JP4277709B2 - Network device inspection system, device inspection program, device inspection method, and device - Google Patents

Description

  The present invention relates to a network device inspection system, a device inspection program, a device inspection method, and a device used in a network environment composed of a server and a device.

Conventionally, in a network environment consisting of a server and devices, when performing status inspection (monitoring) of the status, failure, abnormality, etc. of various devices (printers, etc.) on the network, the server makes inquiries for each device at regular intervals. And the server processes the response from each device.
However, the status check of various devices by such polling tends to concentrate the processing load on the server, so a high-spec server is required and access is also concentrated, so a broadband backbone is prepared. Network costs tend to be high.

In addition, in order to inspect a device, it is necessary to incorporate a device inspection program in advance for each device. However, management of the device inspection program, for example, an operation such as version upgrade, must be performed for each device by the device administrator. The result is a lot of labor.
Therefore, as shown in, for example, Patent Documents 1 and 2 below, device inspection software, which is autonomous software called a mobility agent or the like, is sent to the server-device type network. Diagnose while walking between each other autonomously, and return to the server while collecting the inspection results one after another, while effectively inspecting each device, effectively avoiding an increase in network traffic and concentration of access to the server A method has been proposed.
JP-A-11-149426 JP 2001-282756 A

By the way, in such a network device inspection method using the device inspection software, when a sudden shutdown process or the like is performed on the device under inspection, the device inspection software existing in the device disappears. There is a risk that not only the subsequent inspection will not be performed, but also the previous inspection result will disappear.
Therefore, the present invention has been devised in order to effectively solve such a problem, and the purpose thereof is even when a sudden shutdown process or the like is performed on a device under inspection. The present invention provides a novel network device inspection system, device inspection program, and device inspection method that can restart inspection immediately without wasting inspection results up to that point.

[Invention 1] In order to solve the above problems, the network device inspection system of Invention 1 connects a plurality of devices and a device management server for managing them through a network, and moves between the devices from the device management server. In the network device inspection system in which device inspection software to be inspected while being sent out on the network,
The device inspection software is provided with a function for causing the computer of each device to realize a function of sending the inspection result to the device management server via the network each time each device is inspected. It is.

  As a result, even if a sudden shutdown process is performed on the device being inspected and the inspection software existing on that device disappears, the previous inspection results are already sent to the device management server. Therefore, the result can be used effectively without wasting the previous inspection.

[Invention 2] The network device inspection system of Invention 2
A network device inspection system that connects a plurality of devices and a device management server that manages the plurality of devices via a network, and sends out device inspection software that moves between the devices via the network from the device management server. Each time the device inspection software inspects the device, the result obtained by the inspection is sent to the device management server via the network.

  As a result, as in the case of the invention 1, even if a sudden shutdown process or the like is performed on the device being inspected and the inspection software existing in the device disappears, Since it has already been sent to the device management server, the result can be used effectively without wasting the previous inspection.

[Invention 3] The network device inspection system of Invention 3
A network device inspection system in which a plurality of devices and a device management server for managing the devices are connected via a network, and device inspection software for inspecting the devices while moving between the devices from the device management server. The device inspection software has a function of causing the computer of each device to realize a function of sending the inspection result and information of the device to the device management server via the network every time each device is inspected. It is characterized by that.

As a result, even if a sudden shutdown process or the like is performed on the device being inspected as in invention 1 and the inspection software existing in the device disappears, only the inspection results up to that point can be obtained. In addition, device information can be used effectively.
Here, “device information” as used in the present invention refers to information relating to the current status of the device, information relating to the operation (operation) history, etc., as well as device-specific information such as the device ID and manufacturing time. (It is the same in the following network device inspection system, network device inspection program, and network device inspection method.)

[Invention 4] The network device inspection system of Invention 4
A network device inspection system that connects a plurality of devices and a device management server that manages the plurality of devices via a network, and sends out device inspection software that moves between the devices via the network from the device management server. Each time the device inspection software inspects the device, a result obtained by the inspection and information on the device are sent to the device management server via the network. To do.

  As a result, even if a sudden shutdown process or the like is performed on the device being inspected as in invention 1 and the inspection software existing in the device disappears, only the inspection results up to that point can be obtained. In addition, the device information can be used effectively as in the third aspect.

[Invention 5] Further, the network device inspection system of Invention 5 comprises:
A network device inspection system in which a plurality of devices and a device management server for managing the devices are connected via a network, and device inspection software for inspecting the devices while moving between the devices from the device management server. The device inspection software has a function of causing the computer of each device to realize a function of sequentially moving each device while inspecting each device while leaving a copy of its own copy and inspection results on the device that has been inspected. It is characterized by that.

  As a result, even if a sudden shutdown process or the like is performed on a device being inspected and the inspection software existing on the device disappears, the same software as the device inspection software is not included in the shutdown process or the like. Since this device is used as a backup (copy) for the device immediately before the device where the device was performed, the device inspection can be resumed quickly without sending the same device inspection software over the network again. .

[Invention 6] A network device inspection system according to Invention 6 comprises:
A network device inspection system that connects a plurality of devices and a device management server that manages the plurality of devices via a network, and sends out device inspection software that moves between the devices via the network from the device management server. Each time the device inspection software inspects the device, the device inspection software sequentially moves while leaving a copy of the device inspection software and a copy of the result obtained by the inspection. Is.

  As a result, even if a sudden shutdown process or the like is performed on the device under inspection as in the case of the invention 5 and the inspection software existing in the device disappears, the same software as the device inspection software remains. Because this software remains as a backup in the device immediately before the device that performed the shutdown process, the device inspection can be resumed quickly without sending the same device inspection software over the network again. it can.

[Invention 7] A network device inspection system according to Invention 7 comprises:
The network device inspection system according to claim 6, wherein the copy of the device inspection software is deleted from the device after the original device inspection software is moved to another device. To do.

  As a result, the capacity of the storage unit (storage unit) for storing the device inspection software in each device is not consumed over a long period of time, and the old version of the device inspection software is not stored as it is. Device resources can be used effectively.

