This disclosure relates to a program and an information processing apparatus. More specifically, this disclosure relates to an error notification technology of providing notification of error information such as content of an error and a method of coping with the error.
In an image processing apparatus that performs an image processing operation such as printing and scanning, a variety of errors occur, and disable the image processing operation (to perform), such as paper jam, out-of-sheet, and colorant-deficiency, etc. There is a known technology of sending error information to an information processing apparatus communicating with the image processing apparatus.
However, the above technology has the following problem. That is, the error information may be unnecessary for the information processing apparatus having received the error information. For example, the error information regarding printing function in the image processing apparatus, such as colorant deficiency and paper jam, is not useful to a user of the information processing apparatus, which has not sent a print job to the image processing apparatus. In this case, the user may be rather uncomfortable due to the error notification.
In view of the above, this disclosure provides at least an error notification technology capable of appropriately providing notification of an error to each information processing apparatus communicating with an image processing apparatus.
A non-transitory computer-readable medium of this disclosure has a program stored thereon and readable by a processor of an information processing apparatus configured to communicate with an image processing apparatus. The program, when executed by the processor, causes the information processing apparatus to perform: receiving an execution request to cause the image processing apparatus to perform the image processing, the execution request being corresponding to a job; acquiring status information indicating a status of the image processing apparatus; and providing notification, during a notification time period, of error information based on the status information when the status information is acquired during the notification time period, which starts at a time when the execution request is received.
An information processing apparatus of this disclosure includes a communication unit that communicates with an image processing apparatus performing image processing, and a control unit. The control unit executes: receiving an execution request to cause the image processing apparatus to perform the image processing, the execution request being corresponding to a job; acquiring status information indicating a status of the image processing apparatus; and proving notification, during a notification time period, of error information based on the status information when the status information is acquired during the notification time period, which starts at a time when the execution request is received.
The foregoing and additional features and characteristics of this disclosure will become more apparent from the following detailed descriptions considered with the reference to the accompanying drawings, wherein:
Hereinafter, an illustrative embodiment embodying an apparatus of this disclosure will be specifically described with reference to the accompanying drawings. In this illustrative embodiment, this disclosure is applied to an image processing system having a multi-functional peripheral (MFP) and a personal computer (PC) having a device driver for the MFP installed therein.
[Configuration of Image Processing System]
As shown in
In the meantime, the image processing apparatus and the information processing apparatus configuring the image processing system 100 are not limited to the shown apparatuses. Also, the connection between the PC 10 and the MFP 20 and the like is not limited to the wired LAN cable and the USB cable and may be made through a serial communication cable, a parallel communication cable and wireless communication such as wireless LAN.
The PC 10 has a controller 30 (an example of the control unit) having a CPU 11 (an example of the control unit) that executes a variety of processing, a ROM 12 that stores therein a startup processing program (BIOS), which is executed by the CPU 11 upon startup of the PC 10, and the like, a RAM 13 that is used as a temporary storage area when the CPU 11 executes the variety of processing and a hard disk drive (HDD) 14 that stores therein a variety of programs and data.
Also, the PC 10 has an operation unit 15 such as a keyboard, a mouse and the like, a display unit 16 such as a liquid crystal monitor and the like, a USB interface 17 (an example of the communication unit) and a network interface 18 (an example of the communication unit), which are electrically connected to the controller 30 and are controlled by the controller 30.
The PC 10 stores therein an operating system (OS), application programs (document processing software, drawing software, spreadsheet software, photograph data editing software and the like), device drivers for controlling the MFPs 20, 21, 22 and a status monitor (an example of the program) that monitors a status of each MFP 20. In the meantime, the various programs may be installed by using a recording medium having the programs recorded therein, such as CD-ROM, or may be downloaded and installed from a server on a network.
The MFP 20 has a function of forming an image on a sheet and an electrophotographic method, an inkjet method and the other general image forming methods may be adopted as the image forming method. Also, the MFP may form a color image and a monochrome image or may form only a monochrome image. In addition, the MFP 20 has image reading, FAX transmission and FAX reception functions. The configurations of the MFPs 21, 22 are similarly to the MFP 20.
