JP2004252704A - Equipment managing device, network connecting equipment, network system, equipment managing method, program for executing the method and recording medium with the program recorded thereon - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an equipment managing device, network connecting equipment and a network system for improving the safety of the operation of the network connecting equipment, and realizing the load reduction of the install operation of software. <P>SOLUTION: This equipment managing device 110 stores cooperation information including the priority of the combination of software, and acquires equipment information assigned to each of a plurality of network connecting equipment 101 and 102 and software information specifying software of the status quo. When the combination of software whose priority is higher than that of the combination of software of the status quo exists in the cooperation information, the equipment managing device 110 transmits a signal notifying that the combination of software whose priority is higher than that of the combination of software of the status quo exists in the cooperation information. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a device management device that manages a plurality of network devices operating in cooperation on a network, a network device managed by the device management device, and a network system including these devices.
[0002]
[Prior art]
A monitoring camera, a time-lapse recording / reproducing apparatus for recording / reproducing a video signal photographed by the monitoring camera (for example, see Patent Document 1), and a personal computer (PC) for managing these apparatuses are connected to a network. Has been put to practical use. Each of the monitoring camera and the time-lapse recording / playback device performs various monitoring operations based on installed software ("firmware" or "software").
[0003]
[Patent Document 1]
JP-A-11-136665 (FIG. 1)
[0004]
[Problems to be solved by the invention]
However, when new or updated software is installed in a network connection device such as a time lapse recording / reproducing device, the software installation operation has to be repeated for each of the network connection devices. For this reason, there has been a problem that installing software in a large-scale system having a large number of network connection devices is a troublesome operation that requires time and effort for an administrator.
[0005]
Further, in a network connection device that operates in cooperation with each other, such as a monitoring camera and a time lapse recording / playback device, depending on a combination of software installed in each network connection device (for example, the monitoring camera is installed in the monitoring camera). When the software version is old, the software version installed in the time-lapse recording / playback apparatus is new, and the compatibility between the software is poor), the operation stability of each network connection device is reduced, that is, the frequency of occurrence of operation failure Had the problem of rising.
[0006]
Therefore, the present invention has been made to solve the above-described problems of the related art, and an object of the present invention is to provide a device management apparatus, a network connection device, and a device that can improve the stability of operation of a network connection device. It is to provide a network system.
[0007]
Another object of the present invention is to provide a device management device, a network connection device, and a network system that can reduce the load of software installation work.
[0008]
[Means for Solving the Problems]
The device management device of the present invention is a device that manages a plurality of network-connected devices that operate in cooperation with each other, and holds cooperation information including a priority of a combination of software that can be installed in each of the plurality of network-connected devices. Acquiring device information assigned to each of the plurality of network-connected devices and software information identifying current software installed in each of the plurality of network-connected devices, and giving priority to the combination of the current software; When a combination of software having a higher degree exists in the cooperation information, a signal notifying that a combination of software having a higher priority than the current combination of software exists in the cooperation information is transmitted. And
[0009]
Further, the network connection device of the present invention operates based on the installed software, is a device having an update function of the software, when receiving an inquiry signal from a device management device connected to the network A signal for notifying the device information allocated to the network-connected device and software information for specifying the current software installed on the network-connected device, and the device management apparatus has a higher priority than the current software. When a signal notifying that high software exists in the link information is received, downloading of new or updated installation software is executed.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
1 and 2 are block diagrams schematically showing the configuration and operation of the network system 1 (including the device management device 110 and the network connection devices 101 and 102) according to Embodiment 1 of the present invention.
[0011]
As shown in FIG. 1, the network system 1 according to the first embodiment includes first and second network connection devices 101 and 102 operating in cooperation with each other, and first and second network connection devices 101 and 102. The device management device 110 includes a device management device 110 that manages the device management device 102 and a network (including a line and a hub) 120 that connects the first and second network-connected devices 101 and 102 to the device management device 110 via a network. Here, the network 120 is, for example, a local area network using Ethernet (registered trademark) technology.
[0012]
Each of the first and second network connection devices 101 and 102 has a built-in semiconductor memory (ROM), a hard disk device and the like, and operates in cooperation with each other based on software installed therein. Here, “operate in cooperation” means that a control signal and data are transmitted and received between a plurality of network-connected devices, and a series of operations related to each other are performed. The first network connection device 101 is, for example, a monitoring camera having a network interface, and the second network connection device 102 is, for example, a video recording / reproducing device having a network interface. However, the first and second network connection devices 101 and 102 are not limited to video devices, and may be other types of devices such as audio devices and broadcast devices. Further, the first and second network-connected devices 101 and 102 may be different types of devices (for example, a monitoring camera and a video recording / reproducing device) as long as they operate in cooperation with each other. (For example, both may be video recording / reproducing devices). Further, FIG. 1 shows two network connection devices 101 and 102, but the number of network connection devices may be three or more.
[0013]
The device management device 110 is, for example, a personal computer (PC). However, the device management device 110 may be a dedicated control device other than a PC, or a video recording / reproducing device having a control function (when one of a plurality of network-connected devices also serves as a device management device). ). In the case where a general-purpose PC is used as the device management apparatus 110, a management program that enables the operations described in detail below to be executed is installed on the PC from a recording medium or by downloading via the Internet. Keep it.
[0014]
The device management device 110 has a storage device such as a semiconductor memory (ROM) 110a and a hard disk device (HDD) 110b. In the storage device, a management program and management data for managing the network-connected devices 101 and 102, and a new program installed in the network-connected devices (for example, the first and second network-connected devices 101 and 102). Alternatively, update installation software (download software) or the like is held. The management data includes information on the priority of a combination of software that can be installed in each of the plurality of network connection devices (for example, the first and second network connection devices 101 and 102) (ie, cooperation information). . Here, the “priority of the combination of software” means, for example, that a plurality of network connection devices (for example, the first and second network connection devices 101 and 102) can be operated in a more stable and cooperative manner. It is the meaning of the ranking of the combination of software. The priority included in the cooperation information is set by data input from outside (for example, input operation by a user, fetching of data from a device providing company via the Internet, and the like).
[0015]
The device management apparatus 110 stores the device information assigned to each of the first and second network-connected devices 101 and 102 and the current software installed in each of the first and second network-connected devices 101 and 102. If the software information to be specified is acquired and a software combination with a higher priority than the current software combination exists in the linkage information, a software combination with a higher priority than the current software combination exists in the linkage information A signal is sent to notify that the software update is to be performed (that is, to notify that software update is recommended). Here, the device information includes the type (for example, model, model, and the like) of the network connection device, and an address (for example, an IP (Internet Protocol) address) unique to each network connection device. The software information includes the type of software and a version indicating a revision stage of the same type of software.
[0016]
Next, the operations of the network system 1, the device management apparatus 110, and the first and second network connection devices 101 and 102 according to the first embodiment will be described with reference to FIGS.
[0017]
As shown in FIG. 1, the model of the first network connection device 101 is “HW1”, the IP address is “AD100”, and the device information in this case is described as “HW1-AD100”. The type of software installed in the first network connection device 101 is “FW1”, the software version is “VER1”, and the software information in this case is described as “FW1-VER1”.
[0018]
Also, as shown in FIG. 1, the model of the second network connection device 102 is “HW2”, the IP address is “AD200”, and the device information in this case is described as “HW2-AD200”. The type of software installed in the second network connection device 102 is “FW2”, the software version is “VER2”, and the software information in this case is described as “FW2-VER2”.
[0019]
Further, as shown in FIG. 1, the device management apparatus 110 includes a ROM 110a for storing cooperation information and an HDD 110b for storing download software. Further, the device management apparatus 110 is equipped with various components used for managing the first and second network connection devices 101 and 102, such as a control circuit, a communication circuit, an input unit, and a monitor. As shown in FIG. 1, the cooperation information held by the device management apparatus 110 sets ““ FW1-VER2 ”+“ FW2-VER2 ”” as a combination of the software with the highest priority 1 In addition, “FW1-VER1” + “FW2-VER2” is set as a combination of software of the priority 2 whose priority is lower by one step. The held priority is not limited to two levels, and may be three or more levels.
[0020]
As shown in FIG. 1, the acquisition of the device information and the software information by the device management apparatus 110 is executed, for example, immediately after the power of the apparatus management apparatus 110 is turned on. However, acquisition of device information and software information may be performed at regular time intervals after power-on. As shown in FIG. 1, when acquiring device information and software information, the device management apparatus 110 transmits an inquiry signal for device information and software information (step 11). The first network-connected device 101 that has received the inquiry signal notifies the device management apparatus 110 of the device information “HW1-AD100” and the software information “FW1-VER1”, and the second network-connected device 102 that has received the inquiry signal. Notifies the device management apparatus 110 of the device information “HW2-AD200” and the software information “FW2-VER2” (step 12).
