration of the video system according to Embodiment 5 of the present invention. In FIG. 5, the same reference numerals are given to the same or corresponding components as those in FIG. 4.
[0087]
In the video system according to the fifth embodiment, the third video equipment 113 has management information related to software installed in the second video equipment 112, management information related to software installed in the third video equipment 113. Is detected so that the management information related to the software installed in the third video equipment 113 matches the management information related to the software installed in the second video equipment 112. The software is installed in the third video equipment 113 by the downloaded download. This installation is normally executed automatically, but a configuration may be adopted in which the installation start time is determined by an operation of the administrator. In the video system according to the fifth embodiment, the download to the third video equipment 113 is executed using software stored in the second video equipment 112. That is, in the fifth embodiment, the third video equipment 113 stores download destination information indicating that the new video download destination is the second video equipment 112.
[0088]
In the fifth embodiment, points other than those described above are the same as any one of the first to fourth embodiments.
[0089]
Embodiment 6 FIG.
FIG. 6 is a block diagram schematically showing the configuration of the video system according to Embodiment 6 of the present invention. In FIG. 6, the same or corresponding components as those in FIG.
[0090]
The video system according to Embodiment 6 has a recording medium that holds software for installation (may include an installer) for installing software for the second video equipment 112 and installing software for the third video equipment 113. This is different from the video system of the fourth embodiment (FIG. 4) in that it is executed using the PC 102 having the 101 inserted in the reading unit or using the PC 102 that already holds the installation software. That is, in the video system according to the sixth embodiment, each of the second video equipment 112 and the third video equipment 113 stores download destination information indicating that the software download destination is the PC 102.
[0091]
In the sixth embodiment, points other than those described above are the same as those in any of the first to fifth embodiments.
[0092]
Embodiment 7 FIG.
FIG. 7 is a block diagram schematically showing the configuration of the video system according to Embodiment 7 of the present invention.
[0093]
As shown in FIG. 7, the video system according to the seventh embodiment includes a plurality of video devices and a line 100 that connects the plurality of video devices over a network. FIG. 1 shows a first video device 121 and a second video device 122 among a plurality of video devices. Each of the plurality of video devices is, for example, a video recording / playback apparatus having at least one of video recording and playback functions, and the video system is, for example, a video monitoring system. The line 100 is, for example, a local area network using Ethernet (registered trademark) technology. The line 100 may be either wired or wireless.
[0094]
The first video equipment 121 has a built-in storage device such as a hard disk device or a semiconductor memory, and operates based on software installed in itself. Further, the second video equipment 121 has a built-in storage device such as a hard disk device or a semiconductor memory, and operates based on software installed in itself. The first video device 121 and the second video device 122 include all devices that operate based on installed software. The first video equipment 121 and the second video equipment 122 are usually the same model, but are not necessarily the same model. In addition, the same software is usually installed in the first video equipment 121 and the second video equipment 122, but the first video equipment 121 and the second video equipment 122 are different or required. Different software may be installed if the performance is different.
[0095]
The first video equipment 121 holds management information relating to installed software (for example, version information for identifying installed software) in the storage device. Similarly, the second video equipment 122 holds management information related to installed software (for example, version information specifying the installed software) in the storage device. Further, the first video device 121 has a first notification destination information indicating that the notification destination of the occurrence of the change of the management information is the second video device 122 (links the video devices to each other). One of the linkage information to be generated). Also, the second video equipment 122 has first reference destination information (one piece of linkage information for linking video equipments) indicating that the reference destination of management information is the first video equipment 121 in the recording device. .) Here, the “reference destination information” is information that identifies another video device that holds management information to be compared with management information related to software installed in itself. Note that the management information may include other information such as model information of video equipment to which the software can be applied and information indicating that the software is not installed.
[0096]
In the seventh embodiment, the management information is not referred to at every predetermined time interval as in the first embodiment (FIG. 1), but the management information is notified from the first video equipment 121. When there is, the management information reference by the second video equipment 122 is executed.
[0097]
As a result of referring to the management information related to the software installed in the second video equipment 121, the second video equipment 122 receives the management information related to the software installed in the second video equipment 122 as the first video equipment 121. When it is detected that the management information is different from the management information related to the software installed in the first video device 122, the management information related to the software installed in the first video device 121 is changed to the management information related to the software installed in the first video device 121. The software is installed on the second video equipment 122 by downloading through the line 100 so as to match the above. The installation includes both a new installation that installs software to be installed for the first time and an update installation that rewrites all or a part of already installed software. This installation is normally executed automatically, but a configuration may be adopted in which the installation start time is determined by an operation of the administrator. In the seventh embodiment, the download is executed using software stored in the first video equipment 121. In the seventh embodiment, the download destination specified by the download destination information held by the second video equipment 122 is the first video equipment 121.
[0098]
Next, the operation of the video system according to Embodiment 7 will be described. The software is installed in the first video equipment 121 using the recording medium 101 holding the installation software (may include an installer which is a setup program). With this installation, management information related to software installed in the first video equipment 121 is also updated. At this time, the first video device 121 has been changed in the management information of the first video device 121 with respect to the second video device 122 specified by the notification destination information (that is, installed). Notification that the software has changed. However, the notification from the first video device 121 may be sent to all the video devices (not shown in FIG. 7) connected to the network. Upon receiving this notification, the second video equipment 122 refers to the management information related to the software installed in the first video equipment 121, and the management information related to the software installed in the first video equipment 121 is the second. It is detected that the management information is different from the management information related to the software installed in the video equipment 122. At this time, the second video equipment 122 matches the management information related to the software installed in the second video equipment 122 with the management information related to the software installed in the first video equipment 121. The new software is installed in the second video equipment 122 by downloading from the video equipment 121.
[0099]
As described above, according to the video system according to the seventh embodiment, if software is installed on the first video device 121 using the recording medium 101, the second video device 122 is automatically installed. In addition, since the software is installed, the burden of software installation work can be reduced even when there are a large number of video devices constituting the video system. In other words, the administrator can handle the installation of software as if the entire video system is a single device.
[0100]
Note that the first video device 121 and the second video device 122 can obtain the automatic software installation function as described above from a recording medium holding the program or by downloading the program. .
[0101]
Embodiment 8 FIG.
FIG. 8 is a block diagram schematically showing the configuration of the video system according to Embodiment 8 of the present invention. In FIG. 8, the same or corresponding components as those in FIG.
[0102]
As shown in FIG. 8, the video system according to the eighth embodiment includes a plurality of video devices, a personal computer (PC) 102, and a line 100 that connects these to the network. FIG. 8 shows a first video device 121 and a second video device 122 among a plurality of video devices. The configurations of the first video equipment 121 and the second video equipment 122 are the same as those of the seventh embodiment (FIG. 7). In the eighth embodiment, the software download destination of the first video equipment 121 is the PC 102. Further, the second video device 122 stores download destination information indicating that the software download destination is the first video device 121.
[0103]
Next, the operation of the video system according to Embodiment 8 will be described. The first video equipment 121 using the PC 102 in which the recording medium 101 holding the installation software (which may include an installer) is inserted into the reading unit, or using the PC 102 already holding the installation software. Install the software on With this installation, management information related to software installed in the first video equipment 121 is also updated. At this time, the first video device 121 has changed the management information of the first video device 121 with respect to the second video device 122 (that is, the installed software has changed). ). However, the notification from the first video device 121 may be sent to all the video devices (not shown in FIG. 7) connected to the network. Upon receiving this notification, the second video equipment 122 refers to the management information related to the software installed in the first video equipment 121, and the management information related to the software installed in the first video equipment 121 is the second. It is detected that the management information is different from the management information related to the software installed in the video equipment 122. At this time, the second video equipment 122 matches the management information related to the software installed in the second video equipment 122 with the management information related to the software installed in the first video equipment 121. The software is installed in the second video equipment 122 by downloading from the video equipment 121.
[0104]
As described above, according to the video system according to the eighth embodiment, if software is installed on the first video equipment 121 using the PC 102, the second video equipment 122 is automatically Since the software is installed, the burden of software installation work can be reduced even when there are many video devices that make up the video system. In other words, the administrator can handle the installation of software as if the entire video system is a single device.
[0105]
In the eighth embodiment, points other than the above are the same as in the seventh embodiment.
[0106]
Embodiment 9 FIG.
FIG. 9 is a block diagram schematically showing the configuration of the video system according to Embodiment 9 of the present invention. 9, the same reference numerals are given to the same or corresponding components as those in FIG.
[0107]
The video system according to the ninth embodiment is different from the eighth embodiment in that the software installation to the second video equipment 122 is executed by downloading from the PC 102 by downloading from the first video equipment 121. It is different from the video system. That is, in the video system according to Embodiment 9, the second video equipment 122 stores download destination information indicating that the software download destination is the PC 102.
