JP2004072163A - Communication apparatus, and control method, and program for communication apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication apparatus wherein a job is not executed in a timing entirely disregarding a set wait time in executing automatic switching of time information attended with start / end of a summer time execution period. <P>SOLUTION: When the communication apparatus executes control of automatically shifting time information forward and backward on the basis of information of the start / end time of the summer time execution period stored in a data storage means and stays in a waiting state until a time set by a job execution means and set to the data storage means elapses, the communication apparatus automatically shifts forward and backward the time information independently of a remaining time until the job is executed for the setting time and instructs the job execution means to immediately execute the job and makes the job execution means execute the job. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a communication device, a communication device control method, and a program.
[0002]
[Prior art]
The image processing apparatus has time information managed by itself, presents time information to a user based on the time information, or performs a specific process (automatic transmission, automatic printing, etc., executed at a time designated by the user). Some of the image processing apparatuses having a function of executing time information include a function of automatically switching time information in order to save the user from manually changing time information generated by the start / end of the daylight saving time period. Image processing apparatus.
[0003]
In the above-described image processing apparatus, in a job set to automatically execute a specific process at a time designated by a user (timer transmission of facsimile transmission, periodic polling, etc.), the elapse of the date and time designated by the user is monitored. I do.
[0004]
A job that automatically executes a specific process after a specific time has elapsed (a function for retrying the execution of the same job after a certain period of time when the execution of the job has failed (a redial function for facsimile transmission, etc.)) In a function that repeats the execution of a specific job at a fixed time cycle (such as a function of automatically notifying the host computer connected to a public line of the status information of the device), the setting by the user or service person is The image processing apparatus counts the elapsed time and the interval time between jobs (hereinafter, referred to as “standby time”), and starts the function after the standby time has elapsed.
[0005]
[Problems to be solved by the invention]
In the image processing apparatus, when realizing a job that automatically executes a specific process after a specific time has elapsed, a single job requires a timer counter that counts one elapsed time. Processing volume increases.
[0006]
According to the standard specifications of the current image processing apparatus, it is possible to store several hundreds of image data in the image memory, and in theory, it is possible that all of these are image data that are waiting for redialing. is there. If development and design are performed while assuming such a case, it takes a long time to verify and correct the functions and operations, so that there is a disadvantage that the number of design steps increases and the cost increases.
[0007]
In order to overcome the above drawbacks, instead of using the timer counter as described above, the time obtained by adding the waiting time to the last time the job was executed (hereinafter referred to as “scheduled execution time”) is executed. The time is set automatically by the image processing apparatus, and at the time specified by the user, the progress of the scheduled execution time is monitored in the same manner as in the case of the job that automatically executes the specific processing. As a result, the execution of the job can be managed by the same algorithm as when monitoring the elapse of the time designated by the user.
[0008]
In the above case, when the image processing apparatus monitors the date and time specified by the user when executing the automatic switching of the time information at the start / end of the daylight saving time period, the time information is specified. There is no problem if it is changed.
[0009]
However, after the specific time has elapsed, in order to execute a job that automatically executes the specific processing, if the scheduled execution time is awaited, the image processing apparatus automatically sets the scheduled execution time. Therefore, if the internal time information is changed, the scheduled execution time elapses sometime beforehand, which causes a problem that the job is executed at a timing ignoring the set standby time altogether.
[0010]
For example, in the redial function of the facsimile apparatus, it is assumed that 10 minutes is set as the standby time, and that 2:00 is the start time of the daylight saving time execution period, and that the time is advanced by one hour with the execution of daylight saving time. In this case, when the process shifts to the redial standby mode at 1:55, the scheduled execution time of the retransmission processing is 2: 5, but there is no 2:05 on the day due to the summer time.
[0011]
However, since the communication device continues to monitor the passage of 2:05, the communication device starts retransmission processing at 2:05 on the following day.
[0012]
This phenomenon indicates that the job was successful because it did not start retry, but in fact, since it did not succeed, the retry did not start forever, and the confusion that the previously executed job suddenly started, There is a problem of giving to.
[0013]
SUMMARY OF THE INVENTION An object of the present invention is to provide a communication apparatus in which a job is not executed at a timing ignoring a set standby time when performing automatic switching of time information at the start / end of a daylight saving time execution period. It is assumed that.
[0014]
[Means for Solving the Problems]
The present invention provides a time information managing means for managing time information including the current date and time, and a control execution for executing a process designated at a specific time based on time information obtained from the time information managing means. Means, a job comprising specific time information necessary for the control execution means to execute the specified processing at the specific time and image data to be processed, and information on the start / end time of the daylight saving time period And a data storage unit for storing the data, wherein the control execution unit executes a specific job at the specific time stored in the data storage unit, and the control execution unit is stored in the data storage unit. When executing the control for automatically changing the time information based on the information on the start / end time of the daylight saving time period, the control execution means executes the job. Regardless of the time, causes automatically change the time information, a communication device and executes the job.