[0021]
The device management apparatus 110 determines whether a combination of software having a higher priority than the current combination of software installed in the first and second network-connected devices 101 and 102 exists in the cooperation information. In the first embodiment, as shown in FIG. 1, a combination of software having a higher priority than the current combination of software “FW1-VER1” + “FW2-VER2”, ie, a priority 1 is illustrated. "FW1-VER2" + "FW2-VER2" in the link information. In this case, as shown in FIG. 2, a signal notifying that a software combination having a higher priority than the current software combination exists in the cooperation information (that is, the first network connection device 101 (A notification recommending that the software be updated from "FW1-VER1" to "FW1-VER2") (step 13).
[0022]
As shown in FIG. 2, the first network-connected device 101 that has received the notification recommending the software update sends a download request for the update software “FW1-VER2” to the device management apparatus 110 (step 14). The device management apparatus 110 that has received the download request from the first network device 101 downloads the software “FW1-VER2” to the first network device 101 (step 15). By this download, as shown in FIG. 2, the software installed in the first network connection device 101 becomes “FW1-VER2”. As a result, the combination of the software of the first and second network-connected devices 101 and 102 becomes “FW1-VER2” + “FW2-VER2”, which is the same as the combination of the software of the priority 1 of the cooperation information. Note that, after the notification (step 13) indicating that the software is to be updated shown in FIG. 2, other conditions such as an input operation of a download instruction by a user are not automatically performed without installing the update software. In such a case, the software may be configured to be downloaded.
[0023]
As described above, according to the network system 1, the device management apparatus 110, and the network connection devices 101 and 102 according to the first embodiment, the combination of the software installed in the plurality of network connection devices 101 and 102 is Since the management is performed so as to have the highest priority, the stability of the operation of the plurality of network-connected devices 101 and 102 operating in cooperation can be improved.
[0024]
In addition, since the network-connected devices 101 and 102 are provided with a function of downloading software via the network 120, it is possible to reduce the load of new or updated software installation work on the network-connected devices 101 and 102.
[0025]
Embodiment 2 FIG.
3 and 4 are block diagrams schematically showing the configuration and operation of the network system 2 (including the device management device 210 and the network connection devices 201 and 202) according to Embodiment 2 of the present invention.
[0026]
In the network system 2 according to the second embodiment, the download software for the network-connected devices 201 and 202 is provided to a device 211 other than the device management device 210 (for example, deployed at a device providing company and connected via the Internet). The network system 1 according to the first embodiment is different from the network system 1 according to the first embodiment in that the software is stored in a recording device (for example, an HDD 211a) of a software download server and the device management device 210 does not hold the download software.
[0027]
Next, operations of the network system 2, the device management device 210, the first and second network connection devices 201 and 202, and the other device 211 according to the second embodiment will be described with reference to FIGS. I do.
[0028]
As shown in FIG. 3, the model of the first network connection device 201 is “HW1”, the IP address is “AD100”, and the device information in this case is described as “HW1-AD100”. The type of software installed in the first network connection device 201 is “FW1”, the software version is “VER1”, and the software information in this case is described as “FW1-VER1”.
[0029]
As shown in FIG. 3, the model of the second network connection device 202 is “HW2”, the IP address is “AD200”, and the device information in this case is described as “HW2-AD200”. The type of software installed in the second network connection device 202 is “FW2”, the software version is “VER2”, and the software information in this case is described as “FW2-VER2”.
[0030]
Further, as shown in FIG. 3, the device management device 210 has a ROM 210a for holding the cooperation information. In addition, the device management device 210 includes various components used for managing the first and second network connection devices 201 and 202, such as a control circuit, a communication circuit, an input unit, and a monitor. Here, in the cooperation information held by the device management apparatus 210, “FW1-VER2” + “FW2-VER2” is set as the combination of the software with the highest priority 1 and the priority is set. “FW1-VER1” + “FW2-VER2” is set as a combination of software of priority 2 which is one step lower.
[0031]
As illustrated in FIG. 3, the acquisition of the device information and the software information by the device management apparatus 210 is executed, for example, immediately after the power of the apparatus management apparatus 210 is turned on. However, acquisition of device information and software information may be performed at regular time intervals after power-on. As shown in FIG. 3, when acquiring the device information and the software information, the device management apparatus 210 transmits an inquiry signal of the device information and the software information (Step 21). The first network device 201 that has received the inquiry signal notifies the device management device 210 of the device information “HW1-AD100” and the software information “FW1-VER1”, and the second network device 202 that has received the inquiry signal. Notifies the device management apparatus 210 of the device information “HW2-AD200” and the software information “FW2-VER2” (Step 22).
[0032]
The device management apparatus 210 determines whether a combination of software having a higher priority than the current combination of software installed in the first and second network connection devices 201 and 202 exists in the cooperation information. In the second embodiment, as shown in FIG. 3, a combination of software having a higher priority than the current combination of software “FW1-VER1” + “FW2-VER2”, ie, a priority 1 is illustrated. "FW1-VER2" + "FW2-VER2" in the link information. In this case, as shown in FIG. 4, a signal notifying that a combination of software having a higher priority than the current combination of software exists in the cooperation information (that is, a signal to the first network connection device 201). (A notification recommending that the software be updated from "FW1-VER1" to "FW1-VER2") (step 23).
[0033]
As shown in FIG. 4, the first network-connected device 201 that has received the notification recommending the software update transmits a download request for the update software “FW1-VER2” to the other device 211 (step 24). The other device 211 that has received the download request from the first network device 201 downloads the software “FW1-VER2” to the first network device 201 (step 25). By this download, as shown in FIG. 4, the software installed in the first network connection device 201 becomes “FW1-VER2”. As a result, the combination of the software of the first and second network-connected devices 201 and 202 becomes “FW1-VER2” + “FW2-VER2”, which is the same as the combination of the software of the priority 1 of the cooperation information. After the notification (step 23) of recommending the software update shown in FIG. 4, other conditions such as an input operation of a download instruction by the user are not automatically executed without installing the update software. In such a case, the software may be configured to be downloaded.
[0034]
As described above, according to the network system 2, the device management apparatus 210, and the network connection devices 201 and 202 according to the second embodiment, as in the first embodiment, a plurality of networks operating in cooperation with each other The stability of the operation of the connected devices 201 and 202 can be improved, and the burden of installing new or updated software on the network connected devices 201 and 202 can be reduced.
[0035]
In the second embodiment, the other points are the same as those in the first embodiment.
[0036]
Embodiment 3 FIG.
5 and 6 are block diagrams schematically showing the configuration and operation of the network system 3 (including the device management device 310 and the network connection devices 301 and 302) according to Embodiment 3 of the present invention.
[0037]
In the third embodiment, the network system 3, the device management device 310, and the first and second network connections when the first network connection device 301 not connected to the network 120 is connected to the network 120. The operation of the devices 301 and 302 will be described.
[0038]
As shown in FIG. 5, the model of the first network connection device 301 is “HW1”, the IP address is “AD100”, and the device information in this case is described as “HW1-AD100”. The type of software installed in the first network connection device 301 is “FW1”, the software version is “VER1”, and the software information in this case is described as “FW1-VER1”.
[0039]
Further, as shown in FIG. 5, the model of the second network connection device 302 is “HW2”, the IP address is “AD200”, and the device information in this case is described as “HW2-AD200”. The type of software installed in the second network connection device 302 is “FW2”, the software version is “VER2”, and the software information in this case is described as “FW2-VER2”.
[0040]
Further, as shown in FIG. 5, the device management apparatus 310 has a ROM 310a for holding coordination information and an HDD 310b for storing download software. In addition, the device management apparatus 310 includes various components used for managing the first and second network connection devices 301 and 302, such as a control circuit, a communication circuit, an input unit, and a monitor. Here, in the cooperation information held by the device management apparatus 310, ““ FW1-VER2 ”+“ FW2-VER2 ”” is set as the combination of the software with the highest priority 1 and the priority is set. “FW1-VER1” + “FW2-VER2” is set as a combination of software of priority 2 which is one step lower.
[0041]
As shown in FIG. 5, when the first network connection device 301 is connected to the network 120, the first network connection device 301 notifies that it is connected to the network, that is, notifies the new connection. A signal is transmitted (step 31). The device management apparatus 310 that has received the signal notifying the new connection transmits an inquiry signal for device information and software information (step 32). The first network device 301 that has received the inquiry signal notifies the device management device 310 of the device information “HW1-AD100” and the software information “FW1-VER1”, and the second network device 102 that has received the inquiry signal. Notifies the device management apparatus 310 of the device information “HW2-AD200” and the software information “FW2-VER2” (step 33).
[0042]
The device management apparatus 310 determines whether a combination of software having a higher priority than the current combination of software installed in the first and second network connection devices 301 and 302 exists in the cooperation information. In the third embodiment, as shown in FIG. 5, a combination of software having a higher priority than the current combination of software “FW1-VER1” + “FW2-VER2”, ie, a priority 1 is illustrated. "FW1-VER2" + "FW2-VER2" in the link information. In this case, as shown in FIG. 6, a signal notifying that a combination of software having a higher priority than the current combination of software exists in the cooperation information (that is, the first network connection device 301 (A notification recommending that the software be updated from "FW1-VER1" to "FW1-VER2") (step 34).