[0108]
In the ninth embodiment, points other than the above are the same as in the seventh or eighth embodiment.
[0109]
Embodiment 10 FIG.
FIG. 10 is a block diagram schematically showing the configuration of the video system according to Embodiment 10 of the present invention. 10, components that are the same as or correspond to those in FIG. 7 are given the same reference numerals.
[0110]
The video system according to the tenth embodiment includes a plurality of video devices and a line 100 that connects the plurality of video devices over a network. FIG. 10 shows a first video device 121, a second video device 122, and a third video device 123 among a plurality of video devices. Each of the plurality of video devices is, for example, a video recording / playback apparatus having at least one of video recording and playback functions, and the video system is, for example, a video monitoring system.
[0111]
The first video equipment 121 holds management information relating to installed software (for example, version information for identifying installed software) in the storage device. Similarly, the second video equipment 122 holds management information related to installed software (for example, version information specifying the installed software) in the storage device. Further, the first video device 121 indicates to the recording device that the first notification destination indicates that the second video device 122 and the third video device 123 are the notification destinations that notify the occurrence of the change of the management information. It holds information (one piece of linkage information that links video devices). Also, the second video equipment 122 has first reference destination information (one piece of linkage information for linking video equipments) indicating that the reference destination of management information is the first video equipment 121 in the recording device. .) Also, the third video device 123 has the recording device that has second reference destination information (one piece of linkage information for linking video devices to each other) indicating that the reference destination of the management information is the first video device 121. .) Here, the “reference destination information” is information that identifies another video device that holds management information to be compared with management information related to software installed in itself. Note that the management information may include other information such as model information of video equipment to which the software can be applied and information indicating that the software is not installed.
[0112]
Next, the operation of the video system according to Embodiment 10 will be described. The software is installed in the first video equipment 121 using the recording medium 101 holding the installation software (may include an installer which is a setup program). With this installation, management information related to software installed in the first video equipment 121 is also updated. At this time, the first video device 121 has changed the management information of the first video device 121 with respect to the second video device 122 and the third video device 123 (that is, the software has been changed). Notification). However, the notification from the first video device 121 may be made to all the video devices (not shown in FIG. 10) connected to the network.
[0113]
Upon receiving this notification, the second video equipment 122 refers to the management information related to the software installed in the first video equipment 121, and the management information related to the software installed in the first video equipment 121 is the second. It is detected that the management information is different from the management information related to the software installed in the video equipment 122. At this time, the second video equipment 122 matches the management information related to the software installed in the second video equipment 122 with the management information related to the software installed in the first video equipment 121. The new software is installed in the second video equipment 122 by downloading from the video equipment 121.
[0114]
Similarly, the third video device 123 detects that the management information regarding the software installed in the first video device 121 is different from the management information regarding the software installed in the third video device 123. . At this time, the third video equipment 123 matches the management information related to the software installed in the third video equipment 123 with the management information related to the software installed in the first video equipment 121. The new software is installed in the video equipment 123.
[0115]
As described above, according to the video system according to the tenth embodiment, if software installation is performed on the first video device 121 using the recording medium 101, the second video device 122 and the third video device Since the software is automatically installed in the video equipment 123, even when there are many video equipments constituting the video system, the burden of software installation work can be reduced. In other words, the administrator can handle the installation of software as if the entire video system is a single device. Note that the number of video devices may be four or more.
[0116]
In the tenth embodiment, points other than the above are the same as those in the seventh embodiment.
[0117]
Further, the third video equipment 123 can acquire the automatic software installation function as described above from a recording medium holding the program or by downloading the program.
[0118]
Embodiment 11 FIG.
FIG. 11 is a block diagram schematically showing the configuration of the video system according to Embodiment 11 of the present invention. In FIG. 11, the same or corresponding components as those in FIG. 10 are denoted by the same reference numerals.
[0119]
The second video equipment 122 holds management information related to installed software (for example, version information for identifying installed software) in the storage device. Similarly, the third video equipment 123 holds management information related to installed software (for example, version information specifying the installed software) in the storage device. Also, the second video equipment 122 has second notification destination information indicating that the third video equipment 123 is a notification destination for notifying the recording device of the occurrence of the change of the management information (the video equipment is linked to each other). One of the linkage information to be generated). Also, the third video device 123 has the recording device that includes second reference destination information (one piece of linkage information for linking video devices to each other) indicating that the reference destination of the management information is the second video device 122. .) In the eleventh embodiment, the management information is not referred to at every predetermined time interval as in the first embodiment (FIG. 1), but the management information is changed from the second video equipment 122. When there is, the management information reference by the third video equipment 123 is executed.
[0120]
In the video system according to the eleventh embodiment, the third video equipment 123 has management information related to software installed in the second video equipment 122 in which management information related to software installed in the third video equipment 123 is managed. Is detected so that the management information related to the software installed in the third video equipment 123 matches the management information related to the software installed in the second video equipment 122. The software is installed in the third video equipment 123 by the downloaded download. This installation is normally executed automatically, but a configuration may be adopted in which the installation start time is determined by an operation of the administrator. In the video system according to the eleventh embodiment, the download to the third video device 123 is executed using software stored in the second video device 122. That is, in the eleventh embodiment, the third video equipment 123 stores download destination information indicating that the new video download destination is the second video equipment 122.
[0121]
In the eleventh embodiment, points other than those described above are the same as those in any of the seventh to tenth embodiments.
[0122]
Embodiment 12 FIG.
FIG. 12 is a block diagram schematically showing the configuration of the video system according to Embodiment 12 of the present invention. In FIG. 12, the same reference numerals are given to the same or corresponding components as those in FIG.
[0123]
The video system according to the twelfth embodiment is a recording medium that holds installation software (may include an installer) for installing software to the second video equipment 122 and installing software to the third video equipment 123. This is different from the video system of the tenth embodiment (FIG. 10) in that it is executed using the PC 102 having the 101 inserted into the reading unit or using the PC 102 that already holds the installation software.
In other words, in the video system according to the twelfth embodiment, the second video device 122 stores download destination information indicating that the software download destination is the PC 102, and the third video device 123 stores the software. Download destination information indicating that the download destination is the PC 102 is stored.
[0124]
In the twelfth embodiment, points other than the above are the same as those in any of the seventh to eleventh embodiments.
[0125]
Embodiment 13 FIG.
FIG. 13 is a diagram schematically showing a configuration of a video monitoring system configured using the video equipment according to Embodiment 13 of the present invention.
[0126]
In FIG. 13, reference numerals 1a, 1b, 1c, and 1d denote time-lapse recording / playback apparatuses as video equipment. As shown in FIG. 13, cameras 16a1, 16a2, 16a3, 16a4 are connected to the recording / reproducing apparatus 1a, cameras 16b1, 16b2, 16b3, 16b4 are connected to the recording / reproducing apparatus 1b, and the recording / reproducing apparatus 1c is connected to the recording / reproducing apparatus 1c. Cameras 16c1, 16c2, 16c3 and 16c4 are connected, and cameras 16d1, 16d2, 16d3 and 16d4 are connected to the recording / reproducing apparatus 1d. The recording / reproducing apparatuses 1a, 1b, 1c, 1d and a personal computer (PC) 18 are connected via a network. An external monitor 17 is connected to the recording / reproducing apparatus 1a.
[0127]
FIG. 14 is a block diagram schematically showing the configuration of the time-lapse recording / reproducing apparatus 1 (1a, 1b, 1c, 1d) constituting the video monitoring system according to the thirteenth embodiment.
[0128]
In FIG. 14, 2 is a CPU, 3 is a ROM, 4 is a RAM, 5 is a setting memory, 6 is an image compression unit, 7 is an image expansion unit, 8 is a switcher buffer, 9 is an analog-digital (AD) conversion unit, Reference numeral 10 denotes a digital-analog (DA) conversion unit, 11 denotes a multiplexer, 12 denotes a hard disk device (HDD), and 13 denotes a network interface.
[0129]
The multiplexer 11 has a plurality of input terminals to which video signals from the camera are input. The multiplexer 11 switches the video signal output from the output terminal as necessary. The video signal selected by the multiplexer 11 is digitized by the analog-digital converter 9, compressed by the image compressor 6 via the switcher buffer 8, and stored in the hard disk device 12. During a normal monitoring operation, the video signal selected by the multiplexer 11 is synthesized by the switcher buffer 8, converted to an analog signal by the digital-analog converter 10, and displayed on the external monitor 17. Further, at the time of reproduction operation, the image data taken out from the hard disk device 12 is expanded by the image expansion unit 7, synthesized by the switcher buffer 8, converted into an analog signal by the digital-analog conversion unit 10, and sent to the external monitor 17. Is displayed. In the case of monitoring / reproduction via the network, the image data is output through the network interface 13 and displayed on the monitor of the PC 18. The CPU 2 uses the program stored in the ROM 3 and controls the operation of each component of the recording / reproducing apparatus 1 using the RAM 4 as a work area.