[0015]
Embodiments and Examples of the Invention
FIG. 1 is a block diagram illustrating a schematic configuration of an image processing apparatus 100 according to a first embodiment of the present invention.
[0016]
In the image processing apparatus 100, the CPU 101 is a system control unit, and controls the entire image processing apparatus 100.
[0017]
The ROM 102 stores a control program executed by the CPU 101, an embedded operating system (OS) program, and the like. Each control program stored in the ROM 102 performs scheduling and tasks under the management of the embedded OS stored in the ROM 102. Performs software control such as switches.
[0018]
The RAM 103 is configured by an SRAM (static RAM) or the like, stores program control variables and the like, stores set values registered by an operator, management data of the image processing apparatus 100, and the like, and is provided with various work buffer areas. Have been.
[0019]
The image memory 104 is composed of a DRAM (dynamic RAM) or the like, and stores image data.
[0020]
In the ROM 102 or the RAM 103, the start time and end time of the daylight saving time period associated with the country / region and related information are stored in advance.
[0021]
The data conversion unit 105 performs conversion of image data, such as analysis of a page description language (PDL) and the like, and expansion of character data into CG (computer graphics).
[0022]
The reading control unit 106 reads the image signal obtained by the reading unit 107 optically reading the original with a CIS image sensor (contact image sensor) and converting the image signal into electrical image data via an image processing control unit (not shown). Various image processes such as a binarization process and a halftone process are performed to output high-definition image data. In the above-described embodiment, the reading control unit 106 supports both a sheet reading control method for reading while conveying a document and a book reading control method for scanning a document on a document table.
[0023]
The operation display unit 108 includes a numerical input key, a character input key, a one-touch telephone number key, a mode setting key, an enter key, a cancel key, and the like, so that the user can determine image transmission destination data and register setting data. And an operation display unit, which includes various keys, an LED (light emitting diode), an LCD (liquid crystal display), and the like, and performs various input operations by an operator and displays an operation status and a status status of the image processing apparatus 100. is there.
[0024]
The communication control unit 109 includes a MODEM (modulator / demodulator), an NCU (network control device), and the like, is connected to an analog communication line (PSTN) 131, performs communication control using the T30 protocol, and makes calls to and from the communication line. Performs line control such as calls.
[0025]
The resolution conversion processing unit 110 performs resolution conversion control such as millimeter-inch resolution conversion of image data, and can also perform image data scaling processing.
[0026]
The encoding / decoding processing unit 111 performs encoding / decoding processing on image data (MH, MR, MMR, JBIG, JPEG, etc.) handled by the image processing apparatus 100, and performs scaling processing.
[0027]
The recording control unit 112 performs various types of image processing such as smoothing processing, recording density correction processing, and color correction on the image data to be printed via an image processing control unit (not shown) to convert the image data into high-definition image data. Is output to the recording unit 113 (described later). Further, it also plays a role of periodically acquiring status information data of the recording unit 113.
[0028]
The recording unit 113 is a printing device including a laser beam printer, an inkjet printer, or the like, and prints color image data or monochrome image data on a printing member.
[0029]
The USB function control unit 114 performs communication control of the USB interface, performs protocol control according to the USB communication standard, converts data from the USB control task executed by the CPU 101 into a packet, and transmits the data to an external information processing terminal. Packet transmission is performed, and conversely, a USB packet from an external information processing terminal is converted into data and transmitted to the CPU 101.
[0030]
The components 101 to 106, 108 to 112, and 114 are mutually connected via a CPU bus 115 managed by the CPU 101.
[0031]
The clock unit 116 manages time information such as the current date and time and the time, measures the operation interval, and notifies the CPU 101 of the time information. This is composed of a clock IC or the like.
[0032]
Next, a description will be given of an internal setting executed to realize an automatic time switching function according to the daylight saving time start time / daylight saving time end time in the image processing apparatus 100 when the power is turned on.
[0033]
The “summer time start time” is the start time of the daylight saving time period, and the “summer time end time” is the end time of the daylight saving time period.
[0034]
FIG. 2 is a flowchart illustrating an internal setting processing operation when the image processing apparatus 100 is powered on.
[0035]
In step S201, the CPU 101 acquires, from the ROM 102 or the RAM 103, information indicating a country / region in which the image processing apparatus 100 is set to be used in advance (hereinafter referred to as “set country information”). The set country information is set at the time of shipment from the factory. When the power is turned on, the set country information is acquired, and the process proceeds to step S202.