[0043]
As shown in FIG. 6, the first network connection device 301 that has received the notification recommending the software update transmits a download request for the update software “FW1-VER2” to the device management device 310 (step 35). The device management device 310 that has received the download request from the first network device 301 downloads the software “FW1-VER2” to the first network device 301 (step 36). By this download, as shown in FIG. 6, the software installed in the first network connection device 301 becomes “FW1-VER2”. As a result, the combination of the software of the first and second network connection devices 301 and 302 becomes "FW1-VER2" + "FW2-VER2", which is the same as the priority 1 of the cooperation information. After the notification of recommending the software update (step 34) shown in FIG. 6, if the user does not automatically install the update software and performs an input operation of the download instruction by the user, the software download is performed. May be configured to be executed. Further, as in the case of the second embodiment, the software may be downloaded from another device other than the device management device 310.
[0044]
As described above, according to the network system 3, the device management apparatus 310, and the network connection devices 301 and 302 according to the third embodiment, as in the first embodiment, a plurality of networks operating in cooperation with each other. The stability of the operation of the connected devices 301 and 302 can be improved, and the burden of installing new or updated software on the network connected devices 301 and 302 can be reduced.
[0045]
In the third embodiment, the other points are the same as those of the first or second embodiment.
[0046]
Embodiment 4 FIG.
7 and 8 are block diagrams schematically showing the configuration and operation of network system 4 (including device management device 410 and network connection devices 401 and 402) according to Embodiment 4 of the present invention.
[0047]
In the fourth embodiment, the network system 4, the device management device 410, and the first and second network connections when the first network connection device 401 not connected to the network 120 is connected to the network 120. The operation of the devices 401 and 402 will be described. In the fourth embodiment, as shown in FIG. 7, when the first network-connected device 401 is connected to the network 120, the device management apparatus 410 stores the latest download software (here, “ FW1-VER2 ") is not saved.
[0048]
As shown in FIG. 7, the model of the first network connection device 401 is “HW1”, the IP address is “AD100”, and the device information in this case is described as “HW1-AD100”. The type of software installed in the first network connection device 401 is “FW1”, the software version is “VER1”, and the software information in this case is described as “FW1-VER1”.
[0049]
As shown in FIG. 7, the model of the second network connection device 402 is “HW2”, the IP address is “AD200”, and the device information in this case is described as “HW2-AD200”. The type of software installed in the second network connection device 402 is “FW2”, the software version is “VER2”, and the software information in this case is described as “FW2-VER2”.
[0050]
Further, as shown in FIG. 7, the device management apparatus 410 includes a ROM 410a for holding cooperative information, an HDD 410b for storing download software and the like, and a download software from an external recording medium such as a magnetic disk or an optical disk. And a reading device 410c for reading the data. The device management device 410 includes various components used for managing the first and second network connection devices 401 and 402, such as a control circuit, a communication circuit, an input unit, and a monitor. Here, in the cooperation information held by the device management apparatus 410, “FW1-VER2” + “FW2-VER2” is set as the combination of the software with the highest priority 1 and the priority is higher. “FW1-VER1” + “FW2-VER2” is set as a combination of software of priority 2 which is one step lower.
[0051]
As shown in FIG. 7, when the first network connection device 401 is connected to the network 120, the first network connection device 401 notifies that the first network connection device 401 is connected to the network, that is, notifies the new connection. A signal is transmitted (step 41). The device management apparatus 410 that has received the signal for notifying the new connection transmits an inquiry signal for device information and software information (step 42). The first network connection device 401 that has received the inquiry signal notifies the device management device 410 of the device information “HW1-AD100” and the software information “FW1-VER1”, and the second network connection device 402 HW2-AD200 ”and software information“ FW2-VER2 ”are notified to the device management apparatus 410 (step 43). Here, as shown in FIG. 8, the external recording medium 430 is inserted into the reading device 410c, and the download software is copied from the external recording medium 430 to the HDD 410b and stored (step 44). Step 44 may be executed at any stage before the execution of the download.
[0052]
The device management apparatus 410 determines whether a combination of software having a higher priority than the current combination of software installed in the first and second network connection devices 401 and 402 exists in the cooperation information. In the fourth embodiment, as shown in FIG. 7, a combination of software having higher priority than the current combination of software “FW1-VER1” + “FW2-VER2”, that is, a priority 1 is illustrated. "FW1-VER2" + "FW2-VER2" in the link information. In this case, as shown in FIG. 8, a signal notifying that a combination of software having a higher priority than the current combination of software exists in the cooperation information (that is, a signal to the first network connection device 401). (A notification recommending that the software be updated from "FW1-VER1" to "FW1-VER2") (step 45).
[0053]
As shown in FIG. 8, the first network-connected device 401 that has received the notification recommending the software update sends a download request for the update software “FW1-VER2” to the device management device 410 (step 46). The device management apparatus 410 that has received the download request from the first network connection device 401 downloads the software “FW1-VER2” to the first network connection device 401 (step 47). By this download, as shown in FIG. 8, the software installed in the first network connection device 401 becomes “FW1-VER2”. As a result, the combination of the software of the first and second network connection devices 401 and 102 becomes “FW1-VER2” + “FW2-VER2”, which is the same as the priority 1 of the cooperation information. After the notification (step 45) of recommending the software update shown in FIG. 8, if the user does not automatically install the update software and performs the input operation of the download instruction by the user, the software download is performed. May be configured to be executed.
[0054]
As described above, according to the network system 4, the device management apparatus 410, and the network connection devices 401 and 402 according to the fourth embodiment, as in the first embodiment, a plurality of networks operating in cooperation with each other The stability of the operation of the connected devices 401 and 402 can be improved, and the load of new or updated software installation work on the network connected devices 401 and 402 can be reduced.
[0055]
In the fourth embodiment, the other points are the same as those in the first to third embodiments.
[0056]
Embodiment 5 FIG.
9 and 10 are block diagrams schematically showing the configuration and operation of network system 5 (including device management device 510 and network connection devices 501 and 502) according to Embodiment 5 of the present invention.
[0057]
In the fifth embodiment, when the first network connection device 501 not connected to the network 120 is connected to the network 120, the network system 5, the device management device 510, and the first and second network connections The operation of the devices 501 and 502 will be described. In the fifth embodiment, a case where the software of the first network connection device 502 is updated will be described.
[0058]
As shown in FIG. 9, the model of the first network connection device 501 is “HW1”, the IP address is “AD100”, and the device information in this case is described as “HW1-AD100”. The type of software installed in the first network connection device 501 is “FW1”, the software version is “VER2”, and the software information in this case is described as “FW1-VER2”.
[0059]
As shown in FIG. 9, the model of the second network connection device 502 is “HW2”, the IP address is “AD200”, and the device information in this case is described as “HW2-AD200”. The type of software installed in the second network connection device 502 is “FW2”, the software version is “VER1”, and the software information in this case is described as “FW2-VER1”.
[0060]
Further, as shown in FIG. 9, the device management apparatus 510 includes a ROM 510a for holding cooperation information and an HDD 510b for storing download software. The device management device 510 includes various components used for managing the first and second network connection devices 501 and 502, such as a control circuit, a communication circuit, an input unit, and a monitor. Here, in the cooperation information held by the device management apparatus 510, “FW1-VER2” + “FW2-VER2” is set as the combination of the software with the highest priority 1 and the priority is higher. “FW1-VER1” + “FW2-VER2” is set as a combination of software of priority 2 which is one step lower.
[0061]
As shown in FIG. 9, when the first network connection device 501 is connected to the network 120, the first network connection device 501 notifies that it is connected to the network, that is, notifies the new connection. A signal is transmitted (step 51). The device management apparatus 510 that has received the signal notifying the new connection transmits an inquiry signal of the device information and the software information (step 52). The first network connection device 501 that has received the inquiry signal notifies the device management apparatus 510 of the device information “HW1-AD100” and the software information “FW1-VER2”, and the second network connection device 502 that has received the inquiry signal. Notifies the device management apparatus 510 of the device information “HW2-AD200” and the software information “FW2-VER1” (step 53).
[0062]
The device management apparatus 510 determines whether a combination of software having a higher priority than the current combination of software installed in the first and second network connection devices 501 and 502 exists in the cooperation information. In the fifth embodiment, as shown in FIG. 9, a combination of software having higher priority than the current combination of software “FW1-VER2” + “FW2-VER1”, ie, a priority 1 is illustrated. "FW1-VER2" + "FW2-VER2" in the link information. In this case, as shown in FIG. 10, a signal notifying that a combination of software having a higher priority than the current combination of software exists in the cooperation information (that is, a signal to the second network connection device 502). (A notification recommending that the software be updated from “FW2-VER1” to “FW2-VER2”) (step 54).