[Operations of PC]
Subsequently, operations of the PC 10, which are performed when the MFP 20 is enabled to perform a printing operation in the image processing system 100 of this illustrative embodiment, are described with reference to a block diagram of
In
Also, a status monitor 41 periodically acquires status information of all the MFPs (in this illustrative embodiment, the MFPs 20, 21, 22) that are connected to communicate with the PC 10 and displays the acquired status information so that a user can see the same. Specifically, the status monitor 41 acquires, as the status information, operating statuses (under execution, standby status, or sleep status and the like) and a type of an error when the error occurs in the MFP. In this illustrative embodiment, the status monitor 41 is provided from a device maker. However, the status monitor 41 may be provided as a part of the OS. An operating sequence of the status monitor 41 will be described later.
The graphic engine 51 is a module that controls the device driver 40. The graphic engine 51 receives a command from an application program 61 and transmits the command to the device driver 40.
The spooler 52 is a module having functions of temporarily storing the print data generated by the device driver 40 and sequentially outputting the print data to the designated MFP. In the specification, the description that ‘the device driver 40 transmits the print data to the MFP 20’ means that ‘the device driver 40 stores the print data in the spooler 52’ and does not mean that the print data is actually transmitted to the MFP 20 by the spooler 52.
When the PC 10 causes the MFP 20 to execute the printing, the application program 61 installed in the PC 10 first receives a printing instruction from the user and outputs a printing start notice, as shown in
When the graphic engine 51 starts to acquire the image data, the graphic engine 51 issues a drawing command to the device driver 40. When the device driver 40 receives the drawing command, the device driver 40 generates a bitmap image (a BMP image) based on the drawing command and generates print data of a PDL format based on the BMP image.
After generating the print data, the device driver 40 stores the print data in the spooler 52. When the print data is stored in the spooler 52, the spooler 52 transmits the stored print data to the MFP 20. The MFP 20 having received the print data performs a printing operation on the basis of the print data.
Subsequently, operations of the PC 10, which are performed when the error information of the MFP 20 is notified to the status monitor 41 in the image processing system 100 of this illustrative embodiment, are described with reference to a sequence diagram of
In the image processing system 100 of this illustrative embodiment, when providing notification of the error information of the MFP 20 to the PC 10, the managing unit 41A first acquires driver information, which is information of the device driver that is a monitoring target, from the OS 50 upon the startup of the managing unit 41A of the status monitor 41. The driver information is stored in a setting storage area of the OS 50, such as a registry. The driver information includes a type of the driver and a type of the connection interface, for example. The driver information is stored in the setting storage area by an installer upon the installation or by the device driver upon the startup of the device driver.
Also, when there is a printer driver, the managing unit 41A of the status monitor 41 is set to notice that a job is registered when the job using the printer driver, which is a monitoring target, has been registered, to the OS 50. The notification is hereinafter referred to as ‘job registration notice’. Since the error notification is performed for each device driver, the notification setting is made for each printer driver. For example, when a printer driver for the MFP 20 is installed in the PC 10, the managing unit 41A is set to issue the notification if a job using the printer driver for the MFP 20 has been registered. When the notification setting is performed, the OS 50 outputs the job registration notice at the time that a printing job is stored in the spooler 52.
Meanwhile, for a scanner driver, the scanner driver secures a storage area for storing read data and stores a reading situation in the storage area. The managing unit 41A of the status monitor 41 acquires the reading situation from the storage area of the scanner driver and detects starting and ending of a scanning job. In the meantime, the job registration notice may be output from the scanner driver to the managing unit 41A of the status monitor 41 when a scanning job is input. The descriptions of the operations of the scanning job are omitted.
After the managing unit 41A of the status monitor 41 makes the notification setting for the OS 50, the managing unit 41A periodically inquires of all devices, which are monitoring targets, about a status. That is, the managing unit 41A starts to monitor the status of the MFP 20. In the meantime, although the status monitor 41 starts to monitor the status of the MFP 20 by the managing unit 41A, the error information is not notified by the notifying unit 41B until the managing unit 41A permits the notification. The notification of the error information is not permitted at an initial state.
After that, when a printing job using the device driver of a monitoring target is registered in the PC 10, the job registration notice is output from the OS 50 to the status monitor 41. When the managing unit 41A of the status monitor 41 receives the job registration notice, the managing unit 41A permits the notifying unit 41B to provide notification of the error information until a predetermined time period elapses after the notification is received.