[Invention 8] A network device inspection system according to Invention 8 comprises:
The device inspection software further has a function of causing the computer of each device to perform a device inspection on the network in parallel by branching to two or more when the number of devices on the network is a predetermined number or more. It is characterized by being realized.
Thereby, even when there are a large number of devices to be inspected, the inspection of all the devices can be completed in a short time.

[Invention 9] The network device inspection system of Invention 9
In the network device inspection system according to any one of the first to seventh aspects, when the number of devices on the network is equal to or greater than a predetermined number, the device inspection software branches into two or more devices on the network. The inspection is performed in parallel.
As a result, even when there are a large number of devices to be inspected, device inspection can be performed in parallel and the inspection of all devices can be completed in a short time.

[Invention 10] A network device inspection system according to Invention 10 includes:
The device inspection software moves between devices in order from the device with the earlier introduction time or from the device with the shorter life.

That is, according to the present invention, a test is preferentially started from a device that is considered to be prone to failure, and thereby, a diagnosis result can be notified earlier. In addition, when the lifetime of each device is known in advance by statistical information or the like, the same effect can be obtained by preferentially starting from the one with the short remaining life.
Here, “device introduction time” refers to the time when the device was connected (added) to the system, and “device life” refers to the average life of the device (which varies from device to device), The warranty period is applicable (the same applies to the following network device inspection program and network device inspection method).

[Invention 11] The network device inspection system of Invention 11 is
The device is a printer.
As a result, even when the inspection software dedicated to the printer disappears unexpectedly, the effective use of the inspection result of the inspection of each printer connected to the network and the subsequent inspection can be reliably performed.

[Invention 12] A network device inspection program according to Invention 12 includes:
Network device inspection for realizing a function of sending out device inspection software from a device management server to a computer of a device management server to which a plurality of devices are connected via a network and performing inspection while moving between the devices. In the program, the device inspection software causes the computer of each device to realize a function of sending the inspection result to the device management server via the network every time each device is inspected. .

  As a result, as in the case of the invention 1, even if the inspection software existing in the device under inspection disappears, the previous inspection result has already been sent to the device management server. As a result, the result can be used effectively. In addition, since the function can be realized on software by using the computer originally provided in the device management server as it is, it is not necessary to prepare new hardware separately when realizing the present invention. Costs and duration can be greatly reduced.

[Invention 13] The network device inspection program of Invention 13 is
A network device inspection program for causing a computer of a device management server to which a plurality of devices are connected via a network to function as means for sending device inspection software that moves between the devices and inspects each device to the network, Each time the device inspection software inspects each device, the result obtained by the inspection is sent to the device management server via the network.

  As a result, as in the case of the invention 1, even if the inspection software existing in the device under inspection disappears, the previous inspection result has already been sent to the device management server. As a result, the result can be used effectively. Similarly to the twelfth aspect, since the function can be realized on software by using the computer originally provided in the device management server as it is, a new hardware is required for realizing the present invention. It becomes unnecessary to prepare separately, and it becomes possible to reduce a cost and a period significantly.

[Invention 14] The network device inspection program of the invention 14 includes:
Network device inspection for realizing a function of sending out device inspection software from a device management server to a computer of a device management server to which a plurality of devices are connected via a network and performing inspection while moving between the devices. In the program, the device inspection software causes the computer of each device to realize a function of sending the inspection result and information of the device to the device management server via the network every time each device is inspected. It is a feature.

  As a result, the device information can be used effectively as in the third aspect of the invention, and the computer of the device management server can be used as it is as in the twelfth aspect. Therefore, the cost and time required to realize this can be reduced. It becomes possible to reduce significantly.

[Invention 15] The network device inspection program of the invention 15 includes
A network device inspection program for causing a computer of a device management server to which a plurality of devices are connected via a network to function as means for sending device inspection software that moves between the devices and inspects each device to the network, Each time the device inspection software inspects each device, a result obtained by the inspection and information on the device are transmitted to the device management server via the network. Is.

  As a result, the device information can be used effectively as in the third aspect of the invention, and the computer of the device management server can be used as it is as in the twelfth aspect. Therefore, the cost and time required to realize this can be reduced. It becomes possible to reduce significantly.

[Invention 16] Further, the network device inspection program of the invention 16 includes:
Network device inspection for realizing a function of sending out device inspection software from a device management server to a computer of a device management server to which a plurality of devices are connected via a network and performing inspection while moving between the devices. In the program, the device inspection software causes the computer of each device to realize a function of sequentially moving while each device is inspected while leaving a copy of its own copy and inspection results on the device that has been inspected. It is a feature.

  As a result, as in the fifth aspect, the same software as the extinguished device inspection software remains as a backup (copy) in the device immediately before the device for which the shutdown processing has been performed. The device inspection can be resumed quickly without sending the device inspection software over the network. Further, since the computer of the device management server can be used as it is as in the case of the twelfth aspect, it is possible to greatly reduce the cost and time required to realize these.

[Invention 17] The network device inspection program of the invention 17 includes
A network device inspection program for causing a computer of a device management server to which a plurality of devices are connected via a network to function as means for sending device inspection software that moves between the devices and inspects each device to the network, Each time the device inspection software inspects the device, the device inspection software sequentially moves while leaving a copy of the device inspection software and a copy of the result obtained by the inspection. is there.

  As a result, as in the fifth aspect, the same software as the extinguished device inspection software remains as a backup (copy) in the device immediately before the device for which the shutdown processing has been performed. The device inspection can be resumed quickly without sending the device inspection software over the network. Further, since the computer of the device management server can be used as it is as in the case of the twelfth aspect, it is possible to greatly reduce the cost and time required to realize these.

[Invention 18] The network device inspection program of the invention 18 includes
18. The network device inspection program according to claim 16 or 17, wherein the copy of the device inspection software is deleted from the device after the original device inspection software is moved to another device. It is characterized by.

  Thus, as in the seventh aspect, the capacity of the storage unit (storage unit) for storing the device inspection software in each device is consumed over a long period of time, or an old version of the device inspection software is stored as it is. Therefore, the resources of each device can be used effectively.

[Invention 19] A network device inspection program according to Invention 19 includes
In the network device inspection program according to any one of the inventions 12 to 18, when the number of devices on the network is equal to or larger than a predetermined number, the device inspection software branches into two or more and is on the network. The device inspection is performed in parallel.
As a result, even when there are a large number of devices to be inspected, device inspection can be performed in parallel and the inspection of all devices can be completed in a short time.