[0063]
As shown in FIG. 10, the second network-connected device 502 that has received the notification recommending the software update transmits a download request for the update software “FW2-VER2” to the device management apparatus 510 (step 55). The device management apparatus 510 that has received the download request from the second network device 502 downloads the software “FW2-VER2” to the second network device 502 (step 56). By this download, as shown in FIG. 10, the software installed in the second network connection device 502 becomes “FW2-VER2”. As a result, the combination of the software of the first and second network connection devices 501 and 502 becomes “FW1-VER2” + “FW2-VER2”, which is the same as the priority 1 of the cooperation information. After the notification (step 54) of recommending software update shown in FIG. 10, other conditions such as the input operation of the download instruction by the user are not automatically executed and the update operation is not performed by the user. In such a case, the software may be configured to be downloaded. Further, as in the case of the second embodiment, the software may be downloaded from another device other than the device management device 510.
[0064]
As described above, according to the network system 5, the device management apparatus 510, and the network connection devices 501 and 502 according to the fifth embodiment, as in the first embodiment, a plurality of networks operating in cooperation The stability of the operation of the connected devices 501 and 502 can be improved, and the burden of installing new or updated software on the network connected devices 501 and 502 can be reduced.
[0065]
In the fifth embodiment, the other points are the same as those in the first to fourth embodiments.
[0066]
Embodiment 6 FIG.
FIGS. 11 to 13 are block diagrams schematically showing configurations and operations of the network system 6 (including the device management device 610 and the network connection devices 601, 602, and 603) according to Embodiment 6 of the present invention. .
[0067]
In the sixth embodiment, when the third network connection device 603 that has not been connected to the network 120 is connected to the network 120, the network system 6, the device management device 610, and the first to third network connections The operation of the devices 601, 602, 603 will be described. In the sixth embodiment, when the third network-connected device 603 is connected to the network 120, software is downloaded from the third network-connected device 603 to the device management device 610, and then, from the device management device 610. A case where the update software is downloaded to the first network connection device 601 will be described.
[0068]
As shown in FIG. 11, the model of the first network connection device 601 is “HW1”, the IP address is “AD100”, and the device information in this case is described as “HW1-AD100”. The type of software installed in the first network connection device 601 is “FW1”, the software version is “VER1”, and the software information in this case is described as “FW1-VER1”.
[0069]
As shown in FIG. 11, the model of the second network connection device 602 is “HW2”, the IP address is “AD200”, and the device information in this case is described as “HW2-AD200”. The type of software installed in the second network connection device 602 is “FW2”, the software version is “VER2”, and the software information in this case is described as “FW2-VER2”.
[0070]
As shown in FIG. 11, the model of the third network connection device 603 to be newly connected is “HW1”, which is the same as that of the first network connection device 601, and the IP address is “AD101”. The device information in this case is described as “HW1-AD101”. The type of software installed in the third network connection device 603 is “FW1”, and the software version is “VER2” which is newer than that of the first network connection device 601. The information is described as "FW1-VER2".
[0071]
Further, as shown in FIG. 11, the device management apparatus 610 includes a ROM 610a for holding cooperation information and an HDD 610b for storing download software. The device management device 610 includes various components used for managing the first to third network connection devices 601, 602, and 603, such as a control circuit, a communication circuit, an input unit, and a monitor. Here, in the cooperation information held by the device management apparatus 610, “FW1-VER2” + “FW2-VER2” is set as a combination of the software with the highest priority 1 and the priority is higher. "FW1-VER1" + "FW2-VER2" is set as a combination of software of priority 2 lower by one step, and "FW1-VER1" is set as a combination of software of priority 3 further lower by one step. −VER1 ”+“ FW2-VER1 ”. Further, a new version of software “FW1-VER2” for the first or third network connection device 601 or 603 is not stored in the HDD 610b of the device management apparatus 610.
[0072]
As shown in FIG. 11, when the third network connection device 603 is connected to the network 120, the third network connection device 603 notifies that the third network connection device 603 is connected to the network, that is, notifies the new connection. A signal is transmitted (step 61). The device management apparatus 610 that has received the signal notifying the new connection transmits an inquiry signal for device information and software information (step 62). The third network connection device 603 that has received the inquiry signal notifies the device management device 610 of the device information “HW1-AD101” and the software information “FW1-VER2”. At the same time, the first network connection device 601 that has received the inquiry signal notifies the device management device 610 of the device information “HW1-AD100” and the software information “FW1-VER1”, and the second network connection device 601 that has received the inquiry signal. The device 602 notifies the device management apparatus 610 of the device information “HW2-AD200” and the software information “FW2-VER2” (Step 63).
[0073]
Here, the device management apparatus 610 does not have the software “FW1-VER2” installed in the third network connection device 603. In this case, as shown in FIG. 12, the device management apparatus 610 transmits to the third network connection device 603 a signal requesting that the software “FW1-VER2” be imported as download software ( (Step 64) Download the software “FW1-VER2” and save it in the HDD 610b (Step 65).
[0074]
Next, the device management apparatus 610 determines whether a combination of software having a higher priority than the current combination of software exists in the link information. In the sixth embodiment, as shown in FIG. 12, a software combination having a higher priority than the current software combination “FW1-VER1” + “FW2-VER2”, ie, a priority 1 is illustrated. "FW1-VER2" + "FW2-VER2" in the link information. In this case, as shown in FIG. 13, a signal notifying that a combination of software having a higher priority than the current combination of software exists in the cooperation information (that is, a signal to the first network connection device 601). (A notification recommending that the software be updated from "FW1-VER1" to "FW1-VER2") (step 66).
[0075]
As shown in FIG. 13, the first network-connected device 601 that has received the notification recommending the software update sends a download request for the update software “FW1-VER2” to the device management apparatus 610 (step 67). The device management apparatus 610 that has received the download request from the first network device 601 downloads the software “FW1-VER2” to the first network device 601 (step 68). As a result of this download, as shown in FIG. 13, the software installed in the first and third network connection devices 601 and 603 becomes “FW1-VER2”. As a result, the combination of the software of the first to third network connection devices 601, 602, and 603 becomes “FW1-VER2” + “FW2-VER2”, which is the same as the priority 1 of the cooperation information. Note that, after the notification of recommending software update (step 66) shown in FIG. 13, other conditions such as a user's input operation of a download instruction and the like are not automatically executed and the update software is not installed. In such a case, the software may be configured to be downloaded.
[0076]
As described above, according to the network system 6, the device management apparatus 610, and the network connection devices 601, 602, and 603 according to the sixth embodiment, a plurality of cooperating devices operate in the same manner as in the first embodiment. Can improve the stability of the operation of the network-connected devices 601, 602, and 603, and can reduce the burden of installing new or updated software on the network-connected devices 601, 602, and 603.
[0077]
In the sixth embodiment, the other points are the same as those in the first to fifth embodiments.
[0078]
Embodiment 7 FIG.
FIG. 14 is a diagram for explaining the configuration and operation of a video surveillance system (including a personal computer (PC) as a device management device and a camera and recorder as network connection devices) according to Embodiment 7 of the present invention. is there.
[0079]
As shown in FIG. 14, the video surveillance system according to the seventh embodiment includes a time-lapse recording / reproducing device (model name: RecType1) 701 which is an HDD recorder having a network interface, and a monitoring monitor ( (Not shown). The video surveillance system according to Embodiment 7 includes, as network connection devices, a DVD (digital versatile disc) recorder (model name: DvdType2) 702 provided with a network interface, and a network camera provided with a network interface (model name: DvdType2). CamType 3) 703a1, 703a2, 703a3, 703a4. Further, the video monitoring system according to the seventh embodiment includes a PC 704 as a device management device. The time lapse recording / reproducing device 701, the DVD recorder 702, the network cameras 703a1, 703a2, 703a3, 703a4, and the PC 704 are connected via a network (including a line and a hub) 705, respectively. Each of the device management device and the network connection device includes a medium (information recording medium) reader (706a or the like). By inserting a medium storing the firmware into the media reading device of each device and taking it into the ROM of each device, the firmware can be newly or updated installed.
[0080]
FIG. 15 is a diagram for explaining setting contents stored in a storage device 711 (hereinafter, also simply referred to as a “memory”) such as a ROM of the device management device 704 according to the seventh embodiment. The conventional device management device has a device setting and a network setting, but the device management device 704 according to the seventh embodiment has a cooperation setting 710c in addition to the device setting 710a and the network setting 710b. An example of the setting contents of the cooperation setting 710c is shown in FIG. As shown in FIG. 19, the cooperation information 710c1 in the cooperation setting 710c includes (1) firmware of a network connection device managed by the device management apparatus 704, (2) firmware version, and (3) firmware version. Tag for managing the priority of a stable combination, (4) the priority of the currently called combination, (5) the IP address of the network connection device having each firmware, and (6) the installation to each network connection device. 7) Notification for specifying the device to be notified when the firmware version indicated by the currently called combination priority tag differs from the firmware version installed in each device. Including information such as flags That. Further, if necessary, other settings may be stored as the cooperation setting 710c.