[0036]
In step S202, the CPU 101 acquires, from the ROM 102 or the RAM 103, information regarding the daylight saving time start time applied to the country / region indicated by the acquired set country information, and thereafter uses the information as control information for controlling the automatic time switching function. For this purpose, it is stored in the RAM 103. In the area of the RAM 103, information on the acquired summer time start time is stored in an area different from the area set at the time of factory shipment. After this storage, the process moves to step S203.
[0037]
In step S203, the CPU 101 acquires, from the ROM 102 or the RAM 103, information on the daylight saving end time applied to the country / region indicated by the set country information acquired in step S201, and thereafter uses control information used for controlling the automatic time switching function. Is stored in the RAM 103 for use as In the area of the RAM 103, information on the acquired daylight saving time end time is stored in an area different from the area set at the time of factory shipment. After this storage, the process moves to step S204.
[0038]
In step S204, the CPU 101 obtains information relating to the time to be advanced / returned (hereinafter referred to as “shift time”) as the daylight saving time start / end time applied to the country / region indicated by the set country information acquired in step S201 elapses. The information is acquired from the ROM 102 or the RAM 103 and thereafter stored in the RAM 103 for use as control information for controlling the automatic time switching function. The acquired shift time is stored in an area of the RAM 103 that is different from the area set at the time of factory shipment. After this storage, the internal setting is completed, and the processing shifts to the standby state. At the same time as the transition to the standby state, the time monitoring process is started.
[0039]
Next, the image processing apparatus 100 includes a job waiting to execute a specific process after a specific time has elapsed, and a job set to execute the specific process at a time designated by the user. In the case, the automatic switching process of the time information accompanying the elapse of the daylight saving time start / end time will be described.
[0040]
In the present embodiment, as a job waiting to execute a specific process after a specific time has elapsed, a redial process of facsimile transmission is assumed, and the specific process is set to be executed at a time designated by a user. The job is assumed to be a facsimile transmission timer transmission.
[0041]
FIG. 3 is a flowchart showing a time monitoring operation for time switching in the image processing apparatus 100 based on the passage of the daylight saving time start time / end time.
[0042]
The process shown in FIG. 3 is started after the end of the internal setting shown in FIG.
[0043]
In step S301, it is determined whether or not the set country information has been changed by a user or a service person. If the set country information has been changed, the process proceeds to step S302. If the set country information has not been changed, the process proceeds to step S303.
[0044]
In step S302, the fact that the set country information has been changed means that the country / region where the image processing apparatus 100 is used has been changed, and the daylight saving time start / end time applied in that country / region has been changed. The shift time needs to be reset. This resetting operation is the same operation as the flowchart shown in FIG. Upon completion of the resetting, the process proceeds to step S301.
[0045]
In step S303, it is determined whether this function is valid (ON) or invalid (OFF). This determination is based on information indicating whether the function stored in the RAM 103 and present in the area where the information set by the user is stored is valid or invalid (hereinafter referred to as “ON / OFF”). Information ").
[0046]
When the ON / OFF information is OFF, it means that the user does not want to execute this function for some reason, and the process proceeds to step S301 without performing the time switching process after this step. On the other hand, if the ON / OFF information is ON, the process proceeds to step S304. The ON / OFF information can be switched between ON and OFF by the user via the operation display unit 108.
[0047]
In step S304, it is determined whether the daylight saving time start time acquired in step S202 and stored in the RAM 103 as control information has elapsed. If the summer time start time has elapsed, the process proceeds to step S305. If the summer time start time has not elapsed, the process proceeds to step S307.
[0048]
In step S305, the CPU 101 obtains the current time from the clock unit 116, calculates from the obtained current time to advance by the shift time (step S204) stored in the RAM 103 as control information, and calculates the current time. The set time is set as time information managed by the clock unit 116. After this setting, the process moves to step S306.
[0049]
In step S306, it is set to execute a specific process at a time designated by the user, which is a job waiting to execute a specific process after a specific time has elapsed (in this embodiment, a redial process of facsimile transmission). A process for a job (a facsimile transmission timer transmission in this embodiment) is executed (see the description of FIG. 4 described later). After executing this process, the process proceeds to step S307 to monitor the daylight saving time end time.
[0050]
In step S307, it is determined whether the daylight saving time end time acquired in step S203 and stored in the RAM 103 as control information has passed. If the daylight saving time end time has passed, the process proceeds to step S308. If the daylight saving time end time has not passed, the process proceeds to step S301.
[0051]
In step S308, the CPU 101 obtains the current time from the clock unit 116, and from this current time, calculates to return by the shift time obtained in step S204 and stored in the RAM 103 as control information. The set time is set as time information managed by the clock unit 116. After this setting, the process moves to step S309.