[0130]
FIG. 15 is an explanatory diagram showing information stored in the setting memory 5 of the recording / reproducing apparatus 1 (1a, 1b, 1c, 1d) constituting the video surveillance system according to the thirteenth embodiment. As shown in FIG. 15, the setting memory 5 is a network that records the device settings 15a that records the number of cameras to be operated, the timing for switching the cameras to be operated, and the like, and addresses and communication methods necessary for communication. Settings 15b are stored. Further, the setting memory 5 stores a cooperation setting 20.
[0131]
FIG. 16 is an explanatory diagram showing an example of the contents of the cooperation setting 20 of FIG. As shown in FIG. 16, the cooperation setting 20 includes cooperation information 22. The linkage setting 20 includes the type of software installed in the recording / playback apparatus itself (“installed software” in FIG. 16), its version, the model supported by the software (“supported model” in FIG. 16), and Reference destination information (“reference destination” in FIG. 16) for detecting whether there is a change in the software version or the like of another device is stored. Also, other settings may be stored as necessary.
[0132]
FIG. 17 is also referred to as a storage device (simply referred to as “memory”) such as the ROM 3, RAM 4, and hard disk device 12 of the time-lapse recording / reproducing apparatus 1 (1 a, 1 b, 1 c, 1 d) constituting the video surveillance system according to the thirteenth embodiment. FIG. 3 is an explanatory diagram showing an occupation state or a development state of software installed inside. In FIG. 17, 21a is an occupation or development area of the software S1, 21b is an occupation or development area of the software S2, and 21c is an occupation or development area of the software S3. Similarly, an occupied or expanded area is secured in the memory for other software.
[0133]
FIG. 18 is an explanatory diagram showing the configuration and operation of the video monitoring system according to the thirteenth embodiment. The video monitoring system shown in FIG. 18 is obtained by applying the video system of the fourth embodiment (FIG. 4) to a video monitoring system. In FIG. 18, 1a, 1b, and 1c are time-lapse recording / reproducing devices, 3 is a ROM, 14a is a media reader, 14b is a medium (recording medium), and 18 is for monitoring and controlling the recording / reproducing devices 1a, 1b, and 1c. PC, 19 is a network, and 20 is a cooperative setting in the setting memory. The recording / reproducing apparatuses 1a, 1b, 1c and the PC 18 are connected via a network 19. Each of the recording / reproducing devices 1a, 1b, 1c and the PC 18 includes a media reader 14a, and inserts the media 14b in which installation software (which may be accompanied by an installer) is stored into the media reader 14a. Alternatively, the software can be installed (new installation or update installation) by loading the installation software into the ROM 3 of each device.
[0134]
In FIG. 18, the recording / reproducing apparatuses 1a, 1b, and 1c are all the same model (model name “RecType1”). Further, the same software S1 version “1.0” is preinstalled in each of the recording / reproducing apparatuses 1a, 1b, and 1c.
[0135]
When updating the software, the manager updates the software S1 installed in the recording / reproducing apparatus 1a positioned as a manager device from version "1.0" to version "2.0". In the update, the medium 14b storing the software S1 version “2.0” installation software (which may be accompanied by an installer) is inserted into the media reader 14a of the recording / reproducing apparatus 1a. The recording / reproducing apparatus 1a reads the installation software stored in the medium 14b, loads it into its own ROM 3, and automatically updates the software S1 to version “2.0”.
[0136]
As shown in FIG. 16, the cooperation setting 22 of each recording / reproducing apparatus 1a, 1b, 1c includes cooperation information 22. In the thirteenth embodiment, the link information 22 includes reference destination information indicating a reference recording / playback device for referring to whether there is a change in the software version or the like of another recording / playback device. As shown in FIG. 20, which will be described later, the recording / reproducing apparatus 1a does not hold the reference destination information. However, as shown in FIG. 21, which will be described later, the recording / reproducing apparatuses 1b, 1c are referred to by the recording / reproducing apparatus 1a. It holds reference destination information indicating that it exists.
[0137]
The recording / reproducing apparatuses 1b and 1c inquire about the version of the software S1 of the recording / reproducing apparatus 1a which is a reference destination at predetermined time intervals. The recording / reproducing apparatuses 1b and 1c compare the version of the software S1 installed in the recording / reproducing apparatus 1a with the version of the software S1 installed in the recording / reproducing apparatuses 1b and 1c. When the versions are different, the recording / reproducing apparatuses 1b, 1c automatically import the installation software stored in the ROM of the recording / reproducing apparatus 1a, which is the reference destination, into the ROM of each recording / reproducing apparatus 1b, 1c. The software S1 is updated to version “2.0”.
[0138]
FIG. 19 is an explanatory diagram showing the transition of the occupied state or the expanded state of the software installed in the memory of the time-lapse recording / playback apparatuses 1a, 1b, and 1c constituting the video surveillance system according to the thirteenth embodiment. As shown in the upper part of FIG. 18, first, software S1 version “1.0” is installed in the memory of each recording / reproducing apparatus 1a, 1b, 1c. The administrator inserts the medium 14b into the media reader 14a of the recording / reproducing apparatus 1a positioned as the recording / reproducing apparatus for the administrator, and software S1 version “1.0” installed in the memory of the recording / reproducing apparatus 1a. Is updated to version “2.0”.
[0139]
As shown in the middle part of FIG. 19, at this time, the software S1 version “1.0” is installed in the memory of the recording / reproducing apparatuses 1b and 1c. The recording / reproducing apparatuses 1b and 1c inquire the link information 22 to the recording / reproducing apparatus 1a that is a reference destination at predetermined time intervals, and the version of the software S1 installed in the recording / reproducing apparatus 1a and the recording / reproducing apparatuses 1b and 1c are installed. Compare with the version of the software S1. Here, the version of the software S1 installed in the recording / reproducing apparatus 1a is “2.0”, and the version of the software S1 installed in the recording / reproducing apparatuses 1b and 1c is “1.0”. The recording / reproducing apparatuses 1b and 1c download the installation software of the software S1 version “2.0” from the recording / reproducing apparatus 1a, and automatically update the version of the software S1 to “2.0”. As a result, as shown in the lower part of FIG. 18, the version of the software S1 in the memory of each recording / reproducing apparatus 1a, 1b, 1c is “2.0”.
[0140]
FIG. 20 is an explanatory diagram showing changes in the linkage information 22 before and after updating of the software installed in the memory of the administrator time-lapse recording / reproducing apparatus 1a constituting the video surveillance system according to the thirteenth embodiment. As shown in FIG. 20, the recording / reproducing apparatus 1a positioned as the administrator recording / reproducing apparatus does not hold the reference destination information. When the administrator inserts the medium 14b into the media reading device 14a of the recording / reproducing apparatus 1a and updates the software S1 installed in the recording / reproducing apparatus 1a, the version description column is shown in the upper part of FIG. It changes from “1.0” to “2.0” shown in the lower part of FIG.
[0141]
FIG. 21 is an explanatory diagram showing a change in the linkage information 22 before and after updating the software installed in the memory of the time-lapse recording / playback apparatuses 1b and 1c constituting the video monitoring system according to the thirteenth embodiment. As shown in FIG. 21, the reference destination of the recording / reproducing apparatuses 1b and 1c is the recording / reproducing apparatus 1a. The recording / reproducing apparatuses 1b and 1c inquire at the recording / reproducing apparatus 1a for linkage information at a predetermined time interval, and the version of the software S1 installed in the recording / reproducing apparatus 1a and the recording / reproducing apparatuses 1b and 1c are installed. The version of the software S1 is compared. When the version of the software S1 installed in the recording / reproducing apparatus 1a is different from the version of the software S1 installed in the recording / reproducing apparatus 1b, 1c, the recording / reproducing apparatuses 1b, 1c The installation software of the software S1 version “2.0” is downloaded from 1a, and the version of the software S1 is automatically shown from the version “1.0” shown in the upper part of FIG. 21 to the lower part of FIG. Update to “version 2.0”.
[0142]
As described above, according to the video monitoring system according to the thirteenth embodiment, if software is installed on the recording / reproducing apparatus 1a using the medium 14b, the software is automatically installed in the recording / reproducing apparatuses 1b and 1c. Therefore, even when there are a large number of recording / playback apparatuses constituting the video surveillance system, the burden of software installation work can be reduced. In other words, the administrator can handle the installation of software as if the entire video surveillance system is a single device.
[0143]
Embodiment 14 FIG.