[0081]
In the video monitoring system according to the seventh embodiment, at the time when the power of the device management device 704 is turned on, the time lapse recording / reproducing device 701, the DVD recorder 702, and the cameras 703a1, 703a2, 703a3, and 703a4 have already joined the network. Hereinafter, a case where there is no device newly joining the network will be described. Here, the latest firmware (f / w) is installed in each network connection device. That is, as shown in FIG. 19, the version of the firmware installed in the time-lapse recording / reproducing apparatus 701 is “Ver. 1.11”, and the version of the firmware installed in the DVD recorder 702 is “Ver. .3 ", and the version of the firmware installed in each of the cameras 703a1, 703a2, 703a3, and 703a4 is" Ver. 0.52 ". Here, a case will be described in which the operation of the video monitoring system is unstable, that is, an operation abnormality is likely to occur due to compatibility of firmware installed in each network connection device. It is also assumed that the firmware of each device, including the firmware of the past version, is all stored in the memory 711 of the device management apparatus 704 in advance.
[0082]
Next, the operation of the video monitoring system according to Embodiment 7 will be described. As shown in FIG. 14, after the power is turned on, the device management device 704 switches network connection devices (time lapse recording / reproducing device 701, DVD recorder 702, network cameras 703a1, 703a2, 703a3, 703a4, etc.) connected to the network. In order to grasp, an inquiry for recognizing the network connection device is broadcast (step 71). Each network connection device that has received this inquiry notifies the device management device 704 of a device identification response signal unique to each device for specifying the network connection device and the version of firmware installed in each network connection device. (Step 72). Here, the user operates the network connection device management tool 720 (hereinafter, referred to as “management tool”) on the device management apparatus 704 (see FIGS. 16 and 18), and previously registered as priority 1. Set to call a combination of firmware that operates stably. At this time, the combination registered as the priority 1 has the firmware for the time-lapse recording / reproducing device 701 as “Ver. 1.10” and the firmware for the DVD recorder 702 as “Ver. 3 ", and the firmware for the cameras 703a1, 703a2, 703a3, and 703a4 is" Ver. 0.52 ". For this reason, in the cooperation information 710c1 of the device management apparatus 704, the firmware version of each network-connected device described in the “current Ver.” Column and the priority number in the “setting priority” column are set in the “priority management” column. The firmware version described in the tag is compared with the firmware version, and these are different from each other, that is, a flag is displayed in the “notification flag” column of the time-lapse recording / reproducing device 701 (indicated by a dot “•” in the notification flag column of FIG. 19). Will stand).
[0083]
The device management apparatus 704 provides, for the network-connected device 701 for which the notification flag has been set in the link information 710c1, “Ver. 1.10” in which the called priority number is described in the “priority management” column tag. A notification is issued to install the firmware (step 73). The time-lapse recording / reproducing device 701 that has received the notification downloads the firmware of “Ver. 1.10” from the device management device 704 (step 74) and installs the firmware on itself.
[0084]
FIG. 16 is a diagram schematically illustrating an image (a user interface including a list of network-connected devices) displayed on the monitor of the device management apparatus 704 according to the seventh embodiment using the management tool 720. As shown in FIG. 16, by using the management tool 720, the user can obtain a list of network connection devices recognized on the network by selecting “device list” from “device setting” on the toolbar. Can be. The management tool 720 refers to the link information 710c1 shown in FIG. 19, that is, the “connection model” and “model name” are in the “software” column of the link information 710c1, and the “IP address” is the link information 710c1. In the “IP address” column of “No.”, and “software version” indicating the version of the currently installed firmware, the connection device list is created by referring to the “Current Ver.” Column of the link information 710c1.
[0085]
FIG. 17 is a diagram illustrating an occupation state of firmware for each network-connected device stored in the ROM 711 of the device management apparatus 704 according to the seventh embodiment. The firmware for the time-lapse recording / reproducing device 701 (“Ver. 1.01” to “Ver. 1.11”) and the firmware for the cameras 703a1, 703a2, 703a3, and 703a4 (“Ver. 0.50” to “Ver. “Ver. 0.52”) and firmware for the DVD recorder 702 (“Ver. 3.0” to “Ver. 3.3”).
[0086]
FIG. 18 is a diagram schematically illustrating an image (an image for setting a priority) displayed on the monitor of the device management apparatus 704 according to the seventh embodiment using the management tool 720. The user selects “priority setting” from “cooperation setting” on the toolbar in the management tool 720, and the combination of the firmware of each device considered to be stable by the user himself in the combination priority setting window 720a Can be selected from each pull-down menu and registered as a priority number (priority 1 in this example). Further, the user can call the setting call from the “coordination setting” on the toolbar (not shown) to call the priority number of the previously set combination and return to the stable combination of firmware.
[0087]
The combination priority setting window 720a in the management tool 720 refers to the cooperation information 710c1 shown in FIG. 19, that is, the type of the displayed firmware is displayed in the “Software” column of the cooperation information 710c1. The pull-down menu for selecting a version is configured by referring to the “priority management” column of the link information 710c1.
[0088]
FIG. 20 is a diagram showing transition of firmware installed in each network connection device according to the seventh embodiment. 20, 712 indicates the inside of the memory of the time-lapse recording / reproducing apparatus 701, 713 indicates the inside of the memory of the network cameras 703a1, 703a2, 703a3, and 703a4, and 714 indicates the inside of the memory of the DVD recorder 702. As shown in the upper part of FIG. 20, the latest version of each firmware is stored in advance in each memory, that is, “Ver. 1.11” of the RecType1 firmware is stored in the memory 712, and the CamType3 firmware is stored in the memory 713. “Ver. 0.52” is installed in the memory 714, and “Ver. 3.3” of the DvdType2 firmware is installed in the memory 714.
[0089]
Assuming that the user operates the management tool 720 and calls the combination of the priority 1, the priority number in the “setting priority” column in the link information 710c1 shown in FIG. The firmware version of each device described in the “Ver.” Column is compared with the firmware version described in the tag of the “priority management” column with the priority number 1.
[0090]
At this time, the combination registered as the priority 1 is that the firmware for the time-lapse recording / reproducing device 701 is “Ver. 1.10”, the firmware for the DVD recorder 702 is “Ver. 3.3”, and the camera 703a1, The firmware for 703a2, 703a3, and 703a4 is “Ver. 0.52”. In this case, since the version comparison result is different only in the time-lapse recording / reproducing device 701, a notification flag is set in the link information 710c1. As a result, the device management apparatus 704 notifies the time lapse recording / reproduction apparatus 701 to install the firmware of “Ver. 1.10”. The time-lapse recording / reproducing device 701 that has received the notification downloads the firmware “Ver. 1.10” from the device management device 704 and installs the firmware on itself. As a result, as shown in the lower part of FIG. 20, the RecType1 firmware changes to “Ver. 1.10.” Only in the memory 712 of the time-lapse recording / reproducing device 701.
[0091]
As described above, according to the video monitoring system, the device management apparatus 704, and the network connection device according to the seventh embodiment, the combination of software installed in a plurality of network connection devices has the highest priority. Therefore, the stability of the operation of a plurality of network-connected devices operating in cooperation can be improved.
[0092]
In addition, since a function of downloading software to the network-connected device is provided, it is possible to reduce a load of a new or update installation of software to the network-connected device.
[0093]
Embodiment 8 FIG.
FIG. 21 is a diagram for describing the configuration and operation of a video surveillance system (including a PC as a device management device and a camera and a recorder as network-connected devices) according to Embodiment 8 of the present invention.
[0094]
As shown in FIG. 21, the video monitoring system according to the eighth embodiment includes, as network connection devices, a DVD recorder (model name: DvdType2) 802 having a network interface, and a network camera (model name: CamType3) 803a1, 803a2, 803a3, 803a4. The video monitoring system according to the eighth embodiment includes a PC 804 as a device management device. In the eighth embodiment, the time-lapse recording / reproducing device 801 is additionally connected to a network 805 to which a DVD recorder 802, network cameras 803a1, 803a2, 803a3, 803a4, and a PC 804 are connected. Each of the device management device and the network connection device includes a media (information recording medium) reading device. By inserting a medium storing the firmware into the media reading device of each device and taking it into the ROM of each device, the firmware can be newly or updated installed.