[Invention 20] Further, the network device inspection program of the invention 20 includes:
The network device inspection program according to any one of the inventions 12 to 19, wherein the device inspection software moves between devices in order from a device whose introduction time is earlier or a device whose life is shorter. To do.
As a result, the diagnosis result can be notified earlier as in the tenth aspect. In addition, when the lifetime of each device is known in advance by statistical information or the like, the same effect can be obtained by preferentially starting from the one with the short remaining life.

[Invention 21] The network device inspection program of the invention 21 includes
The network device inspection program according to any one of the inventions 12 to 20, wherein the device is a printer.
As a result, as in the case of the invention 11, even when the inspection software dedicated to the printer disappears unexpectedly, the effective use of the inspection result of the inspection of each printer connected to the network and the subsequent inspection can be surely performed. .

[Invention 22] A network device inspection method according to Invention 22 comprises
A plurality of devices and a device management server that manages the devices are connected via a network, and device inspection software is sent from the device management server, and each device is inspected while moving the device inspection software between the devices. In the network device inspection method described above, the inspection result is transmitted to the device management server via the network for each inspection of each device by the device inspection software.

  As a result, as in the first aspect, even if the inspection software has disappeared, the previous inspection result has already been sent to the device management server, so that the previous inspection is not wasted. The results can be used effectively.

[Invention 23] Further, the network device inspection method of Invention 23 comprises:
A plurality of devices and a device management server that manages the plurality of devices are connected via a network, device inspection software is sent from the device management server, and each device is moved while the device inspection software is moved between the devices. A network device inspection method in which inspection is performed, and the inspection result is sent to the device management server via the network every time inspection of each device by the device inspection software is completed. Is.

  As a result, as in the first aspect, even if the inspection software has disappeared, the previous inspection result has already been sent to the device management server, so that the previous inspection is not wasted. The results can be used effectively.

[Invention 24] Further, the network device inspection method of the invention 24 includes:
A plurality of devices and a device management server that manages the devices are connected via a network, and device inspection software is sent from the device management server, and each device is inspected while moving the device inspection software between the devices. In the network device inspection method, the inspection result and information on the device are sent to the device management server via the network for each inspection of each device by the device inspection software. It is.
As a result, as in the case of the invention 3, even if the inspection software disappears, not only the inspection result so far but also the device information can be used effectively.

[Invention 25] A network device inspection method according to Invention 25 comprises
A plurality of devices and a device management server that manages the plurality of devices are connected via a network, device inspection software is sent from the device management server, and each device is moved while the device inspection software is moved between the devices. In the network device inspection method to be inspected, the inspection result and the device information are sent to the device management server via the network every time inspection of each device by the device inspection software is completed. It is characterized by.
As a result, as in the case of the invention 3, even if the inspection software disappears, not only the inspection result so far but also the device information can be used effectively.

[Invention 26] The network device inspection method of Invention 26 comprises
A plurality of devices and a device management server that manages the devices are connected via a network, and device inspection software is sent from the device management server, and each device is inspected while moving the device inspection software between the devices. In the above-described network device inspection method, when the device inspection software is sequentially moved to the next device, the device inspection software and the inspection result are copied and left on the device that has been inspected. It is.

  As a result, even if the inspection software disappears as in the case of the invention 5, the same software as the device inspection software remains (copied) in the device immediately before the device on which the shutdown processing is performed. If the software is used, the device inspection can be restarted quickly without sending the same device inspection software over the network again.

[Invention 27] A network device inspection method according to Invention 27 comprises
A plurality of devices and a device management server that manages the plurality of devices are connected via a network, device inspection software is sent from the device management server, and each device is moved while the device inspection software is moved between the devices. In the network device inspection method inspected, each time the device inspection software is moved to the next device, a copy of the device inspection software and a copy of the inspection result of the device by the device inspection software This is characterized in that it is left on a device that has finished.

  As a result, even if the inspection software disappears as in the case of the invention 5, the same software as the device inspection software remains in the device immediately before the device for which the shutdown processing or the like has been performed. For example, the device inspection can be resumed quickly without sending the same device inspection software over the network again.

[Invention 28] The network device inspection method of Invention 28 comprises
28. The network device inspection method according to any one of the inventions 22 to 27, wherein when the number of devices on the network is a predetermined number or more, one or more copies of the device inspection software are generated, and the copy Device inspection on the network is performed in parallel using an object and original device inspection software.
Thereby, similarly to the invention 8, even when there are a large number of devices to be inspected, the inspection of all devices can be completed in a short time.

[Invention 29] Further, the network device inspection method of the invention 14 includes:
The device inspection software is moved between the devices in order from the device with the earlier introduction time or from the device with the shorter life.
Thereby, the same effect as that of the ninth aspect can be obtained.

[Invention 30] A network device inspection method according to Invention 30 comprises
30. The network device inspection method according to any one of inventions 22 to 29, wherein the device is a printer.
As a result, as in the case of the invention 11, even when the inspection software dedicated to the printer disappears unexpectedly, the effective use of the inspection result of the inspection of each printer connected to the network and the subsequent inspection can be surely performed. .

[Invention 31] The device of Invention 31 is
A device management server that sends out device inspection software and a device connected to another device via a network, the inspection software accepting means for accepting the device inspection software, the application executing means for executing the device inspection software, Communication means for notifying the device management server of the inspection result by the device inspection software executed by the application execution means, and inspection software transmission for sending the device inspection software executed by the application execution means to any other device Means.

  As a result, the device that has accepted the device inspection software notifies the device management server of the inspection result by the device inspection software, and sends the received device inspection software to another device as it is. As a result, even if a sudden shutdown process is performed on the device being inspected and the inspection software existing on that device disappears, the previous inspection results are already sent to the device management server. Therefore, the results can be used effectively without any previous inspection being wasted.

[Invention 32] The device of Invention 32 is
The device according to invention 31, further comprising inspection software storage means for storing a copy of the device inspection software.

  As a result, each device copies the received device inspection software and saves the copy itself. Therefore, even if the sent device inspection software disappears due to shutdown etc., the saved device inspection software is backed up by the backup software. Can be used effectively.