FIG. 22 is an explanatory diagram showing the configuration and operation of the video monitoring system configured using the video equipment according to Embodiment 14 of the present invention. The video monitoring system according to Embodiment 14 is obtained by applying the video system of Embodiment 5 (FIG. 5) to a video monitoring system. In the fourteenth embodiment, the time-lapse recording / reproducing devices 1a, 1b, 1c and the PC 18 are all connected via a network. As described in the thirteenth embodiment, the administrator stores the media 14b in which software installation software (which may be accompanied by an installer) is stored in the media reader 14a of each recording / reproducing device 1a, 1b, 1c. Insert and install software.
[0144]
In FIG. 22, the recording / reproducing apparatuses 1a, 1b, and 1c are all the same model (model name “RecType1”). Further, the same software S1 version “1.0” is preinstalled in each of the recording / reproducing apparatuses 1a, 1b, and 1c.
[0145]
When updating the software, the manager updates the software S1 installed in the recording / reproducing apparatus 1a positioned as a manager device from version "1.0" to version "2.0". In the update, the medium 14b storing the software S1 version “2.0” installation software (which may be accompanied by an installer) is inserted into the media reader 14a of the recording / reproducing apparatus 1a. The recording / reproducing apparatus 1a reads the installation software stored in the medium 14b, loads it into its own ROM 3, and automatically updates the software S1 to version “2.0”.
[0146]
The setting contents of the cooperation setting 20 in the fourteenth embodiment are the same as those in FIG. The linkage setting 20 is a reference destination for referring to whether there is any change in the type of software installed in the recording / playback apparatus itself, its version, the compatible model of the software, and the software version of other recording / playback apparatuses. The link information 22 which is reference destination information indicating the recording / reproducing apparatus is included. Other settings can also be stored as required.
[0147]
In the fourteenth embodiment, as in the case of FIG. 20, the recording / reproducing apparatus 1a does not hold the reference destination information. Further, as shown in FIG. 24 described later, the recording / reproducing apparatus 1b holds reference destination information indicating that the reference destination is the recording / reproducing apparatus 1a, and as shown in FIG. 25 described later, the recording / reproducing apparatus. 1c holds reference destination information indicating that the reference destination is the recording / reproducing apparatus 1b. The recording / reproducing apparatuses 1b, 1c make an inquiry about the version of the software S1 of the recording / reproducing apparatus 1a, 1b, which is the reference destination, at a predetermined time interval, and the version of the software S1 according to the response from the recording / reproducing apparatuses 1a, 1b The versions of the software S1 of the own machine are compared. Since the versions of the recording / reproducing apparatus 1b are different, the software S1 installation software stored in the ROM of the recording / reproducing apparatus 1a, which is the reference destination, is taken into the ROM of the recording / reproducing apparatus 1b, and the software S1 is automatically installed. Update the version to “2.0”.
[0148]
Thereafter, the recording / reproducing devices 1b, 1c make an inquiry about the version of the software S1 of the recording / reproducing device 1a, 1b, which is the reference destination, at a predetermined time interval, and the software S1 according to the answer from the recording / reproducing device 1a, 1b. The version is compared with the version of the software S1 of the own device. When detecting that the version of the software S1 of the recording / reproducing apparatus 1c is different from the version of the software S1 of the recording / reproducing apparatus 1b, the recording / reproducing apparatus 1c automatically receives the version “2 of the software S1 from the recording / reproducing apparatus 1b. Download "0" to update.
[0149]
FIG. 23 is an explanatory diagram showing the transition of the occupied state or the expanded state of the software installed in the memory of the recording / reproducing devices 1a, 1b, 1c constituting the video surveillance system according to the fourteenth embodiment. As shown in the upper part of FIG. 23, first, software S1 version “1.0” is installed in the memory of each recording / reproducing device 1a, 1b, 1c. The administrator inserts the medium 14b into the media reader 14a of the recording / reproducing apparatus 1a positioned as the recording / reproducing apparatus for the administrator, and software S1 version “1.0” installed in the memory of the recording / reproducing apparatus 1a. Is updated to version “2.0”.
[0150]
As shown in the second row of FIG. 23, at this time, the software S1 version “1.0” is installed in the memory of the recording / reproducing apparatuses 1b and 1c. The recording / reproducing apparatuses 1b, 1c inquire the link information 22 to the recording / reproducing apparatuses 1a, 1b which are reference destinations at predetermined time intervals, and the version of the software S1 installed in the recording / reproducing apparatuses 1a, 1b and the recording / reproducing apparatus 1b, The version of the software S1 installed in 1c is compared. Here, the version of the software S1 installed in the recording / reproducing apparatus 1a is “2.0”, and the version of the software S1 installed in the recording / reproducing apparatuses 1b and 1c is “1.0”. The recording / reproducing apparatus 1b downloads the software S1 version “2.0” installation software from the recording / reproducing apparatus 1a, and automatically updates the software S1 version to “2.0”. As a result, as shown in the third row of FIG. 18, the version of the software S1 in the memory of each recording / reproducing apparatus 1a, 1b is “2.0”.
[0151]
Further, the recording / reproducing apparatuses 1b and 1c inquire the link information 22 to the recording / reproducing apparatuses 1a and 1b which are reference destinations at predetermined time intervals, and the version of the software S1 installed in the recording / reproducing apparatuses 1a and 1b and the recording / reproducing apparatus. The version of the software S1 installed in 1b and 1c is compared. Here, the version of the software S1 installed in the recording / reproducing apparatuses 1a and 1b is “2.0”, and the version of the software S1 installed in the recording / reproducing apparatus 1c is “1.0”. The recording / reproducing apparatus 1c downloads the installation software of the software S1 version “2.0” from the recording / reproducing apparatus 1b, and automatically updates the version of the software S1 to “2.0”. As a result, as shown in the fourth level (lower level) of FIG. 23, the version of the software S1 in the memory of each recording / reproducing apparatus 1a, 1b, 1c is “2.0”.
[0152]
Changes in the linkage information 22 before and after updating of the software installed in the memory of the administrator time-lapse recording / reproducing apparatus 1a constituting the video surveillance system according to Embodiment 14 are as shown in FIG. As shown in FIG. 20, the recording / reproducing apparatus 1a positioned as the administrator recording / reproducing apparatus does not hold the reference destination information. When the administrator inserts the medium 14b into the media reading device 14a of the recording / reproducing apparatus 1a and updates the software S1 installed in the recording / reproducing apparatus 1a, the version description column is shown in the upper part of FIG. It changes from “1.0” to “2.0” shown in the lower part of FIG.
[0153]
FIG. 24 is an explanatory diagram showing a change in the linkage information 22 before and after updating the software installed in the memory of the time-lapse recording / playback apparatus 1b configuring the video monitoring system according to the fourteenth embodiment. As shown in FIG. 24, the reference destination of the recording / reproducing apparatus 1b is the recording / reproducing apparatus 1a. The recording / reproducing apparatus 1b inquires the recording / reproducing apparatus 1a for cooperation information at predetermined time intervals, and the version of the software S1 installed in the recording / reproducing apparatus 1a and the version of the software S1 installed in the recording / reproducing apparatus 1b. And compare. When the version of the software S1 installed in the recording / reproducing apparatus 1a is different from the version of the software S1 installed in the recording / reproducing apparatus 1b, the recording / reproducing apparatus 1b changes from the recording / reproducing apparatus 1a to the software S1. The installation software of the version “2.0” is downloaded, and the version of the software S1 is automatically changed from the version “1.0” shown in the upper part of FIG. 24 to the version “2. Update to 0 ”.
[0154]
FIG. 25 is an explanatory diagram showing changes in the linkage information 22 before and after updating the software installed in the memory of the time-lapse recording / reproducing apparatus 1c configuring the video surveillance system according to the fourteenth embodiment. As shown in FIG. 25, the reference destination of the recording / reproducing apparatus 1c is the recording / reproducing apparatus 1b. The recording / reproducing apparatus 1c inquires of the recording / reproducing apparatus 1b for cooperation information at predetermined time intervals, and the version of the software S1 installed in the recording / reproducing apparatus 1b and the version of the software S1 installed in the recording / reproducing apparatus 1c. And compare. When the version of the software S1 installed in the recording / reproducing apparatus 1b is different from the version of the software S1 installed in the recording / reproducing apparatus 1c, the recording / reproducing apparatus 1c changes the software S1 from the recording / reproducing apparatus 1b. The installation software of the version “2.0” is downloaded, and the version of the software S1 is automatically changed from the version “1.0” shown in the upper part of FIG. 25 to the version “2. Update to 0 ”.
[0155]
As described above, according to the video surveillance system according to the fourteenth embodiment, if software is installed on the recording / reproducing apparatus 1a using the medium 14b, a new one is automatically added to the recording / reproducing apparatus 1b. Since software is installed and new software is installed in the recording / reproducing apparatus 1c, the burden of software installation work can be reduced even when there are many recording / reproducing apparatuses constituting the video surveillance system. Can do. In other words, the administrator can handle the installation of software as if the entire video surveillance system is a single device.