When the notification is permitted by the managing unit 41A, the notifying unit 41B of the status monitor 41 provides notification of the error information based on the latest status information of the MFP 20, which is acquired by the managing unit 41A. Whenever the managing unit 41A acquires the status information of the MFP 20, the notifying unit 41B provides notification of the latest error information. In the meantime, the aspect of providing notification of the error information by the notifying unit 41B is a popup display on the display unit 16, for example. In addition to this, a warning sound may be output. Also, for example, a dialogue box may be blinked.
When the printing job is over, the OS 50 outputs a job ending notice to the status monitor 41. In the meantime, the ending of the printing job means that the print data of a final page is output from the spooler 52. For this reason, there is a time lug after the job ending notice is output until the printing of a final page is completed in the MFP 20. Meanwhile, for the scanning job, the ending means that reception of scan data is completed. Therefore, the reading in the MFP 20 has been completed upon detection of the job ending.
Therefore, when the job ending notice of the printing job is received, the managing unit 41A of the status monitor 41 prohibits a notice of the status after a predetermined time period elapses from the reception of the job ending notice, considering the time lug until the printing is completed. That is, a summed time period of a time period A (first time period) after the job registration notice is received until the job ending notice is received and a time period B (second time period) after the job ending notice is received until a predetermined time period elapses is a notification time period during which notification of the error information is permitted. In the meantime, upon the ending detection of the scanning job, the reading and reception of the read data in the MFP 20 have been completed, and an error occurring after the ending detection of the scanning job has a low relativity to a job that is requested by the PC 10. For this reason, the time period B is set to be 0 second and only the time period B becomes the notification time period. When the notification is prohibited, the notifying unit 41B does not provide notification of the error information.
That is, when an error occurs in the image processing apparatus that is a monitoring target after the PC 10 registers a job, the error highly influences the job. For this reason, the error information has a high utility value for the user who uses the PC 10. On the other hand, the information of an error, which occurs while the PC 10 is not registering a job, does not have always a high utility value for the user who uses the PC 10. For this reason, the notifying unit 41B of the status monitor 41 provides notification of the error information, which is obtained from the MFP 20 during the notification time period corresponding to the time period for which the MFP 20 is executing a job after the job is registered, and does not provide notification of the error information during the other time period even when an error occurs in the MFP 20.
In the meantime, the managing unit 41A of the status monitor 41 periodically acquires the status of the image processing apparatus that is a monitoring target, regardless of whether a job is registered. Thereby, contrary to notification of the error information by the notifying unit 41B, it is possible to always display the latest status of the image processing apparatus in accordance with a request from the user.
[Operations of Status Monitor]
[Managing Processing]
Subsequently, managing processing that is executed by the managing unit 41A of the status monitor 41 so as to realize the error notifying sequence is described with reference to a flowchart of
In the managing processing, the CPU first initializes and activates a monitoring timer for periodically inquiring a status of a device that is a monitoring target (S101). Then, the CPU acquires the driver information of the device driver from the setting storage area of the OS 50 (S102).
Then, based on the driver information acquired in S102, the CPU determines whether the connection interface is one-to-one connection (S103). In this illustrative embodiment, the one-to-one connection corresponds to the USB interface 17. In addition to this, a one-to-one connection through a serial cable or dedicated line is also included. When the connection interface is not one-to-one connection (S103: NO), for example, when the connection interface is network connection such as Ethernet (registered trademark), the CPU sets the status monitor 41 to output the job registration notice to the OS 50 when a job using the device driver becoming a monitoring target is registered (S111).
The CPU repeats the processing of S103 and S111 and performs the processing for all the device drivers that are stored in the driver information acquired in S102. For example, when the printer driver of the MFP 20 and the printer driver of the MFP 22 are monitoring targets, since the MFP 20 is connected by the network interface 18 and the MFP 22 is connected by the USB interface 17, the job registration notice is performed for the status monitor 41 upon the registration of the job using the printer driver of the MFP 20.
After the notification setting for the respective device drivers, the CPU determines whether the driver information is updated (S104). That is, after starting the managing processing, the CPU determines whether the device driver becoming a monitoring target is added or deleted. When the driver information is updated (S104: YES), the CPU proceeds to S102 and again performs the notification setting.