[Invention 33] The device of Invention 33 is
The devices according to inventions 31 and 32 are characterized in that the device is a printer.
As a result, even if the printer-specific inspection software disappears unexpectedly, each printer can reliably perform the effective use of the inspection results of the inspection of each printer connected to the network and the subsequent inspection.

Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 shows a minimum configuration of a network according to the network device inspection system 100 of the present invention.
As shown in the figure, this network device inspection system 100 is provided for at least two devices 10, 10... Connected on a network N such as a LAN (Local Area Network) or a WAN (Wide Area Network) such as the Internet. And at least one device management server 12, a predetermined device inspection software S is sent out from the device management server 12, and the device inspection software S is sequentially moved between the devices 10 and 10 on the network N. It is what I did.

  First, the device 10 is a generic name for devices that can be controlled via a network such as a printer, a scanner, and a copying machine. In addition to the original functions of the device, as shown in the figure, a communication means 20 and an application execution means 21 are provided. The inspection software sending means 22, the inspection software receiving means 23, the status information detecting means 24, and the inspection software storage unit 25.

The communication unit 20 provides a communication function with other devices, the device management server 12 and the like via the network N, and the application execution unit 21 has an execution environment for operating device inspection software and the like. (For example, OS: Operating System) is provided.
The inspection software sending means 22 sends out device inspection software S for inspecting each device 10 to the next device 10 via the network N, and the inspection software receiving means 23 circulates (moves) the network N. ) To receive the device inspection software S.

Further, the status information detection means 24 has a mechanism for detecting information of the device 10, and the inspection software storage unit 25 provides a function of copying the device inspection software S and storing the copy. It has become. The specific functions of these means 20, 21, 22, 23, 24, etc. will be described in detail later.
On the other hand, the device management server 12 includes a communication unit 30, a device inspection result receiving unit 31, an inspection software receiving unit 32, a device inspection result storage unit 33, a device inspection result using unit 34, and an inspection software sending unit 35. The inspection software configuration means 36 and the inspection software component storage unit 37 are provided at least.

The communication means 30 provides a communication function with each device 10 and the like via the network N in the same manner as that of the device 10, and the device inspection result receiving means 31 is inspected by the device inspection software S. A function of receiving the inspection result of the device 10 via the network N is provided.
The inspection software receiving means 32 receives the device inspection software S that circulates (moves) in the network N, and the device inspection result storage unit 33 receives the device inspection software S sent from the device inspection software S for each device 10. A function is provided for storing test results in categories for each device 10 as time-series data.

The device inspection result use means 34 uses the result as information for appropriate maintenance, maintenance, etc. The inspection software sending means 35 sends the device inspection software S to one device 10 on the network N. The function to send out is provided.
The inspection software configuration means 36 has a function of changing the functional configuration of the device inspection software S or recreating the device inspection software S in accordance with an instruction from the administrator. The unit 37 provides a function of storing components (software parts) for performing various device inspections. The specific functions of these means 30, 31, 32, 34, 35, 36, etc. will be described in detail later.

Next, as shown in FIG. 2, the device inspection software S includes a device inspection unit 40, an inspection order recording table 41, an inspection order determination unit 42, a network device detection unit 43, an inspection content recording table 44, The data storage unit 45 is provided at least.
The device inspection unit 40 is a program that stores procedures related to device inspection, and includes a device-dependent unit 49a and a device-independent unit 49b. The device-dependent unit 49a, for example, inspects a state value unique to the printer (device) such as inspecting the state of consumables such as the remaining amount of paper and ink when the device 10 is a printer. Yes, the device-independent unit 49a has device information common to all devices, for example, device ID, device activation time (continuous operation time), device activation count, communication status, error status (details unknown), etc. It is to be inspected.

  The network device detection unit 43 provides a function in which the device 10 to which the device inspection software S is first sent from the device management server 12 detects another device 10 on the same network N, and the inspection order. The determining means 42 determines the inspection order of the device inspection software S according to the order described in the inspection order recording table 41.

Further, the inspection content record table 44 stores specific inspection details performed by the device inspection software S. For example, even if there are 10 or more inspection items, two items are included in this inspection. The specific inspection contents such as carrying out are described.
The data storage unit 45 further includes a server information storage unit 46, a device inspection result storage unit 47, and a network device information storage unit 48. The server information storage unit 46 has an area for storing the address of the device management server to which the inspection result should be returned, and the device inspection result storage unit 47 has an area for storing the inspection result as history information. Further, the network device information storage unit 48 has an area for storing a list of device information to be inspected.

  It should be noted that each device 10, device management server 12, and device inspection software S means 20, 21, 22, 23, 24, 30, 31, 32, 34, 35, 36 constituting the network device inspection system 100 of the present invention. , 40, 42, 43, etc., actually implement the hardware configuration including the CPU and RAM constituting the device 10 and device management server 12 as shown in FIG. 3 and the algorithm as shown in FIG. This is realized by a computer system comprising a dedicated computer program (software).

  That is, the hardware configuration of the computer system incorporated in each device 10 and the device management server 12 is a central processing unit (CPU) that is a central processing unit that performs various controls and arithmetic processing, as shown in FIG. 50, a RAM (Random Access Memory) 51 used for a main storage device (Main Storage), a ROM (Read Only Memory) 52 which is a read-only storage device, and an auxiliary device such as a hard disk drive (HDD) or a semiconductor memory A storage device (Secondary Storage) 53, an output device 54 comprising a monitor (LCD (Liquid Crystal Display) or CRT (Cathode Ray Tube)), etc., an input device comprising an image scanner, keyboard, mouse, etc. 55 and the input / output interface (I / F) 56 and the like, a processor bus including a peripheral component interconnect (PCI) bus, an ISA (industrial standard architecture) bus, a memory bus, a system bus, and an input bus The buses are connected by various internal and external buses 57 such as an output bus.

  Then, for example, various control programs and data supplied via a storage medium such as a CD-ROM, DVD-ROM, floppy disk (FD), or network N are installed in the auxiliary storage device 53 or the like. At the same time, the program and data are loaded into the main storage device 51 as necessary, and the CPU 50 performs predetermined control and arithmetic processing using various resources according to the program loaded into the main storage device 51, and the processing result ( Processing data) is output to the output device 54 via the bus 57 and displayed, and the data and device inspection software S are stored in various storage units 25, 33, 37, etc. formed by the auxiliary storage device 53 as required. Are appropriately stored and stored (updated).