[0156]
In the fourteenth embodiment, points other than those described above are the same as those in the thirteenth embodiment.
[0157]
Embodiment 15 FIG.
FIG. 26 is an explanatory diagram showing the configuration and operation of the video monitoring system configured using the video equipment according to Embodiment 15 of the present invention. The video monitoring system according to Embodiment 15 is obtained by applying the video system of Embodiment 12 (FIG. 12) to a video monitoring system.
[0158]
In the video surveillance system according to the fifteenth embodiment, the time-lapse recording / reproducing devices 1a, 1b, 1c and the PC 18 are connected via a network. As described in the thirteenth embodiment, the administrator inserts the medium 14b in which the installation software (which may be accompanied by an installer) is stored into the media reader 14a of each recording / reproducing apparatus 1a, 1b, 1c. Then, software can be installed in each recording / reproducing apparatus 1a, 1b, 1c.
[0159]
In the fifteenth embodiment, the recording / reproducing apparatuses 1a, 1b, and 1c are all the same model (model name “RecType1”). The same software S1 version “1.0” is preinstalled in the recording / reproducing apparatuses 1a, 1b, 1c and the PC 18 for monitoring and controlling them. The PC 18 also serves as a server.
[0160]
FIG. 27 is an explanatory diagram showing an example of the contents of the cooperative setting 20 in the memory of the time-lapse recording / reproducing apparatuses 1a, 1b, and 1c constituting the video monitoring system according to the fifteenth embodiment. The cooperation setting 20 includes cooperation information 22. The linkage setting 20 includes the type of software installed in the recording / playback apparatus itself (“installed software” in FIG. 27), its version, the model supported by the software (“supported model” in FIG. 27), and the like. Reference information ("reference destination" in FIG. 27) for detecting whether there is a change in the software version or the like of the device, and recording / playback for notifying the changed information when the software is changed Stores notification destination information (“notification destination” in FIG. 27) for specifying the device and download destination (“download destination” in FIG. 27) information for requesting the recording / playback apparatus to download software. Also, other settings may be stored as necessary.
[0161]
In the fifteenth embodiment, the recording / reproducing apparatus 1a does not retain the reference destination information, and retains the notification destination information indicating that the recording / reproducing apparatuses that notify the software change are the recording / reproducing apparatuses 1b and 1c. ing. Further, the recording / reproducing apparatus 1a holds download destination information indicating that a download destination requesting download is a server address (PC). The recording / reproducing apparatuses 1b and 1c hold reference destination information indicating that the reference destination of the software management information (for example, version information) is the recording / reproducing apparatus 1a, and do not hold notification destination information. It holds download destination information indicating that the download destination requesting the software download is a server address.
[0162]
When updating the software, the manager updates the software S1 installed in the recording / reproducing apparatus 1a positioned as a manager device from version "1.0" to version "2.0". At the time of updating, the medium 14b in which the software S1 version “2.0” installation software (which may be accompanied by an installer) is stored is inserted into the media reader 14a of the PC 18. The PC 18 reads the installation software stored in the medium 14b, loads it into its own ROM, and automatically updates the software S1 to version “2.0”.
[0163]
The recording / reproducing apparatus 1a positioned as the administrator recording / reproducing apparatus uses the server address (that is, the PC 18) as the download destination of the software S1, so that the administrator changes the version of the software S1 of the PC 18 from “1.0” to “ When updated to 2.0 ", the software for installation is automatically taken into the ROM 3 of the recording / reproducing apparatus 1a from the ROM 3 of the PC 18 and the version of the software S1 is automatically updated to" 2.0 ".
[0164]
The recording / reproducing apparatus 1a that has updated the software S1 holds notification destination information for specifying a notification destination that notifies the updating of the software S1, and the software S1 is updated in the recording / reproducing apparatuses 1b and 1c based on the notification destination information. Notify the software update information to notify that it has been done. The recording / reproducing apparatuses 1b and 1c that have received the software update notification inquire about the version of the software S1 of the recording / reproducing apparatus 1a that is the reference destination. The recording / reproducing apparatuses 1b and 1c compare the version of the software S1 installed in the recording / reproducing apparatus 1a with the version of the software S1 installed in the recording / reproducing apparatuses 1b and 1c. When the versions are different, the recording / reproducing apparatuses 1b and 1c take the installation software stored in the ROM of the PC 18 as the download destination into the ROM 3 of each recording / reproducing apparatus 1b and 1c, and automatically S1 is updated to version “2.0”.
[0165]
FIG. 28 is an explanatory diagram showing changes in the linkage information 22 before and after updating the software installed in the memory of the time-lapse recording / playback apparatus 1a configuring the video surveillance system according to the fifteenth embodiment. As shown in FIG. 28, at first, the version of the software S1 of the recording / reproducing apparatus 1a was “1.0”, but the administrator updated the software S1 of the PC 18, thereby recording and reproducing for the administrator. The recording / reproducing apparatus 1a positioned as the apparatus downloads software for installing the software S1 from the PC 18, and since the software S1 of the recording / reproducing apparatus 1a has been updated, the version of the software S1 in the memory of the recording / reproducing apparatus 1a is “2.0. " At this time, the version of the software S1 in the memory of the recording / reproducing apparatuses 1b and 1c is “1.0”.
[0166]
FIG. 29 is an explanatory diagram showing a change in the linkage information 22 before and after updating the software installed in the memory of the time-lapse recording / playback apparatuses 1b and 1c constituting the video monitoring system according to the fifteenth embodiment. As shown in FIG. 29, the reference destination of the recording / reproducing devices 1b and 1c is the recording / reproducing device 1a. When receiving the notification from the recording / reproducing apparatus 1a, the recording / reproducing apparatus 1b, 1c inquires of the recording / reproducing apparatus 1a for cooperation information, the version of the software S1 installed in the recording / reproducing apparatus 1a, the recording / reproducing apparatus 1b, The version of the software S1 installed in 1c is compared. When the version of the software S1 installed in the recording / reproducing apparatus 1a is different from the version of the software S1 installed in the recording / reproducing apparatuses 1b, 1c, the recording / reproducing apparatuses 1b, 1c The installation software of the S1 version “2.0” is downloaded, and the version of the software S1 is automatically changed from “1.0” shown in the upper part of FIG. 21 to “2.0” shown in the lower part of FIG. Update to "".
[0167]
As described above, according to the video surveillance system according to the fifteenth embodiment, if software is installed on the PC 18 using the medium 14b, a new one is automatically added to the recording / reproducing devices 1a, 1b, 1c. Since the software is installed, the burden of software installation work can be reduced even when there are a large number of recording / playback apparatuses constituting the video surveillance system. In other words, the administrator can handle the installation of software as if the entire video surveillance system is a single device.
[0168]
In the fifteenth embodiment, points other than those described above are the same as in the thirteenth or fourteenth embodiment.
[0169]
Embodiment 16 FIG.
FIG. 30 is an explanatory diagram showing the configuration and operation of a video surveillance system configured using the video equipment according to Embodiment 16 of the present invention. The video monitoring system according to the sixteenth embodiment is different from the video monitoring system according to the fifteenth embodiment in that the model of the time lapse recording / reproducing apparatus 1c is different from the model of the time lapse recording / reproducing apparatus 1a, 1b.
[0170]
In the video surveillance system according to the sixteenth embodiment, the time-lapse recording / reproducing devices 1a, 1b, 1c and the PC 18 are connected via a network. As described in the thirteenth embodiment, the administrator inserts the medium 14b in which the installation software (which may be accompanied by an installer) is stored into the media reader 14a of each recording / reproducing apparatus 1a, 1b, 1c. Then, software can be installed in each recording / reproducing apparatus 1a, 1b, 1c.
[0171]
In the video surveillance system according to the sixteenth embodiment, the recording / reproducing apparatuses 1a and 1b are of the same model (model name “RecType1”), and the recording / reproducing apparatus 1c is a model different from the recording / reproducing apparatuses 1a and 1b (model name “RecType2”). ]). The PC 18 also serves as a server.
[0172]
In the video monitoring system according to the sixteenth embodiment, there are two types of software to be installed in each recording / reproducing device 1a, 1b, 1c and the PC 18 for monitoring and controlling them. For example, the software S1 can be applied to the model “RecType1”, and the software S2 can be applied to both the model “RecType1” and the model “RecType2”. Here, the software S1 version “1.0” is preinstalled in the recording / reproducing apparatuses 1a, 1b and the PC 18, and the software S2 version “3.0” is preinstalled in the recording / reproducing apparatuses 1a, 1b, 1c and the PC 18. The case where it is installed will be described.