When the driver information is not updated (S104: NO), the CPU executes notification-permission setting processing for setting notification-permission of the error information (S105). Here, the notification-permission setting processing of S105 is described with reference to a flowchart of
In the notification-permission setting processing, the CPU first determines whether there is the job registration notice (S151). When there is the job registration notice (S151: YES), the CPU permits the notification of the error information (S161). Thereby, the notification of the error information by the notifying unit 41B is permitted. The information indicating whether there is the notification-permission is stored in a storage means that can be commonly used by the managing unit 41A and the notifying unit 41B, for example, a registry or file. When the notification of the error information is permitted, the notifying unit 41B provides notification of the error information, based on the status information of the device. The processing of the notifying unit 41B will be described later. On the other hand, when there is no job registration notice (S151: NO), the notification of the error information is not permitted.
After S161 or when there is no job registration notice (S151: NO), the CPU determines whether there is the job ending notice (S152). When there is the job ending notice (S152: YES), the CPU acquires a type of the job that is a notice target (S171). Then, based on the type of the job, the CPU determines ending time of the notification time period (S172). That is, the CPU determines the time period B of
After S173 or when there is no job ending notice (S152: NO), the CPU determines whether the notification time period has elapsed (S153). Specifically, in S153, the CPU determines that the time period B has elapsed i.e., the notification time period has elapsed when the notification timer activated in S173 reaches the ending time or longer determined in S172. On the other hand, when the notification timer activated in S173 does not exceed the ending time or the notification time period is not set, i.e., while the notification of the error information is prohibited, the CPU determines in S153 that the notification time period has not elapsed.
When the notification time period has elapsed (S153: YES), the CPU prohibits the notification of the error information (S181). Then, the CPU stops the notification timer (S182). After S182 or when the notification time period has not elapsed (S153: NO), the CPU ends the notification-permission setting processing. In the meantime, the descriptions of the notification-permission setting processing relate to the notification-permission setting of the printer driver. For the scanner driver, the CPU determines in S151 whether the start of the scanning job is detected and determines in S152 whether the ending of the scanning job is detected.
Meanwhile, in the notification-permission setting processing (a first mode) shown in
In the notification-permission setting processing shown in
After S272, the CPU permits the notification of the error information (S161) and initializes and activates the notification timer (S173). After S173 or when there is no job registration notice (S151: NO), the CPU determines whether the notification time period has elapsed (S153). When the notification time period has elapsed (S153: YES), the CPU prohibits the notification of the error information (S181) and stops the notification timer (S182).
That is, in the notification-permission setting processing of the second mode shown in
Meanwhile, in the first mode, the notification time period is varied depending on the type of the job. However, the notification time period may be fixed. Also, the time period B may not be included in the notification time period and the notification time period may expire when the job ending notice is received, i.e., only the time period A may be set as the notification time period. Also, like the second mode, the time period B may be varied depending on the setting of the device driver. Also, in the second mode, the notification time period is varied depending on the setting of the device driver. However, the notification time period may be fixed. Also, like the first mode, the notification time period may be varied depending on the type of the job.
Returning to
When there is no ending notice (S106: NO), the CPU determines whether an inquiry interval of the status of the device being a monitoring target has elapsed (S107). Specifically, in S107, when the monitoring timer activated in S101 reaches predetermined time or longer, the CPU determines that the inquiry interval has elapsed. When the inquiry interval has not elapsed (S107: NO), the CPU proceeds to S104 and repeats the determination after S104.
When the inquiry interval has elapsed (S107: YES), the CPU resets the monitoring timer to an initial value and reactivates the same (S121). Also, the CPU inquires of the device being a monitoring target about a status thereof and acquires the status information of each device (S122). After that, the CPU outputs a notification notice to the notifying unit 41B of the status monitor 41 (S123). After S123, the CPU proceeds to S104 and waits for the inquiry interval to elapse. Whenever the inquiry interval has elapsed, the CPU repeats the processing after S121.
[Notification Processing]
Subsequently, notification processing that is executed by the notifying unit 41B of the status monitor 41 so as to implement the error notifying sequence is described with reference to a flowchart of
In the notification processing, the CPU acquires the latest status information acquired by the managing unit 41A (S201). Then, the CPU determines whether the error information included in the status information includes an error to be provided in a notification (S202). For example, in S202, the status information irrelevant to the error, such as standby status, slip status and the like, is not included in the error provided in a notification. Also, for example, when the printer driver of the MFP 20 is a monitoring target, the error information relating to the scanner and FAX communication has a low utility value even though the error information is the error information of the MFP 20. That is, the CPU determines that the error information irrelevant to the job for which the job registration notice is issued is not a target to be provided in a notification. Also, when the printer drivers of the MFP 20 and the MFP 22 are monitoring targets and a printing job is issued for the MFP 20, the error information of the MFP 22 has a low utility value. That is, when a plurality of devices is monitoring targets, the CPU determines that the error information of a device, except for a device that is used by a job for which the job registration notice is issued, is not a target to be provided in a notification. When it is determined that there is no error to be provided in a notification (S202: NO), the CPU ends the notification processing without providing a notification of the error information.