  The device 10 constituting the present invention includes an environment for operating the device inspection software S as described above, that is, a computer having input / processing / output functions such as a CPU, a RAM, and a ROM, and a network. There is no particular limitation as long as it can communicate with the device management server 12 and other devices 10 via N. In addition to printers, scanners, and copiers, for example, facsimiles, projectors, digital cameras, PCs, etc. , Digital home appliances such as audio, TV, video, refrigerator, microwave oven, humidifier, air conditioner, washing machine, electric fan, etc., mobile phone, PDA, electronic paper, etc., network card, gateway (including home gateway), Devices that can be connected to the network, such as routers, bridges, and HUBs General, and the like.

On the other hand, the device management server 12 is not particularly limited as long as it is a computer system having a hardware configuration and a predetermined control program as shown in FIG. 3, but generally has a large-capacity storage device, It can be realized by a personal computer (PC) equipped with a high-performance CPU or the like or an electronic computer called a workstation.
Next, the specific operation (action) of the network device inspection system 100 of the present invention configured as described above will be described with reference to the conceptual diagram shown in FIG. 4 and the flowcharts of FIGS.

First, in the network device inspection system 100 of FIG. 4, the three devices 10a, 12b, and 10c are connected so as to be able to communicate with each other to form one network node, and this network node is a high-frequency network N such as the Internet. The device management server 12 is connected to the device management server 12 so that information communication is possible.
In such a network configuration, as shown in the flow of FIG. 5, the device inspection software S created by the device management server 12 is sent over the network N by the inspection software sending means 35 and the communication means 30 in the device management server 12. (Steps S100 and S102), the first device 10a to be inspected first is reached. As shown in FIG. 1, the device inspection software S is created by the inspection software configuration means 36 based on the components extracted from the inspection software component storage unit 37. At this time, server information such as a server address is also provided. 2 is stored in the server information storage unit 46 of the data storage unit 45 as shown in FIG.

Next, the device inspection software S that has reached the first device 10a in this manner searches the other devices 10b and 10c to determine the inspection order, inspection contents, and the like, and for the device 10a. After performing a predetermined inspection (step S104), it moves to the next device 10b and performs a similar inspection (step S106).
Thereafter, the device inspection software S determines whether or not there is another device on the network node (step S108). When it is determined that there is a device (YES), the device inspection software S sequentially moves to the next device and proceeds to step S106. If the same inspection is repeated and there are no more devices to be inspected (NO), the device management server 12 (internal inspection software receiving means 32) is directly returned via the network N such as the Internet again (step S110). ).

Here, the first device 10a that has received the device inspection software S performs an operation as shown in the flowchart of FIG.
That is, first, the first device 10a accepts the transmitted device inspection software S to the inspection software receiving means 23 via the communication means 20, and temporarily stores the device inspection software S in the inspection software storage unit 25. After saving, the device execution software S is executed by the application execution means 21 (step S200).

  Next, the device inspection software S which has been started searches for other devices on the same network N using the network device detection unit 43 (step S202), and specifies the number of the devices and the devices. The address (IP address or MAC address) to be acquired is acquired and the data is stored in the network device information storage unit 48 of the data storage unit 45.

  When the device to be inspected is searched in this way, the device inspection software S determines the inspection order for the searched device using the inspection order determination means 42 (step S204). The determined inspection order is stored in the inspection order storage table 41. Here, a method for determining the inspection order by the inspection order determination means 42 is not particularly limited. For example, an order in which a device having an earlier introduction time or a device having a short lifetime is inspected first. Is desirable. In other words, devices with the same type are generally considered to be more prone to failure as the device is introduced earlier. This is because it is possible to notify, and when the lifetime of each device is known in advance by statistical information or the like, a similar effect can be obtained by preferentially starting from the one with the short remaining life. As mentioned above, this “device introduction time” means the device manufacturing date, etc. in addition to the time when the device was connected (added) to the system, and “device lifetime”. May be determined on the basis of the total operating time of the device in addition to the average lifetime of the device (which varies from device to device) and the warranty period.

  Next, when the inspection order of the devices is determined in this way, the inspection contents relating to the device are acquired from the inspection contents recording table 44 (step S206), and then information and devices depending on the device by the device inspection means 40 are obtained. The device is inspected based on the information independent of the device information and the history information (log information) related to the operation of the device is acquired (step S208). Here, the “history information (log information)” in the present embodiment includes device operation information (communication history information with other devices, error log, security log), device status information, and the like. It becomes a target. General device “status information” includes ON / OFF state of power supply, time after starting the device, standard time (GMT (Greenwich Mean Time), Japan Standard Time, etc.), power consumption, date of manufacture , Product serial number, network settings (IP address, subnet mask, default gateway, DNS (Domain Name System), WINS (Windows (registered trademark) Internet Name Service), NetBIOSIOBIOS BIOS name, etc.), firmware version information, hardware Memory size (used memory size, available memory size (HDD size, used HDD size, available HDD size)) and the like. In addition, “status information” when “printer” is applied as the device is information specific to the printer, which is toner consumption [%] (CMYK), toner remaining amount [%] (CMYK), and after startup. Number of printed sheets (A4, A3, B5, etc.), total number of printed sheets after shipment (A4, A3, B5, etc.), current remaining amount of paper (A4, A3, B5, etc.), paper tray cover status (open) / Close), presence / absence of double-sided unit mounting, product serial number, printer internal temperature, presence / absence of paper jam, and the like.

Thereafter, the inspection result and log information acquired in this way are stored in the device inspection result storage unit 47 of the data storage unit 45 of the device inspection software S, and also stored in the device management server 12 by the communication unit 20 of the device 10a. After sending (step S210), a backup of the device inspection software S and the inspection result is stored in the inspection software storage unit 25 of the device 10a, and then determined by the inspection software transmission means 22 of the device 10 in step S204. The next device is moved in accordance with the inspection order (step S214), and similar inspection / log information collection is repeated in the next device 10. The device inspection result and log information sent to the device management server 12 are taken out via the device inspection result receiving unit 31 and the device inspection result storing unit 33 and analyzed by the device inspection result using unit 34 and the like. It will be used as information for maintenance and maintenance.