[0173]
FIG. 32 is an explanatory diagram showing an example of the contents of the cooperation setting 20 in the memory of the time-lapse recording / playback apparatus constituting the video surveillance system according to the sixteenth embodiment. The cooperation setting 20 includes cooperation information 22. The linkage setting 20 includes the type of software installed in the recording / playback apparatus itself (“installed software” in FIG. 32), its version, the model supported by the software (“supported model” in FIG. 32), and the like. Reference information ("reference destination" in FIG. 32) for detecting whether there is any change in the software version or the like of the device, and a download destination (in FIG. 32) requesting the recording / playback apparatus to download the software "Download destination") information is stored. Also, other settings may be stored as necessary.
[0174]
In the video surveillance system according to the sixteenth embodiment, software S1 and software S2 are installed in the recording / playback apparatus 1a, reference destination information is not stored, and a download destination indicating that the download destination is a server address Information is stored. In addition, software S1 and software S2 are installed in the recording / reproducing apparatus 1b, reference destination information indicating that the reference destination is the recording / reproducing apparatus 1a is stored, and download indicating that the download destination is a server address The destination information is stored. In addition, the software S2 is installed in the recording / reproducing apparatus 1c, reference destination information indicating that the reference destination is the recording / reproducing apparatus 1a is stored, and download destination information indicating that the download destination is a server address. Stored.
[0175]
The administrator first changes the version of the software S1 from “1.0” to “2.0” and the version of the software S2 to “3.3” for the PC 18 for monitoring and controlling the recording / reproducing apparatuses 1a, 1b, 1c. In order to update from “0” to “4.0”, the PC 18 loads the medium 14b in which the installation software for the software S1 version “2.0” and the installation software for the software S2 version “4.0” are stored. Insert it into the media reader 14a. The PC 18 reads the installation software stored in the medium 14b from the media reader 14a, loads it into the ROM 3 of the PC 18, and automatically sets the version of the software S1 to "2.0" and the version of the software S2 to "4. Update to 0 ”.
[0176]
In addition, since the recording / reproducing apparatus 1a positioned as the recording / reproducing apparatus for the manager describes the server address as the download destination of the software S1 and the software S2, the administrator sets the version of the software S1 of the PC 18 to “1.0”. When the version of the software S2 is updated from “3.0” to “4.0” from “2.0” to “2.0”, the installation software is automatically stored in the ROM 3 of the recording / reproducing apparatus 1a from the ROM 3 of the PC 18. And the version of the software S1 is automatically updated to “2.0” and the version of the software S2 is automatically updated to “4.0”.
[0177]
The recording / reproducing apparatus 1a that has updated the software S1 and the software S2 performs broadcast to notify all the recording / reproducing apparatuses on the network, and records the software update information that the software S1 and the software S2 are updated as the recording / reproducing apparatuses 1b and 1c. Notify
[0178]
The recording / reproducing apparatus 1b that has received the software update information indicates the versions of the software S1 and software S2 of the recording / reproducing apparatus 1a that is the reference destination, and the recording / reproducing apparatus 1c that has received the software update information similarly has the recording / reproducing apparatus 1a that is the reference destination. The recording / reproducing apparatus 1b asks for the version of the software S1 and the software S2 and the version of the software S1 and the software S2 of its own, and the recording / reproducing apparatus 1c records and reproduces the version of the software S2. The version of the software S2 according to the response from the apparatus 1a is compared with the version of the software S2 of the own device.
[0179]
At this time, the recording / reproducing apparatus 1b takes in the software S1 stored in the ROM 3 of the PC 18 as the download destination and the software S2 installation software into the ROM 3 of the recording / reproducing apparatus 1b, and automatically sets the version of the software S1 to “ 2.0 ”, the version of the software S2 is updated to“ 4.0 ”, and the recording / reproducing apparatus 1c installs the software S2 installation software stored in the ROM 3 of the PC 18 as the download destination of the recording / reproducing apparatus 1c. The data is loaded into the ROM 3 and the version of the software S2 is automatically updated to “4.0”.
[0180]
FIG. 31 is a diagram showing transitions due to the occupation of the software S1 and the software S2 in the memories of the recording / reproducing devices 1a, 1b, and 1c in the sixteenth embodiment or the update of the development area. As shown in the upper part of FIG. 31, initially, the software S1 version of the recording / reproducing apparatuses 1a, 1b is “1.0”, and the software S2 version of the recording / reproducing apparatuses 1a, 1b, 1c is “3.0”. It is. The administrator updates the software S1 and software S2 of the PC 18, and the recording / reproducing apparatus 1a positioned as the administrator recording / reproducing apparatus thereby downloads software S1 and software S2 installation software from the PC 18. As a result, as shown in the middle of FIG. 31, the software S1 and software S2 of the recording / reproducing apparatus 1a are updated, the version of the software S1 in the memory of the recording / reproducing apparatus 1a is “2.0”, and the software S2 The version is “4.0”.
[0181]
At this time, the version of the software S1 in the memory of the recording / reproducing apparatus 1b is “1.0”, the version of the software S2 is “3.0”, and the version of the software S2 in the memory of the recording / reproducing apparatus 1c is “3.0”. ". The recording / reproducing apparatus 1a notifies the recording / reproducing apparatus 1b, 1c of the information that the software S1 and the software S2 have been updated using broadcast. After receiving the software update information, the recording / reproducing apparatus 1b, 1c An inquiry is made to a certain recording / reproducing apparatus 1a. Then, the recording / reproducing apparatus 1b indicates the version of the software S1 and software S2 according to the response from the recording / reproducing apparatus 1a and the version of the software S1 and software S2 of its own device, and the recording / reproducing apparatus 1c The version of S2 is compared with the version of its own software S2.
[0182]
As a result of comparison, if the versions are different, the recording / reproducing apparatus 1b receives the software S1 and software S2 installation software from the PC 18, which is the download destination of the recording / reproducing apparatuses 1b, 1c, and the recording / reproducing apparatus 1c acquires the software S2. The software for installation is downloaded and the version of the software in which each recording / reproducing apparatus is installed is automatically updated. As a result, as shown in the lower part of FIG. 31, the version of the software S1 in the memory of the recording / reproducing apparatuses 1a and 1b is finally set to “2.0”, and the version of the software S2 is set to “4.0”. The version of the software S2 in the memory of the recording / reproducing apparatus 1c is “4.0”.
[0183]
FIG. 33 is an explanatory diagram showing the update of the cooperation information in the memory of the time lapse recording / reproducing apparatus 1a according to the sixteenth embodiment. As shown in FIG. 33, the recording / reproducing apparatus 1a positioned as the manager's recording / reproducing apparatus does not specify any recording / reproducing apparatus. The recording / reproducing apparatus 1a designates a server address as a download destination of the software S1. With these settings, simply by updating the software of the PC 18, the administrator automatically downloads software S1 and software S2 installation software from the PC 18 to the recording / reproducing apparatus 1a, and the software S1 of the recording / reproducing apparatus 1a. Software S2 is automatically updated. Here, the version description column of software S1 has changed from “1.0” to “2.0”, and the version description column of software S2 has changed from “3.0” to “4.0”.
[0184]
FIG. 34 is an explanatory diagram showing the update of the cooperation information inside the memory of the time lapse recording / reproducing apparatus 1b according to the sixteenth embodiment. As shown in FIG. 34, since the reference destination of the software S1 of the recording / reproducing apparatus 1b is the recording / reproducing apparatus 1a, the download destination is the server address, the reference destination of the software S2 is the recording / reproducing apparatus 1a, and the download destination is the server address. After receiving the software update information from the recording / reproducing apparatus 1a, the recording / reproducing apparatus 1b inquires of the recording / reproducing apparatus 1a about the version. The recording / reproducing apparatus 1b compares the version of the software S1 and software S2 according to the response from the recording / reproducing apparatus 1a with the version of the software S1 and software S2 of its own device. If the versions are different, the software S1 and software S2 installation software are downloaded from the PC 18 and the software S1 and software S2 are automatically updated. For this reason, the version description column of software S1 has changed from “1.0” to “2.0”, and the version description column of software S2 has changed from “3.0” to “4.0”.
[0185]
FIG. 35 is an explanatory diagram showing the update of the cooperation information inside the memory of the time lapse recording / reproducing apparatus 1c in the sixteenth embodiment. As shown in FIG. 35, since the reference destination of the software S2 of the recording / reproducing apparatus 1c is the recording / reproducing apparatus 1a and the download destination is the server address, the recording / reproducing apparatus 1c receives the software update information from the recording / reproducing apparatus 1a. An inquiry is made to the recording / reproducing apparatus 1a. The recording / reproducing apparatus 1c compares the version of the software S2 based on the response from the recording / reproducing apparatus 1a with the version of the software S2 of its own device. If the versions are different, the software S2 installation software was downloaded from the PC 18 and the software S2 was automatically updated, so the version description column of the software S2 changed from “3.0” to “4.0”. Yes.