[0095]
In the eighth embodiment, the DVD recorder 802 and the cameras 803a1, 803a2, 803a3, 803a4 have already participated in the network when the power of the device management apparatus 804 is turned on. In the following, a description will be given of a case where the device newly joins the network after the power is turned on. As shown in the “current Ver.” Column of FIG. 24, all the network-connected devices have the latest firmware at the present time, that is, the version of the firmware installed in the time-lapse recording / reproducing apparatus 801 is “Ver. 11 ", the version of the firmware installed in the DVD recorder 802 is" Ver.3.3 ", and the version of the firmware installed in the cameras 803a1, 803a2, 803a3, 803a4 is" Ver.0.52 ". "Will be described. Further, as shown on the left side of FIG. 22, the firmware of each device, including the past versions, is all stored in a storage device 811 such as a ROM of the device management device 804 (also simply referred to as “memory”) at the present time. It is assumed that
[0096]
Next, the operation of the video monitoring system according to Embodiment 8 will be described. As shown in FIG. 21, the time lapse recording / reproducing apparatus 801 that has newly joined the network broadcasts to notify that it has joined the network (step 81). The device management apparatus 804 that has received the notification broadcasts an inquiry for recognizing the network-connected device in order to grasp the network-connected device connected to the network again (step 82). Each network connection device that has received this inquiry notifies the device management device 804 of a device identification response signal unique to each device for specifying the network connection device and the version of firmware installed in each network connection device. (Step 83). Here, the user operates the management tool 820 on the device management apparatus 804 (see FIG. 16 and FIG. 23), and makes settings so that the latest version of firmware is called for each network-connected device. Further, the user inserts the medium 806b storing the latest version “Ver. 1.12” of the time-lapse recording / reproducing device 801 into the media reading device 806a of the device management device 804, and performs time-lapse recording in the memory 811 of the device management device 804. The firmware of the latest version “Ver. 1.12” of the playback device 801 is stored. At this time, as shown in FIG. 24, in the latest version of the firmware of each device stored in the memory 811, the firmware for the time-lapse recording / reproducing device 801 is “Ver.1.12” and the firmware for the DVD recorder 802 is Is “Ver. 3.3”, and the firmware for the cameras 803a1, 803a2, 803a3, and 803a4 is “Ver. 0.52”. For this reason, in the cooperation information 810c1 of the device management apparatus 804, the firmware version of each device described in the “current Ver.” Column is compared with the firmware version described in the priority number in the “setting priority” column. However, a flag is set in the “notification flag” column of the device different from these, that is, the time-lapse recording / reproducing device 801. The device management device 804 registers “Ver.” Registered as the latest version in the “priority management” column with respect to the network connection device (here, the time-lapse recording / reproducing device 801) for which the notification flag is set in the cooperation information 810c1. A notification is sent to install the 1.12 "firmware (step 85). The time-lapse recording / reproducing apparatus 801 that has received the notification downloads the “Ver. 1.12” firmware from the device management apparatus 804 (step 86) and installs the firmware on itself.
[0097]
FIG. 22 is a diagram illustrating a change in the occupation state of the firmware for each network-connected device stored in the memory 811 of the device management apparatus 804 according to the eighth embodiment. As shown on the left side of FIG. 22, the memory 811 initially contains firmware (“Ver. 1.01” to “Ver. 1.11”) for the time-lapse recording / reproducing device 801 and the cameras 803a1, 803a2, and 803a3. , 803a4 (“Ver. 0.50” to “Ver. 0.52”) and the firmware for the DVD recorder 802 (“Ver. 3.0” to “Ver. 3.3”) are stored. I have.
[0098]
Here, the user inserts the medium 806b storing the firmware of the latest version “Ver. 1.12” of the time-lapse recording / reproducing device 801 into the media reading device 806a of the device management device 804, and stores the data in the memory 811 of the device management device 804. The firmware of the latest version “Ver. As a result, as shown on the right side of FIG. 22, the firmware (“Ver. 1.01” to “Ver. 1.12”) for the time-lapse recording / reproducing device 801 and the cameras 803a1, 803a2, Firmware for 803a3, 803a4 (“Ver. 0.50” to “Ver. 0.52”) and firmware for DVD recorder 802 (“Ver. 3.0” to “Ver. 3.3”) are stored. State.
[0099]
FIG. 23 is a diagram schematically illustrating an image (an image for setting a priority) displayed on the monitor of the device management apparatus 804 according to the eighth embodiment using the management tool 820. When setting the combination priority as “latest version” in the user interface of the management tool 820, the user does not select the firmware of each device from each pull-down menu in the combination priority setting window 820a, and sets the priority number as the priority number. "Latest version" is set. Further, the user can call up the priority number “latest version” previously set by selecting “call setting” from “cooperation setting” on the toolbar (not shown).
[0100]
FIG. 25 is a diagram showing a transition of firmware update in the memory of each network-connected device according to the eighth embodiment. 25, reference numeral 812 denotes the inside of the memory of the time-lapse recording / reproducing apparatus 801, 813 denotes the inside of the memory of the network camera 803a1, 803a2, 803a3, 803a4, and 814 denotes the inside of the memory of the DVD recorder 802. As shown in the upper part of FIG. 25, the latest version of each firmware at the present time is previously stored in each memory, that is, “Ver. 1.11” of RecType1 firmware is stored in the memory 812, and the latest version is stored in the memory 813. “Ver.0.52” of CamType3 firmware and “Ver.3.3” of DvdType2 firmware are installed in the memory 814.
[0101]
If the user operates the management tool 820 to call “latest version” as a combination of firmware, the priority number in the “setting priority” column in the link information 810c1 in FIG. Compares the firmware version of each device described in the “Current Ver.” Column with the firmware version registered as the latest version in the “Priority management” column.
[0102]
At this time, the latest version firmware is “Ver. 1.12” for the firmware for the time-lapse recording / reproducing device 801, “Ver. 3.3” for the DVD recorder 802, and the cameras 803 a 1, 803 a 2, 803 a 3, and 803 a 4. Since the firmware for use is “Ver. 0.52” and the version comparison result is different only in the time-lapse recording / reproducing device 801, a notification flag is set in the link information 810 c 1. As a result, the device management apparatus 804 notifies the time-lapse recording / reproduction apparatus 801 to install the “Ver. 1.12” firmware. The time-lapse recording / reproducing apparatus 801 that has received the notification downloads the firmware “Ver. 1.12” from the device management apparatus 804 and installs the firmware on itself, and as shown in the lower part of FIG. Only in the memory 812 of the reproducing device 801, the RecType1 firmware changes to “Ver.1.12”.
[0103]
As described above, according to the video monitoring system, the device management apparatus 804, and the network connection device according to the eighth embodiment, the combination of the software installed in the plurality of network connection devices has the highest priority. Therefore, the stability of the operation of a plurality of network-connected devices operating in cooperation can be improved.
[0104]
In addition, since the network connection device is provided with the function of downloading software, the burden of installing software on the network connection device can be reduced.
[0105]
Embodiment 9 FIG.
FIG. 26 is a diagram for describing the configuration and operation of a video surveillance system (including a PC as a device management device and a camera and a recorder as network-connected devices) according to Embodiment 9 of the present invention.
[0106]
As shown in FIG. 26, the video monitoring system according to the ninth embodiment includes, as network connection devices, a time-lapse recording / playback device (model name: RecType1) 901 which is an HDD recorder having a network interface, and is connected thereto. Monitoring monitor (not shown). The video surveillance system according to Embodiment 9 includes, as network connection devices, a DVD recorder (model name: DvdType2) 902 having a network interface, and network cameras (model name: CamType3) 903a1, 903a2, and 903a3. are doing. Further, the video monitoring system according to the ninth embodiment includes a PC 904 as a device management device. The time-lapse recording / reproducing apparatus 901, the DVD recorder 902, the network cameras 903a1, 903a2, 903a3, and the PC 904 are connected via a network 905. The network camera 903a4 is additionally connected to the network 905. Each of the device management device and the network connection device includes a media (information recording medium) reading device. By inserting the medium storing the firmware into the media reading device of each device and taking it into the ROM of each device, the firmware can be newly or updated installed.
[0107]
In the ninth embodiment, the time-lapse recording / reproducing device 901, the DVD recorder 902, and the cameras 903a1, 903a2, and 903a3 have already participated in the network when the power of the device management device 904 is turned on, but the latest firmware “Ver The case where the camera 903a4 in which the firmware of “.0.53” is installed newly joins the network after the power of the device management apparatus 904 is turned on will be described. As shown in the “Current Ver.” Column of FIG. 29, at this point, the version of the firmware installed in the time-lapse recording / reproducing device 901 is “Ver. 1.11”, and the firmware installed in the DVD recorder 902 is The firmware version is “Ver. 3.3”, the firmware version installed in the cameras 903a1, 903a2 and 903a3 is “Ver. 0.52”, and the firmware version installed in the camera 903a4 is “Ver. The version is “Ver. 0.53”. Further, as shown on the left side of FIG. 28, at this time, the firmware of each network-connected device is not limited to the camera firmware “Ver. It is assumed that they are all stored in the storage device 911 (hereinafter, also simply referred to as “memory”).
[0108]
FIG. 29 is a diagram illustrating a change in the cooperation setting stored in the memory 911 of the device management apparatus 904 according to Embodiment 9. As shown in FIG. 29, the cooperation information 910c1 held by the device management device 904 includes (1) firmware of a network connection device managed by the device management device 904, (2) firmware version, and (3) firmware version. A tag for managing the priority of a stable combination for each version, (4) the priority of the currently called combination, (5) the IP address of a network connection device having each firmware, and (6) each network connection (7) The firmware version installed in the device, (7) the device to be notified when the firmware version indicated by the currently called combination priority tag differs from the firmware version installed in each network-connected device Notification file to identify (8) If any of the firmware versions installed on each network device is not registered in the “Priority Management” column, download the firmware from the device on which the unregistered version of the firmware is installed. It stores information such as a request flag to perform. Further, other settings may be stored as cooperation settings as needed.