On the other hand, after the next device shown in step 106, the search for other devices 10 and the order determination processing are unnecessary, and therefore only the processing after step S208 shown in FIG. 6 is executed.
In short, in the example of FIG. 4, the device inspection software S sent from the device management server 12 first searches the other devices 10b and 10c in the first device 10a, and determines the search order and acquires the inspection contents . Then, the inspection of the device 10a is executed to acquire the inspection result and log information, and the information is sent to the device management server 12 and then moved to the next device 10b. Next, the device inspection software S that has moved to the next device 10b immediately performs an inspection on the device 10b without performing device search or search order determination processing, and acquires inspection results and log information. These pieces of information are sent to the device management server 12 and then moved to the last device 10c. Then, the device inspection software S that has reached the last device 10c immediately performs an inspection on the device 10b in the same manner as the device 10b and obtains the inspection result and log information. Returning, it is accommodated in the inspection software receiving means 32, and only the information is stored in the device inspection result storage unit 33 for effective use.

  As described above, in this embodiment, every time each device 10 is inspected, that is, immediately after the inspection is completed, only information obtained from the device is sent to the device management server 12 via the network N. If the device inspection software S owned by the device inspection software S on the device disappears due to the shutdown of the device 10 or the like, the inspection results up to that point are not wasted and can be used effectively. it can.

  Further, since the device inspection software S is temporarily stored in the inspection software storage unit 25 provided in each device 10, if this device inspection software S is stored as it is as a backup, it is assumed that the device 10 Even if the device inspection software S on the device disappears due to a shutdown or the like, the software remaining as a backup in the inspected device 10 can be reused as it is.

As a result, it is not necessary to create new inspection software in the device management server 12 again, and the inspection process can be restarted quickly.
In order to prevent a large amount of backup from remaining in the device for a long period of time, this backup is performed after a certain period of time, for example, when the inspection software S is moved to two or more ahead and two or more backups are formed. If it is determined that it is automatically deleted, or if a new backup is generated, the contents of the new backup are overwritten on the old backup, the auxiliary storage device 53 of the device 10 etc. It is possible to effectively use limited resources without consuming a large amount of storage capacity.

  FIGS. 7 to 12 describe the present embodiment in more detail. In FIG. 7, H / W is a hardware part of the device 10, and OS and P / F are an operating system and a platform (OSGi or the like) constituting the application execution means 21 of the device 10. Further, the four blocks 1, 2, 3, 4 on the P / F are the above-described device inspection software S, which are sent in the order of numbers, respectively, so that only the inspection specialized for a certain inspection item is performed. (Same in FIGS. 8 to 12).

  First, as shown in FIG. 8A, when all of the device inspection software S1, S2, S3, S4 arrive at the first device 10a and the predetermined inspection is completed, respectively, As shown in FIG. 4, the device inspection software S1 that has reached the first and completed the inspection leaves its copy (copy) to the first device 10a, moves to the next device 10b, and performs a predetermined operation on the device 10b. Perform inspection.

  Next, if the first device inspection software S1 is moved to the next device 10b in this way, as shown in FIG. 9A, the device 10a is reached second and the inspection is completed 2 Similarly, the second device inspection software S2 leaves its own copy (copy) on the first device 10a, moves to the next device 10b, and performs a predetermined inspection on the device 10b.

Thereafter, as shown in FIGS. 5B and 5C, the third and fourth device inspection software S3 and S4 that have reached the device 10a third and fourth and have finished the inspection are the same. In addition, the self copy (copy) is left in the first device 10a and moved to the next device 10b, and a predetermined inspection is executed on the device 10b in order.
On the other hand, as shown in FIGS. 2B and 2C, the device inspection software S1 and S2 that have already reached the next device 10b and have completed the predetermined inspection are the same as in the case of the first device 10a. The self copy (copy) is left in the second device 10b, and further moved to the next device 10c, and a predetermined inspection is executed on the device 10c in order.

  Further, as shown in FIGS. 10A and 10B, the device inspection software S3 and S4 that have reached the next device 10b and have finished the predetermined inspection in the same manner are the same as the device inspection software S1 and S2. Each copy (copy) is left in the device 10b and further moved to the next device 10c, and a predetermined inspection is executed on the device 10c in order.

  On the other hand, as shown in FIG. 10A, the first device 10a that has been inspected by all the device inspection software S1 to S4 collectively stores a copy of the original (original) device inspection software S1 to S4. At the same time, the inspection results (status information and history information) executed by each of the device inspection software S1 to S4 are collectively collected and sent to the device management server 12.

Also, as shown in FIG. 6C, the device 10b that has been inspected next to the first device 10a also stores a copy of the original device inspection software S1 to S4 together with the device 10a. At the same time, the inspection results executed by each of the device inspection software S1 to S4 are uniquely collected and sent to the device management server 12.
Next, FIG. 11 shows a case where these four device inspection software S1 to S4 are moved simultaneously.

First, as shown in FIGS. 11A and 11B, if the inspection results by all the device inspection software S1 to S4 for the first device 10a are obtained, all the inspection results (status information, History information and the like are collectively sent to the device management server 12.
Next, when all the inspections for the first device 10a and the transmission of the results are completed in this way, as shown in FIG. 3C, copies of all the device inspection software S1 to S4 ( (Copy) is created and left in the first device 10a, and then all the original (original) device inspection software S1 to S4 are collected and moved to the next device 10b.

Then, as shown in FIGS. 12A and 12B, all the device inspection software S1 to S4 that have reached the next device 10b are all inspected for the device 10b in the same manner as the first device 10a. If all the inspection results are obtained, the inspection results are sent to the device management server 12 by the device 10b.
After that, when the inspection with the device 10b is completed in this way, as shown in FIG. 5C, all copies of the device inspection software S1 to S4 are copied as in the first device 10a. After creating and leaving this in the device 10b, all the original device inspection software S1 to S4 are put together and moved to the next device 10b.