[0186]
In addition, the connection form of each recording / reproducing apparatus and the setting value of the link information shown in the above-described embodiment are merely examples, and other settings may be stored as necessary.
[0187]
In addition, the reference destination, the notification destination, the download destination, etc. are all the same for each software installed in each recording / reproducing apparatus shown in the above-described embodiment. May be different.
[0188]
In the embodiment described above, a network may be connected to the Internet, and software download may be executed via the Internet.
[0189]
Furthermore, the software installation procedure (installation method) executed in the video system described in each of the above-described embodiments has been described for the case of a video monitoring system including a time-lapse recording / playback apparatus. However, for example, the present invention can also be applied to a video system in which a plurality of PCs are network-connected as video devices. In this case, a program for video recording / playback may be installed in advance, and a program for enabling execution of a software installation procedure (installation method) according to the present invention may be installed. These programs can be installed from a recording medium such as a CD or via the Internet.
[0190]
【The invention's effect】
  From claim 118According to the video system described above, new software is automatically installed on a specific video device simply by installing the software on another specific video device. Even if there are many, there is an effect that the burden of software installation work can be reduced.
[0191]
In addition, according to the video system described in claims 2 and 3, new software is automatically added to a specific video device and another specific video device only by installing software to the other specific video device. Since the software is installed, there is an effect that the burden of the software installation work can be reduced even when there are many video devices constituting the video system.
[0192]
According to the video system of claim 7, when there is a change in the management information of another specific video device, the other specific video device is specified by the first notification destination information. The management information of the other specific video device is notified to the video device of this type, so that it is possible to quickly refer to the management information and install new software by the specific video device. is there.
[0193]
According to the video system of claim 9, when there is a change in the management information of another specific video device, the other specific video device is specified by the first notification destination information. Other specific video equipment is notified that the management information of the other specific video equipment has changed, so that the management information can be referred to by other specific video equipment and new software can be quickly installed. There is an effect that can be.
[0194]
  Claim19 to 22According to the video devices described so far, it is possible to configure to install new software automatically by simply installing the software on the reference video device connected to the network. There is an effect that the burden of work can be reduced.
[0195]
  Claims20According to the video device described in, when the management information of the device is changed, the video device connected to the network and specified by the notification destination information is notified that the management information has changed. It is possible to quickly refer to management information and install new software by the video equipment.
[0196]
  Claims23According to the software installation method described in, new software is automatically installed on a specific video device simply by installing the software on another specific video device. Even when there are many devices, there is an effect that the burden of software installation work can be reduced.
[0197]
  Claims24Or a program stored in the recording medium according to claim 125By using the program described in, you can provide a video system in which new software is automatically installed on a specific video device simply by installing the software on another specific video device. There is an effect that the burden can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram schematically showing a configuration of a video system according to Embodiment 1 of the present invention.
FIG. 2 is a block diagram schematically showing a configuration of a video system according to Embodiment 2 of the present invention.
FIG. 3 is a block diagram schematically showing a configuration of a video system according to Embodiment 3 of the present invention.
FIG. 4 is a block diagram schematically showing a configuration of a video system according to Embodiment 4 of the present invention.
FIG. 5 is a block diagram schematically showing a configuration of a video system according to a fifth embodiment of the present invention.
FIG. 6 is a block diagram schematically showing a configuration of a video system according to Embodiment 6 of the present invention.
FIG. 7 is a block diagram schematically showing a configuration of a video system according to Embodiment 7 of the present invention.
FIG. 8 is a block diagram schematically showing a configuration of a video system according to an eighth embodiment of the present invention.
FIG. 9 is a block diagram schematically showing a configuration of a video system according to Embodiment 9 of the present invention.
FIG. 10 is a block diagram schematically showing a configuration of a video system according to Embodiment 10 of the present invention.
FIG. 11 is a block diagram schematically showing a configuration of a video system according to Embodiment 11 of the present invention.
FIG. 12 is a block diagram schematically showing a configuration of a video system according to Embodiment 12 of the present invention.
FIG. 13 is a diagram schematically showing a configuration of a video monitoring system configured using a video device according to Embodiment 13 of the present invention.
FIG. 14 is a block diagram schematically showing a configuration of a time-lapse recording / reproducing apparatus that constitutes a video surveillance system according to Embodiment 13;
FIG. 15 is an explanatory diagram showing information stored in a setting memory of a time-lapse recording / playback apparatus that constitutes a video surveillance system according to Embodiment 13;
FIG. 16 is an explanatory diagram showing an example of the contents of the cooperation setting in FIG. 15;
FIG. 17 is an explanatory diagram showing an occupation state or a development state of software installed in a memory of a time-lapse recording / playback apparatus constituting a video surveillance system according to Embodiment 13;
FIG. 18 is an explanatory diagram showing the configuration and operation of a video monitoring system according to Embodiment 13.
FIG. 19 is an explanatory diagram showing changes in the occupation state or development state of software installed in the memory of the recording / playback apparatus constituting the video surveillance system according to Embodiment 13;
FIG. 20 is an explanatory diagram showing changes in linkage information before and after updating of software installed in the memory of the administrator time-lapse recording / playback apparatus constituting the video surveillance system according to Embodiment 13;
FIG. 21 is an explanatory diagram showing changes in linkage information before and after updating of software installed in a memory of a time-lapse recording / playback apparatus constituting a video surveillance system according to Embodiment 13;
FIG. 22 is an explanatory diagram showing the configuration and operation of a video monitoring system configured using a video device according to Embodiment 14 of the present invention.
FIG. 23 is an explanatory diagram showing software update in the memory of the time-lapse recording / reproducing apparatus in the video surveillance system according to the fourteenth embodiment;
FIG. 24 is an explanatory diagram showing the update of cooperation information in the memory of the time lapse recording / playback apparatus in the fourteenth embodiment;
FIG. 25 is an explanatory diagram showing the update of cooperation information within the memory of the time lapse recording / playback apparatus in the fourteenth embodiment;
FIG. 26 is an explanatory diagram showing the configuration and operation of a video monitoring system configured using a video device according to Embodiment 15 of the present invention.
FIG. 27 is an explanatory diagram showing cooperation settings in the memory of the time-lapse recording / playback apparatus according to the fifteenth embodiment;
FIG. 28 is an explanatory diagram showing the update of cooperation information in the memory of the time-lapse recording / playback apparatus in the fifteenth embodiment.
FIG. 29 is an explanatory diagram showing the update of cooperation information in the memory of the time-lapse recording / reproducing apparatus in the fifteenth embodiment.
FIG. 30 is an explanatory diagram showing the configuration and operation of a video monitoring system configured using a video device according to Embodiment 16 of the present invention.
FIG. 31 is an explanatory diagram showing an update state of software in the memory of the time lapse recording / reproducing apparatus in the sixteenth embodiment;
FIG. 32 is an explanatory diagram showing cooperation settings in the memory of the time lapse recording / playback apparatus in the sixteenth embodiment;
FIG. 33 is an explanatory diagram showing updating of cooperation information in the memory of the time-lapse recording / reproducing apparatus in the sixteenth embodiment.
FIG. 34 is an explanatory diagram showing the update of linkage information inside the memory of the time lapse recording / playback apparatus in the sixteenth embodiment;
FIG. 35 is an explanatory diagram showing updating of cooperation information in the memory of the time lapse recording / reproducing apparatus in the sixteenth embodiment;
FIG. 36 is a block diagram schematically showing a configuration of a conventional video monitoring system.
[Explanation of symbols]
1, 1a, 1b, 1c, 1d Time-lapse recording / reproducing device, 2 CPU, 3 ROM, 4 RAM, 5 setting memory, 6 image compression unit, 7 image expansion unit, 8 switcher buffer, 9 analog-digital conversion unit, 10 Digital-analog conversion unit, 11 multiplexer, 12 hard disk drive (HDD), 13 network interface, 14a media reader, 14b media, 15a device setting, 15b network setting, 16, 16a1, 16a2, 16a3, 16a4, 16b1, 16b2, 16b3, 16b4, 16c1, 16c2, 16c3, 16c4, 16d1, 16d2, 16d3, 16d4 Camera, 17 External monitor, 18,102 Personal computer (PC), 19 Network, 20 linkage setting, 21a, 21b, 21c software occupation / development area, 22 link information, 100 lines, 101 recording medium, 111, 121 first video equipment, 112, 122 second video equipment, 113, 123 first 3 video equipment.