When it is determined that there is an error to be provided in a notification (S202: YES), the CPU determines whether the connection interface to the device in which the error to be provided in a notification occurs is one-to-one connection (S203). When the connection interface is one-to-one connection (S203: YES), there is a high possibility that the occurring error is a job input from another PC 10. For this reason, the CPU provides a notification of the error information, irrespective of whether there is the notification-permission (S205).
On the other hand, when the connection interface is not one-to-one connection (S203: NO), the CPU determines whether the error notification is permitted in the managing unit 41A (S204). Specifically, the CPU reads out the information indicating whether there is the notification-permission, which is stored in S161 or S181 of the managing processing of the managing unit 41A. When the notification is permitted (S204: YES), the CPU provides a notification of the error information (S205) and ends the notification processing. On the other hand, when the notification is not permitted (S204: NO), the CPU ends the notification processing without providing notification of the error information.
As specifically described above, there is a high possibility that an error, which occurs in the device being a monitoring target within the predetermined time period after the PC 10 receives the execution request of the job, is an error relating to the job requested by the PC 10. On the other hand, there is a high possibility that an error, which occurs in the device being a monitoring target for a time period other than the predetermined time period, is an error irrelevant to the PC 10. For this reason, the status monitor 41 of this illustrative embodiment provides a notification of the error information if the error occurs in the predetermined time period (in the notification time period). Thereby, it is possible to expect the error notification to have a high utility value.
In the meantime, the above illustrative embodiment is just exemplary and is not construed to limit this disclosure. Accordingly, this disclosure can be variously improved and modified without departing from the scope of this disclosure. For example, regarding the MFP, any device having an image processing function is possible and a printer, a scanner, a copier and a FAX apparatus can be also applied. Also, regarding the PC, any apparatus that inputs an image processing job to the image processing apparatus is possible and a smart phone and a PDA can be also applied.
Also, in the above illustrative embodiment, the managing unit 41A of the status monitor 41 periodically acquires the status information of the MFP 20, irrespective of the notification time period. However, the managing unit 41A may acquire the status information only during the notification time period.
Also, in the above illustrative embodiment, the error information irrelevant to the type of the job for which the job registration notice is issued and the error information of the device other than the device that is used by the job for which the job registration notice is issued are not determined as an error that is to be provided in a notification in S202 and thus are not provided in a notification, but it may be provided in a notification. In this case, the error information that is determined as an error not to be provided in a notification has a lower utility value, compared to the error information that is determined as an error to be provided in a notification. Therefore, the error information that is determined as an error not to be provided in a notification may be set to have a lower degree for providing a notification, compared to the error information that is determined as an error to be provided in a notification, and may be provided in a notification in distinction from the error to be provided in a notification. The level of the degree of the notification may be implemented by whether or not a popup display, whether or not a blink display, whether or not a warning sound and a size of a message box.
Also, in the above illustrative embodiment, the notifying unit 41B of the status monitor 41 is enabled to provide notification of the error. However, this disclosure is not limited thereto. For example, a mail may be transmitted. Also, the other applications having a display function (for example, a browser, a status monitor that is managed by the OS, and the like) may display the error, for example.
Also, the processing disclosed in the above illustrative embodiment may be executed by hardware such as a single CPU, a plurality of CPUs, an ASIC and the like or a combination thereof. Also, the processing disclosed in the above illustrative embodiment may be implemented by a variety of aspects such as a recording medium having a program for executing the processing recorded therein, a method and the like.
Number | Date | Country | Kind |
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2013-072371 | Mar 2013 | JP | national |
This application is a continuation of prior U.S. application Ser. No. 14/227,075, filed Mar. 27, 2014, which claims priority from Japanese Patent Application No. 2013-072371 filed on Mar. 29, 2013, the entire subject matter of which is incorporated herein by reference.
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Number | Date | Country | |
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20180329772 A1 | Nov 2018 | US |
Number | Date | Country | |
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Parent | 14227075 | Mar 2014 | US |
Child | 16046200 | US |