As a result, it is possible to exhibit an effect that the inspection time for each device 10 can be greatly shortened and the inspection result can be obtained quickly.
That is, in the form in which all the device inspection software S1 to S4 are sequentially moved as described above, network congestion can be avoided, but a relatively long time is required to obtain all inspection results. In the embodiment in which all the device inspection software S1 to S4 are moved at the same time as in the embodiment, the network traffic may temporarily increase, but the inspection time for one device 10 is greatly reduced. And the effect that the test result is obtained quickly can be exhibited.

  Therefore, both of these forms can execute an efficient inspection by appropriately using according to the information processing capability of the device, the communication capacity of the network, the congestion situation, and the like. In addition to sending the inspection results by each device inspection software S collectively to the device management server 12, the individual inspection results may be sent every time the inspection by each device inspection software S is completed.

  Further, the reason for leaving a copy of the device inspection software S thus inspected in each device 10 is to quickly achieve backup when the original (original) device inspection software S disappears as described above. However, since it is not necessary to leave a copy of the original device inspection software S in all the devices 10, as shown in FIGS. 13 and 14, the original device inspection software S is used at an appropriate time. The copy of S may be deleted.

  That is, as shown in FIG. 13, first, when the inspection / information acquisition of the first device 10a is completed in the first step S300 (Yes), the process proceeds to the next step S302 and the inspection result / The acquired information is sent to the device management server 12, and then the process proceeds to step S304, and a copy of the original device inspection software S is stored in the device 10a. Next, the process proceeds to step S306, the process proceeds to the next device 10b, and the inspection / information acquisition of the device 10b is performed. When the process is completed, the process proceeds to step S308, and the inspection result / acquisition information of the device 10b. Is transferred to the device management server 12, and then the process proceeds to step S310 to store a copy of the original device inspection software S in the device 10b. When the storage of the copy in the device 10b is completed in this way, after moving to the next device 10c as shown in steps S312 and S314, the first device 10a is moved to the first device 10a as shown in FIG. The deletion of the backup copy of the stored device inspection software S is requested.

The device 10a that has received this deletion request immediately deletes the backup copy.
As a result, the capacity of the storage unit (inspection software storage unit 25) for storing the device inspection software S in each device 10 is consumed over a long period of time, or the device inspection software S that has become unnecessary for the old version is used as it is. 10, the resources of each device 10 can be used effectively. That is, it is possible to avoid the capacity shortage of the inspection software storage unit 25 caused by storing a backup copy of the device inspection software S.

  Further, as shown in FIG. 15 in addition to the above-described embodiment, in the case of a network node in which a large number of devices to be inspected 10 are connected in a tree shape, a certain device 10N located at a branch portion between the network nodes If the device inspection software S is branched in two parts, that is, divided into two or more (copied) and simultaneously inspected, even if there are a large number of devices 10, 10. Inspection and information collection processing of all devices 10 can be performed in a short time.

  In addition, as shown in FIG. 16, when the inspection / log information collection processing of all devices is desired within a predetermined time, a timer is provided in the device inspection software S, and the processing elapsed time is delayed. If it is determined that the device inspection software S is branched (duplicated) into two or more as needed during the movement, and the remaining devices are divided according to the copied material and inspected at the same time, the purpose can be achieved. Can be easily achieved.

  Further, the protocol used for communication between each device 10 and the device management server 12 in the network device inspection system of the present invention is not particularly limited, and any protocol that is routed through the network N such as the Internet is standard on the Internet. If a specific TCP / IP protocol is used and the LAN is unified by a specific vendor, AppleTalk / EtherTalk (registered trademark), NetBEUI / NetBIOS (registered trademark), SPX / IPX (registered trademark), etc. Can be used.

  For example, in the case of TCP / IP, TCP (Transmission Control Protocol) for establishing a connection between the protocol client device 10 and the printing device 20 to ensure reliable communication, or a connection for providing efficient communication In addition to UDP (User Datagram Protocol), which is a network-less protocol, and IP (Internet Protocol), which is a protocol for delivering packets to a predetermined destination from many routes, the other terminal is remotely controlled via a network. Protocol (Telecommunication Network), a protocol for executing file transfer using Telnet (File Trans network protocol information such as NFS (Network File System), failure information, and traffic information, which is a protocol for providing the client device 10 and the like with a transparent file access function for other computers such as the printing device 20. SNMP (Simple Network Management Protocol), ARP and RARP (Address Resolution Protocol, Reverse ARP), SLIP and PPP (Serial Line Protocol, Point to Point Protocol, Point to Point Protocol, Point to Point Protocol). n Shortest Path First), RSVP (Resource Reservation Protocol), IPsec (IP security Protocol), IGMP (Internet Group Management Protocol), it is considered that NTP (Network Time Protocol) or the like is often used.

  The device management server 12 does not necessarily exist independently on the network, and may be integrated with one of the devices, for example.

It is a block diagram which shows one Embodiment of a network device inspection system. It is a block diagram which shows the function of device inspection software. It is a block diagram which shows the hardware constitutions of the test | inspection system of this invention. It is a conceptual diagram which shows the flow of device inspection software and acquisition information. It is a flowchart figure which shows the flow of a network device inspection method. It is a flowchart figure which shows the flow of search / inspection etc. of each device. It is explanatory drawing which expressed this Embodiment in detail. It is explanatory drawing which expressed this Embodiment in detail. It is explanatory drawing which expressed this Embodiment in detail. It is explanatory drawing which expressed this Embodiment in detail. It is explanatory drawing which expressed this Embodiment in detail. It is explanatory drawing which demonstrated this Embodiment in detail. It is the flowchart figure which showed the procedure which deletes the copy. It is explanatory drawing which showed the procedure which deletes a copy. It is a conceptual diagram which shows other embodiment of the test | inspection system of this invention. It is a conceptual diagram which shows other embodiment of the test | inspection system of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Device, 12 ... Device management server, 20 ... Communication means (device side), 21 ... Application execution means, 22 ... Inspection software sending means, 23 ... Inspection software receiving means, 24 ... Status information detection means, 25 ... Inspection software Storage unit 30 ... Communication means (device management server side) 31 ... Device inspection result receiving unit 32 ... Inspection software receiving unit 33 ... Device inspection result storage unit 34 ... Device inspection result utilization unit 35 ... Sending inspection software Means 36: Inspection software configuration means 37 ... Inspection software component storage unit 40 ... Device inspection means 41 ... Inspection order record table 42 ... Inspection order determination means 43 ... Network device detection means 44 ... Inspection content record table 45 ... Data storage unit 46 ... Server information storage unit 47 ... Device inspection result Existing unit, 48 ... network device information storage unit, 49a ... device dependent unit, 49b ... device independent unit, 50 ... CPU, 51 ... RAM, 52 ... ROM, 53 ... auxiliary storage device, 54 ... output device, 55 ... input Equipment 56 ... Interface 57 ... Bus S ... Device inspection software N ... Network