[0109]
Next, the operation of the video monitoring system according to Embodiment 9 will be described. As shown in FIG. 26, the device management apparatus 904 broadcasts an inquiry for recognizing a network-connected device at a certain time interval in order to grasp the network-connected device connected to the network (step). 91). Each network connection device that has received this inquiry transmits, to the device management device 904, a device identification response signal unique to each network connection device for specifying the network connection device and the version of the firmware installed in each network connection device. Notification is made (step 92). Here, the user operates the management tool 920 on the device management apparatus 904 (see FIG. 27 and FIG. 23), and makes settings so that the latest version of firmware is called for each network-connected device. At this time, as shown in the upper part of FIG. 29, in the cooperation information 910c1 of the device management apparatus 904, the firmware version of each device described in the “current Ver.” Column is registered in the “priority management” column. If not, the flag in the “request flag” column of the device on which the firmware of the unregistered version is installed, that is, the flag (in the request flag column of FIG. 29, is indicated by a dot “•”). ) Will stand.
[0110]
The device management device 904 downloads the firmware of the unregistered firmware “Ver. 0.53” from the device 903a4 for which the request flag is set in the cooperation information 910c1, and stores the firmware in the memory 911 of the device management device 904 (step 93). . At this time, as shown in the lower part of FIG. 29, the latest version of the firmware of each network-connected device stored in the memory 911 has the firmware for the time-lapse recording / reproducing device 901 of “Ver. 1.11”, The firmware for the DVD recorder 902 is “Ver. 3.3”, and the firmware for the cameras 903a1, 903a2, 903a3, and 903a4 is “Ver. 0.53”. Therefore, in the cooperation information 910c1 of the device management apparatus 904, the firmware version of each network connection device described in the “current Ver.” Column and the firmware version described in the priority number in the “setting priority” column Are compared, and a flag (indicated by a dot “•” in the notification flag column of FIG. 29) is set in the “notification flag” column of the network connection devices different from each other, that is, the cameras 903a1, 903a2, and 903a3.
[0111]
The device management apparatus 904 updates the firmware of “Ver. 0.53” registered as the latest version in the “priority management” column for the network connection devices 903a1, 903a2, and 903a3 for which the notification flag is set in the link information 910c1. Is installed (step 94). The cameras 903a1, 903a2, and 903a3 that have received the notification download the “Ver. 0.53” firmware from the device management apparatus 904 (step 95) and install the firmware on themselves.
[0112]
FIG. 27 is a diagram schematically illustrating an image (a user interface including a list of network-connected devices) displayed on the monitor of the device management apparatus 904 according to Embodiment 9 using the network-connected device management tool. As shown in FIG. 27, the user can obtain a list of connected devices recognized on the network by selecting “device list” from the “device setting” toolbar on the management tool 920. FIG. 27 shows a state in which a camera 903a4 having the latest “Ver. 0.53” firmware installed therein newly joins the network, the device management apparatus 904 inquires about connected device recognition, and receives a device connection request from each network connected device. After receiving the identification response signal and the firmware version notification signal, a network connection device list is obtained. In the “soft version” column in FIG. 27, the time lapse recording / reproducing device 901 is “Ver. 1.11”, the DVD recorder 902 is “Ver. 3.3”, and the cameras 903a1, 903a2, and 903a3 are “Ver. 0.52 ", and the camera 903a4 has" Ver. 0.53 ".
[0113]
FIG. 28 is a diagram illustrating a change in the occupation state of the firmware for each network-connected device stored in the memory 911 of the device management apparatus 904 according to the ninth embodiment. In the memory 911, firmware for the recorder 901 (“Ver. 1.01” to “Ver. 1.11”) and firmware for the cameras 903a1, 903a2, 903a3, and 903a4 (“Ver. 0.50” to “Ver. .0.52 ”) and firmware (“ Ver. 3.0 ”to“ Ver. 3.3 ”) for the DVD recorder 902.
[0114]
Here, in the cooperation information 910c1 of the device management apparatus 904, if there is a firmware version of each device that is not registered in the “priority management” column among the firmware versions described in the “current Ver.” A flag is set in the “request flag” column of the camera 903a4 in which the registered version of the firmware is installed, and the unregistered firmware “Ver. 0.53” is updated from the flagged device 903a4. It is downloaded and stored in the memory of the device management device 904. Accordingly, the firmware for the recorder 901 (“Ver. 1.01” to “Ver. 1.11”) and the firmware for the cameras 903a1, 903a2, 903a3, and 903a4 (“Ver. 0.50” to “Ver. 0.53 ") and the firmware (" Ver. 3.0 "to" Ver. 3.3 ") for the DVD recorder 902 are stored.
[0115]
FIG. 30 is a diagram showing a transition of firmware update in the memory of each network-connected device according to the ninth embodiment. 30, reference numeral 912 denotes the inside of the memory of the time-lapse recording / reproducing apparatus 901, 913 denotes the inside of the memory of the network cameras 903a1, 903a2, and 903a3, and 914 denotes the inside of the memory of the DVD recorder 902. As shown in the upper part of FIG. 30, the latest version of each firmware at the present time is stored in each memory in advance, that is, “Ver. 1.11” of the RecType1 firmware is stored in the memory 912, and the latest version is stored in the memory 913. “Ver. 0.52” of CamType3 firmware and “Ver. 3.3” of DvdType2 firmware are installed in the memory 914.
[0116]
Assuming that the user operates the management tool 920 to call “latest version” as a combination of firmware, the priority number in the “setting priority” column in the link information 910c1 in FIG. Compares the firmware version of each device described in the “Current Ver.” Column with the firmware version registered as the latest version in the “Priority management” column.
[0117]
At this time, the latest version firmware is “Ver.1.11” for the time-lapse recording / reproducing device 901, “Ver.3.3” for the DVD recorder 902, and the cameras 903 a 1, 903 a 2, 903 a 3, and 903 a 4. Since the firmware for use is “Ver. 0.53” and the comparison results of the versions of the cameras 903a1, 903a2, and 903a3 are different, a notification flag is set in the cooperation information 910c1. Accordingly, the device management apparatus 904 notifies the cameras 903a1, 903a2, and 903a3 to install the firmware of “Ver. 0.53”. The cameras 903a1, 903a2, and 903a3 that have received the notification download the firmware “Ver. 0.53” from the device management apparatus 904 and install the firmware on themselves, so that only the memories 913 of the cameras 903a1, 903a2, and 903a3 are available. The CamType3 firmware changes to “Ver. 0.53”.
[0118]
As described above, according to the video monitoring system, the device management apparatus 904, and the network connection device according to the ninth embodiment, the combination of the software installed in the plurality of network connection devices has the highest priority. Therefore, the stability of the operation of a plurality of network-connected devices operating in cooperation can be improved.
[0119]
In addition, since a function of downloading software to the network-connected device is provided, it is possible to reduce a load of a new or update installation of software to the network-connected device. Further, it is possible to reduce the burden of saving software on the device management apparatus.
[0120]
Note that the example of the connection mode of each network connection device and the setting value of the cooperation information described in the first to ninth embodiments are merely examples, and other settings can be stored as needed.
[0121]
Further, in the first to ninth embodiments, the case where the firmware for updating the network-connected devices to perform the cooperative operation has been described. However, the management method described in the first to ninth embodiments operates the respective network-connected devices. It can also be used to update other software to make it work.
[0122]
Further, in the first to ninth embodiments, the case where the software is updated and installed in each of the network connected devices has been described. It can also be used for new installations.
[0123]
Furthermore, in the seventh to ninth embodiments, a case has been described in which a PC is used as a device management device, and a time-lapse recording / reproducing device, a DVD recorder, and a network camera are used as network connection devices. A device may be used, and a device other than the video device may be used as the network connection device. Other network systems can be configured by combining the configurations described in the first to ninth embodiments.
[0124]
【The invention's effect】
As described above, according to the present invention, a combination of software installed in a plurality of network-connected devices is managed so as to have the highest priority. The effect is that the stability of the operation can be improved.
[0125]
In addition, in the case where a configuration in which software is downloaded to the network connection device is adopted, an effect is obtained in that the burden of software installation work can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram (part 1) schematically showing the configuration and operation of a network system (including a device management device and a network connection device) according to a first embodiment of the present invention.
FIG. 2 is a block diagram (part 2) schematically showing the configuration and operation of the network system (including the device management device and the network connection device) according to the first embodiment of the present invention.
FIG. 3 is a block diagram (part 1) schematically showing a configuration and an operation of a network system (including a device management device and a network connection device) according to a second embodiment of the present invention.
FIG. 4 is a block diagram (part 2) schematically showing the configuration and operation of a network system (including a device management device and a network connection device) according to Embodiment 2 of the present invention.
FIG. 5 is a block diagram (part 1) schematically showing the configuration and operation of a network system (including a device management device and a network connection device) according to Embodiment 3 of the present invention.
FIG. 6 is a block diagram (part 2) schematically showing the configuration and operation of a network system (including a device management device and a network connection device) according to Embodiment 3 of the present invention.