Claims (25)

Multiple video devices that operate based on installed software;
A video system having a line connecting the plurality of video devices to a network;
Each of the plurality of video devices is
Installed software information indicating the software installed on itself,
Version information indicating the version of software installed on the device;
Model information indicating the model of video equipment supported by the software installed in the device,
Reference destination information for identifying a reference destination video device for detecting whether the software information and the version information of the software installed in the software is changed or not,
Notification destination information for specifying a notification destination video device for notifying that the software information and the version information of the software installed in the device have been changed, and
Holding means for holding download destination information for specifying the download destination for downloading to the self from the download destination;
A specific video device of the plurality of video devices refers to the software information and the version information of another video device that is the reference video device, and as a result of this reference, the specific video device is installed in the specific video device. When it is detected that the software information and the version information relating to the installed software are different from the software information and the version information relating to the software installed in the other video device, the software information and the version information are installed in the specific video device. Download specified by the download destination information so that the software information and the version information related to the installed software match the software information and the version information related to the software installed in the other video device Video system characterized in that it has a control means for executing the installation of software for the particular imaging device according downloaded through the line from. Still another specific video device of the plurality of video devices refers to the software information and the version information of the other specific video device, and as a result of this reference, the other specific video device is referred to. When it is detected that the software information and the version information relating to installed software are different from the software information and the version information relating to software installed in the other specific video device, the further other The download destination information so that the software information and the version information related to software installed in a specific video device are matched with the software information and the version information related to software installed in the other specific video device. But Video system as claimed in claim 1, characterized in that it comprises other control means for executing the installation software for the other specific video device by downloading through a line from the download destination constant to. Still another specific video device of the plurality of video devices refers to the software information and the version information of the specific video device, and as a result of this reference , the software is installed in the further specific video device. When it is detected that the software information and the version information relating to the software that is installed are different from the software information and the version information relating to the software installed in the specific video equipment, the further specific video equipment Download information specified by the download destination information so that the software information and the version information related to the software installed in the software match the software information and the version information related to the software installed in the specific video device. Video system as claimed in claim 1, characterized in that it comprises other control means for executing software installation to said still another specific video device by downloading through the line from the load destination. Wherein said control means for a particular video equipment, the references of the other of said software information and the version information of the specific video device, claims 1 to 3, characterized by executing a predetermined time interval The video system according to any one of the above. The other control means of said still another specific video equipment, the claims and executes the reference of the other of said software information and the version information of the specific video device, a predetermined time interval 2. The video system according to 2. The other control means of said still another specific video device, a reference to said software information and the version information of the specific video device, in claim 3, characterized in that to execute a predetermined time interval The video system described. The other specific video device uses the notification destination information held by itself when the software information and the version information of the other specific video device are changed. 4. The notification device according to claim 1, further comprising a notification means for notifying a designated video device that the software information and the version information of the other specific video device have changed. The video system described. When the software information and the version information of the other specific video device are changed, the other specific video device is connected to all other video devices connected to the network. 4. The video according to claim 1, further comprising notification means for notifying that the software information and the version information of the other specific video device have been changed. system. When the software information and the version information of the specific video device are changed, the specific video device is changed to the video device specified by the notification destination information held by the specific video device. The video system according to any one of claims 1 to 3, further comprising notification means for notifying that the software information and the version information of the specific video device have changed. When the software information and the version information of the specific video device are changed, the specific video device has the specific video device with respect to all the video devices connected to the network. 4. The video system according to claim 1, further comprising a notification unit configured to notify that the software information and the version information of the video equipment are changed. 5. The other specific video equipment is
A recording medium reading unit ;
Software installation on the other specific video device, means for executing using software read from the recording medium by the recording medium reading unit
Video system as claimed in any of claims 1 to 10, characterized in that it comprises a.   The video system according to claim 1, wherein the download destination specified by the download destination information held by the specific video device is the other specific video device.   The video system according to claim 1, wherein the download destination specified by the download destination information held by the further specific video device is the other specific video device.   13. The video system according to claim 1, wherein the download destination specified by the download destination information held by the further specific video device is the specific video device. A host device connected to the line and controlling operations of the plurality of video devices;
The video system according to claim 1, wherein the download destination specified by the download destination information held by the other specific video equipment is the host device.   16. The video system according to claim 15, wherein a download destination specified by the download destination information held by the specific video device and the further specific video device is the host device. A host device connected to the line and controlling operations of the plurality of video devices;
The video system according to claim 1, wherein the download destination specified by the download destination information held by the specific video equipment and the other specific video equipment is the host device.   The software installation for each of the plurality of video devices includes both a new installation that installs software to be installed for the first time and an update installation that rewrites all or a part of already installed software. Item 18. The video system according to any one of Items 1 to 17. In a video device that has a network interface for network connection to other video devices through a line and operates based on installed software,
Installed software information indicating the software installed on itself,
Version information indicating the version of software installed on the device;
Model information indicating the model of video equipment supported by the software installed in the device,
Reference destination information for identifying a reference destination video device for detecting whether the software information and the version information of the software installed in the software is changed or not,
Notification destination information for specifying a notification destination video device for notifying that the software information and the version information of the software installed in the device have been changed, and
Holding means for holding download destination information for specifying the download destination for downloading to the self from the download destination;
The software information and the version information of the other video equipment which is the reference destination video equipment are referred to, and as a result of this reference, the software information and the version information related to the software installed in itself are the reference destination information. When it is detected that the software information and the version information relating to the software installed in another designated video device are different from each other, the software information and the version information relating to the software installed in the device are referred to as the reference destination. The download destination specified by the download destination information is downloaded through the line so as to match the software information and the version information related to the software installed in the other video device specified by the information. And control means to perform the installation of the software by over de
Video apparatus characterized by having a. A notification means for notifying that the software information and the version information have been changed to another video device designated by the notification destination information when the software information and the version information of the device itself are changed; The video equipment according to claim 19.   21. The installation of software on the video equipment includes both a new installation that installs software to be installed for the first time and an update installation that rewrites all or part of already installed software. The video equipment in any one of. The video equipment according to any one of claims 19 to 21, which is a video recording / playback apparatus having at least one of a recording means for recording video and a playback means for playback . A plurality of video devices that operate based on installed software, and a line that connects the plurality of video devices to a network;
Each of the plurality of video devices corresponds to installed software information indicating software installed in itself, version information indicating the version of software installed in the video device, and software installed in the video device. Model information indicating the model of the video device, and reference destination information for identifying a reference video device for detection by referring to whether there is a change in the software information and the version information of the software installed in the device itself And notification destination information for specifying a video device as a notification destination for notifying that the software information and the version information of the software installed in the device are changed, and downloading from the download destination to the self Said download to do A installing the software in a video system that holds the download destination information specifying a
A specific video device of the plurality of video devices refers to the software information and the version information of another specific video device of the plurality of video devices,
When it is detected that the software information and the version information relating to the software installed in the specific video device are different from the software information and the version information relating to the software installed in the other specific video device. The software information and the version information regarding the software installed in the specific video device are matched with the software information and the version information regarding the software installed on the other specific video device. Software installation for executing the installation of the specific video equipment by downloading through the line from the download destination specifying the destination Method. A plurality of video devices that operate based on installed software, and a line that connects the plurality of video devices to a network;
Each of the plurality of video devices corresponds to installed software information indicating software installed in itself, version information indicating the version of software installed in the video device, and software installed in the video device. Model information indicating the model of the video device, and reference destination information for identifying a reference video device for detection by referring to whether there is a change in the software information and the version information of the software installed in the device itself And notification destination information for specifying a video device as a notification destination for notifying that the software information and the version information of the software installed in the device are changed, and downloading from the download destination to the self Said download to do The in a video system that holds the download destination information specifying, a recording medium recording a program for executing a process of installing the software to the specific video apparatus,
The process is
A process in which the specific video device refers to the software information and the version information of the other specific video device;
When it is detected that the software information and the version information relating to the software installed in the specific video device are different from the software information and the version information relating to the software installed in the other specific video device. The software information and the version information regarding the software installed in the specific video device are matched with the software information and the version information regarding the software installed on the other specific video device. And a process of executing software installation on the specific video device by downloading through the line from the download destination specifying the destination. A plurality of video devices that operate based on installed software, and a line that connects the plurality of video devices to a network;
Each of the plurality of video devices corresponds to installed software information indicating software installed in itself, version information indicating the version of software installed in the video device, and software installed in the video device. Model information indicating the model of the video device, and reference destination information for identifying a reference video device for detection by referring to whether there is a change in the software information and the version information of the software installed in the device itself And notification destination information for specifying a video device as a notification destination for notifying that the software information and the version information of the software installed in the device are changed, and downloading from the download destination to the self Said download to do A video system for holding the download destination information specifying a is a program for executing processing for installing the software to the specific video apparatus,
The process is
A process in which the specific video device refers to the software information and the version information of the other specific video device;
When it is detected that the software information and the version information relating to the software installed in the specific video device are different from the software information and the version information relating to the software installed in the other specific video device. The software information and the version information regarding the software installed in the specific video device are matched with the software information and the version information regarding the software installed on the other specific video device. And a program for executing installation of software on the specific video equipment by downloading from the download destination specifying the destination through the line.

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