Claims (9)

A network device inspection system in which one device and another device belonging to the same network node and a device management server that manages them are connected via a network, and the one device and the other device are inspected,
  The device management server
  Device inspection software holding means for holding device inspection software for performing inspection while moving between devices;
  First device inspection software sending means for sending device inspection software held in the device inspection software holding means to the one device;
  The one device is
  First device inspection software receiving means for receiving device inspection software sent from the device inspection software sending means;
  First device inspection software execution means for executing the device inspection software;
  Second device inspection software sending means for sending the device inspection software to the other device;
  A first device inspection result sending means for sending an inspection result obtained by executing the device inspection software to the device management server via the network;
  When the device inspection software is received by the first device inspection software receiving means, the device inspection software is executed by the first device inspection software execution means to search for other devices belonging to the same network node. Obtaining the predetermined information, determining the inspection order for the other devices found, and adding information relating to the determined inspection order to the device inspection software transmitted by the second device inspection software transmission means. As a feature,
  The other device is
  Second device inspection software receiving means for receiving device inspection software to which information relating to the inspection order is added;
  Second device inspection software execution means for executing the device inspection software;
  Second device inspection result sending means for sending an inspection result obtained by executing the device inspection software to the device management server via the network;
  And third device inspection software sending means for sending the device inspection software to the other device other than itself,
  The network device inspection system, wherein the third device inspection software transmission means transmits the device inspection software to another device determined based on the inspection order. The network device inspection system according to claim 1,
  The network device inspection system, wherein the inspection result obtained by executing the device inspection software includes information on the device. The network device inspection system according to claim 1 or 2,
  Each device is
  A network device inspection system for generating a copy of the device inspection software received by the device inspection software receiving means and holding a copy of the device inspection software and an inspection result obtained by executing the device inspection software . The network device inspection system according to claim 3,
  Each device is
  A copy of the device inspection software is deleted after the device inspection software received by the device inspection software receiving means is sent to the other device or the other device other than itself by the device inspection software sending means. Network device inspection system.   In the network device inspection system according to any one of claims 1 to 4,
  The one device is
  When the number of other devices belonging to the same network node is a predetermined number or more, the other devices are divided into two or more groups, and the inspection order for other devices is set for each group. Decide
  The second device inspection software sending means copies the device inspection software received by the first device inspection software receiving means, and sends the copied device inspection software for each group. Device inspection system. In the network device inspection system according to any one of claims 1 to 5,
  The one device is
  A network device inspection system, wherein an inspection order of another device is determined based on an introduction time or a lifetime of the other device. In the network device inspection system according to any one of claims 1 to 6,
A network device inspection system , wherein a part or all of the one device or the other device is a printer. A network device inspection program for causing a computer of one device, a computer of another device belonging to the same network node, and a computer of a device management server to manage them via a network,
  Device management server computer
  Device inspection software holding means for holding device inspection software for performing inspection while moving between devices;
  Functioning as first device inspection software sending means for sending device inspection software held in the device inspection software holding means to the one device;
  The computer of the one device,
  First device inspection software receiving means for receiving device inspection software sent from the device inspection software sending means;
  First device inspection software execution means for executing the device inspection software;
  Second device inspection software sending means for sending the device inspection software to the other device;
  While functioning as a first device inspection result sending means for sending an inspection result obtained by executing the device inspection software to the device management server via the network,
  When the device inspection software is received by the first device inspection software receiving means, the device inspection software is executed by the first device inspection software execution means to search for other devices belonging to the same network node. The predetermined information is acquired, the inspection order for the other devices found is determined, and information on the determined inspection order is added to the device inspection software transmitted by the second device inspection software transmission means. Make it work
  The computer of the other device,
  Second device inspection software receiving means for receiving device inspection software to which information relating to the inspection order is added;
  Second device inspection software execution means for executing the device inspection software;
  Second device inspection result sending means for sending an inspection result obtained by executing the device inspection software to the device management server via the network;
  Functioning as third device inspection software sending means for sending the device inspection software to the other device other than the device,
  The network device inspection program characterized in that the third device inspection software transmission means functions to transmit the device inspection software to another device determined based on the inspection order. One device and another device that belongs to the same network node and a device management server that manages these devices are connected via a network, and the one device and the other device are transmitted by device inspection software that moves between the devices. A network device inspection method for inspecting a device,
The device management server
A device inspection software holding step for holding the device inspection software;
A first device inspection software sending step for sending the device inspection software held in the device inspection software holding step to the one device;
The one device is
A first device inspection software reception step for receiving the device inspection software transmitted in the device inspection software transmission step;
A first device inspection software execution step for executing the device inspection software;
A second device inspection software sending step for sending the device inspection software to the other device;
A first device inspection result sending step for sending an inspection result obtained by executing the device inspection software to the device management server via the network;
When the device inspection software is received in the first device inspection software reception step, another device belonging to the same network node is searched by executing the device inspection software in the first device inspection software execution step. Obtaining predetermined information, determining an inspection order for the other devices found, and adding information relating to the determined inspection order to the device inspection software transmitted in the second device inspection software transmission step; Including
The other device is
A second device inspection software reception step of receiving device inspection software to which information relating to the inspection order is added;
A second device inspection software execution step for executing the device inspection software;
A second device inspection result transmission step of transmitting an inspection result obtained by executing the device inspection software to the device management server via the network;
A third device inspection software sending step for sending the device inspection software to the other device other than itself;
The third device inspection software sending step includes a step of sending the device inspection software to another device determined based on the inspection order .

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