FIG. 7 is a block diagram (part 1) schematically showing a configuration and an operation of a network system (including a device management device and a network connection device) according to a fourth embodiment of the present invention.
FIG. 8 is a block diagram (part 2) schematically showing a configuration and operation of a network system (including a device management device and a network connection device) according to a fourth embodiment of the present invention.
FIG. 9 is a block diagram (part 1) schematically showing a configuration and operation of a network system (including a device management device and a network connection device) according to a fifth embodiment of the present invention.
FIG. 10 is a block diagram (No. 2) schematically showing the configuration and operation of a network system (including a device management device and a network connection device) according to Embodiment 5 of the present invention.
FIG. 11 is a block diagram (part 1) schematically showing a configuration and operation of a network system (including a device management device and a network connection device) according to a sixth embodiment of the present invention.
FIG. 12 is a block diagram (part 2) schematically showing the configuration and operation of a network system (including a device management device and a network connection device) according to Embodiment 6 of the present invention.
FIG. 13 is a block diagram (part 3) schematically showing the configuration and operation of a network system (including a device management device and a network connection device) according to Embodiment 6 of the present invention.
FIG. 14 is a diagram for explaining the configuration and operation of a video monitoring system (including a PC as a device management device and a network connection device) according to Embodiment 7 of the present invention.
FIG. 15 is a diagram for explaining setting contents stored in a memory of a device management apparatus according to the seventh to ninth embodiments of the present invention.
FIG. 16 is a diagram schematically showing an image (user interface including a list of network-connected devices) displayed on a monitor of the device-management device according to the seventh embodiment of the present invention using a network-connected device management tool. is there.
FIG. 17 is a diagram illustrating an occupation state of firmware for each network-connected device stored in a memory of the device management apparatus according to the seventh embodiment of the present invention.
FIG. 18 is a diagram schematically illustrating an image (an image for setting a priority) displayed on a monitor of a device management apparatus according to a seventh embodiment of the present invention using a network-connected device management tool.
FIG. 19 is a diagram for explaining the cooperation setting stored in the memory of the device management apparatus according to the seventh embodiment of the present invention.
FIG. 20 is a diagram showing transition of firmware installed in each network connection device according to the seventh embodiment of the present invention.
FIG. 21 is a diagram for explaining the configuration and operation of a video monitoring system (including a PC as a device management device and a network connection device) according to Embodiment 8 of the present invention.
FIG. 22 is a diagram illustrating a change in the occupation state of firmware for each network-connected device stored in the memory of the device management apparatus according to the eighth embodiment of the present invention.
FIG. 23 is a diagram schematically illustrating an image (an image for setting a priority) displayed on the monitor of the device management apparatus according to the eighth embodiment of the present invention using the network-connected device management tool.
FIG. 24 is a diagram for explaining cooperation settings stored in the memory of the device management apparatus according to the eighth embodiment of the present invention.
FIG. 25 is a diagram showing transition of firmware installed in each network connection device according to the eighth embodiment of the present invention.
FIG. 26 is a diagram for explaining the configuration and operation of a video monitoring system (including a PC as a device management device and a network connection device) according to Embodiment 9 of the present invention.
FIG. 27 is a diagram schematically showing an image (user interface including a list of network-connected devices) displayed on a monitor of the device management apparatus according to the ninth embodiment of the present invention using a network-connected device management tool. is there.
FIG. 28 is a diagram illustrating a change in the occupation state of firmware for each network-connected device stored in the memory of the device management apparatus according to the ninth embodiment of the present invention.
FIG. 29 is a diagram illustrating a change in the cooperation setting stored in the memory of the device management apparatus according to Embodiment 9 of the present invention.
FIG. 30 is a diagram showing transition of firmware installed in each network connection device according to Embodiment 9 of the present invention.
[Explanation of symbols]
1 to 6 network system, 101, 102, 201, 202, 301, 302, 401, 402, 501, 502, 601, 602, 603 network connection device, 120 network, 110, 210, 310, 410, 510, 610 device Management device, 110a, 210a, 310a, 410a, 510a, 610a ROM, 110b, 210b, 310b, 410b, 510b, 610b HDD, 701,801,901 Time-lapse recording / reproducing device, 702,802,902 DVD recorder, 703a1,703a2 , 703a3, 703a4, 803a1, 803a2, 803a3, 803a4, 903a1, 903a2, 903a3, 903a4 Network camera, 704, 804, 904 Device management device, 705 , 805, 905 network, 706a, 806a, 906a media reader, 706b, 806b media, 710a device setting, 710b network setting, 710c cooperation setting, 710c1, 810c1, 910c1 cooperation information, 711, 811, 911 ROM, 712, 812 , ROM in the time-lapse recording / reproducing device, 713, 913, 913 ROM in the network camera, 714, 814, 914 ROM in the DVD recorder, 720, 820, 920 Network connection device management tool, 720a, 820a, 920a Combination Priority setting window.

Claims (17)

In a device management device that manages multiple network connection devices that operate in cooperation,
Holding cooperation information including the priority of a combination of software that can be installed in each of the plurality of network connection devices,
Acquiring device information assigned to each of the plurality of network-connected devices and software information identifying current software installed on each of the plurality of network-connected devices,
If a combination of software having a higher priority than the combination of the current software exists in the cooperation information, a notification that a combination of software having a higher priority than the combination of the current software exists in the cooperation information is provided. A device management device for transmitting a signal to perform the operation. 2. The device management apparatus according to claim 1, wherein the priority included in the cooperation information is indicated by an order of a combination of software that can more stably operate the plurality of network connection devices. The device management apparatus according to claim 1, wherein the priority included in the cooperation information is set by a user operation. The device management apparatus according to any one of claims 1 to 3, wherein the device information includes a type of the network connection device and an address unique to each of the network connection devices. 5. The device management apparatus according to claim 1, wherein the software information includes a type of software and a version indicating a revision stage of the same type of software. The device management apparatus according to any one of claims 1 to 5, wherein the acquisition of the device information and the software information is performed immediately after power-on of the device management device. 7. The device management apparatus according to claim 1, wherein the acquisition of the device information and the software information is performed at regular time intervals. The apparatus according to any one of claims 1 to 7, wherein the acquisition of the device information and the software information is performed when a connection notification signal is received from a network connection device newly connected to the network. Equipment management device. Holding new or updated installation software for the network connected device,
When receiving a download request signal for new or updated installation software from a network connection device that has received a signal notifying that a combination of software having a higher priority than the current combination of software is present in the link information. The device management apparatus according to any one of claims 1 to 8, wherein downloading of new or updated installation software to the network connection device is executed. The device management apparatus according to claim 9, wherein the holding of the new or update installation software for the network-connected device is performed by copying the new or update installation software recorded on an external information recording medium. . The device management apparatus according to claim 9, wherein the holding of the new or update installation software for the network connection device is performed by downloading from the network connection device holding the new or update installation software. . Operate based on the installed software, in a network connection device with an update function of the software,
When receiving an inquiry signal from a network-connected device management device, a signal for notifying device information assigned to the network-connected device and software information for specifying current software installed on the network-connected device. Outgoing,
A network for executing download of new or update installation software when receiving a signal notifying that software having a higher priority than current software is present in the cooperation information from the device management apparatus; Connected equipment. 13. The network connection device according to claim 12, wherein when connected to a network, the device transmits a connection notification signal for notifying that the device is connected to the network. Network and
The device management device according to any one of claims 1 to 10, which is connected to the network,
A network system, comprising: the network connection device according to claim 11, connected to the network. A method for managing a network device that manages a plurality of network devices operating in cooperation, comprising:
Holding cooperation information including the priority of a combination of software that can be installed in each of the plurality of network connection devices,
Acquiring device information assigned to each of the plurality of network-connected devices and software information identifying current software installed on each of the plurality of network-connected devices,
If a combination of software having a higher priority than the combination of the current software exists in the cooperation information, it is notified that a combination of software having a higher priority than the combination of the current software exists in the cooperation information. A method for managing network-connected equipment, comprising: A program that causes a device management apparatus to execute a process of managing a plurality of network-connected devices that operate in cooperation with each other,
The processing is
A process of holding cooperation information including a priority of a combination of software that can be installed in each of the plurality of network connection devices;
A process of acquiring device information assigned to each of the plurality of network-connected devices and software information identifying current software installed on each of the plurality of network-connected devices;
If a combination of software having a higher priority than the combination of the current software exists in the cooperation information, it is notified that a combination of software having a higher priority than the combination of the current software exists in the cooperation information. And transmitting a signal to the network management device. A recording medium recording a program for causing a device management apparatus to execute a process of managing a plurality of network-connected devices that operate in cooperation with each other,
The processing is
A process of holding cooperation information including a priority of a combination of software that can be installed in each of the plurality of network connection devices;
A process of acquiring device information assigned to each of the plurality of network-connected devices and software information identifying current software installed on each of the plurality of network-connected devices;
If a combination of software having a higher priority than the combination of the current software exists in the cooperation information, it is notified that a combination of software having a higher priority than the combination of the current software exists in the cooperation information. And transmitting a signal to the recording medium.

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