[0052]
In step S309, similarly to step S306, the job waiting to execute the specific process after the elapse of the specific time (the redial process of facsimile transmission in this embodiment), and the specific process is executed at the time designated by the user. The processing for the job (the timer transmission for facsimile transmission in the present embodiment) set as described above is executed (see the explanation for FIG. 4 described later). After executing this processing, the procedure moves to step S301.
[0053]
As described above, in the image processing apparatus 100, steps S301, 303, 304, and 307 (steps S304 and 307 depend on step S303) continue to be looped to change the set country information, ON / OFF information, and start summer time. / Continue monitoring the end time. At this time, if the time information of the clock unit 116 is returned due to the lapse of the summer time end time (step S308), the time information passes through the summer time end time again. In this case, the processing is performed so that the time information is not duplicated. There is a need to.
[0054]
Next, a job (in this embodiment, a redial process of facsimile transmission) waiting to execute a specific process after a specific time has elapsed in steps S306 and 309, and the specific process is executed at a time designated by the user. A description will be given of a process for a job that is set to be performed (a timer transmission for facsimile transmission in this embodiment).
[0055]
FIG. 4 shows a state in which a redial process for facsimile transmission is awaited when a process for automatically switching time information is performed as daylight saving time start / end times elapse in the above-described embodiment. 13 is a flowchart illustrating an operation when a time-specified job exists when the timer transmission is set.
[0056]
In step S <b> 401, the CPU 101 determines whether or not image data waiting for redial exists in the image memory 104. If there is image data waiting for redial, the process proceeds to step S402. If there is no image data waiting for redial, the process proceeds to step S403.
[0057]
In step S402, the CPU 101 instructs to immediately execute a call / automatic transmission process on the image data waiting for redial. More specifically, in the present embodiment, normally, the image data in the standby state for redialing is transferred to the standby state for redialing without the normal end of the transmission processing, and after the time specified as the redialing interval elapses (hereinafter, referred to as the redialing interval). , A "redial start time"), a call / automatic transmission process is executed (eg, redial standby is started at 8:00, and a redial interval is automatically from 3 minutes to 8:03). .
[0058]
Then, in step S402, the redial start time is changed to the current time. The current time is the time shifted from the daylight saving time start time by the shift time (step S305) when shifting from the step S306 to the present flowchart, and shifted from the summer time end time when shifting from the step S309 to the present flowchart. This is the time set back (step S308).
[0059]
The process of step S402 is repeated for all the image data waiting for redial in the image memory 104, and when all data have been changed, the process proceeds to step S403.
[0060]
In step S403, it is determined whether or not image data waiting for execution of the timer transmission function exists in the image memory 104. If the image data exists, the process proceeds to step S404. If the image data does not exist, the process proceeds to step S406.
[0061]
In step S404, it is determined whether the current time has passed the designated time for executing the timer transmission. This current time is a time that is shifted forward from the summer time start time by the shift time when the process proceeds from step S306 to the present flowchart (step S305). When the process proceeds from step S309 to the present flowchart, the shift time is obtained from the summer time end time. (Step S308).
[0062]
If the current time has passed the designated time for executing the timer transmission, the process proceeds to step S405. If the current time has not passed the designated time for performing the timer transmission, the process proceeds to step S406. At this time, there is no problem if the specified time is a specification that can specify all of the year, month, day, and time. However, if the specified time is a specification that can only specify the time, when the time is returned in step S309, the time before the return is returned. The image data set at the time (2 to 3) between the time (eg, 3 o'clock) and the returned time (2 o'clock) passes the same time twice, so It is considered that the time is specified by the user as the specified time. Therefore, it is necessary to determine that the time specified by the user has not elapsed, and to perform a process of not instructing the calling / automatic transmission of the image data.
[0063]
In step S405, it is necessary to immediately execute the transmission operation on the image data that has passed the designated time for executing the timer transmission. Therefore, similarly to step S402, the transmission time specified by the user is changed to the current time (changed to the time switched in step S305 and step S308), and the process proceeds to step S406.
[0064]
In step S406, the CPU 101 determines whether or not the image data in the image memory 104 includes data set to immediately call. This naturally includes the image data instructed to immediately make a call in steps S402 and S405.
[0065]
If there is data set to call immediately, the process proceeds to step S407, and if there is no data set to call immediately, there is no need to perform transmission processing, and this processing ends. If the process is called from step S306, the process proceeds to step S307, and if the process is called from step S309, the process proceeds to step S301.
[0066]
In step S407, the CPU 101 selects all of the image data detected in step S406 from the image memory 104, and instructs the communication control unit 109 to execute transmission processing in order. At this time, transmission may be performed in the order of accumulation in the image memory, or some priorities may be set, and transmission may be performed according to the set priorities. After instructing the communication control unit 109 to sequentially transmit, the process proceeds to step S408.
[0067]
In step S408, the communication control unit 109 acquires the image data from the image memory 104 as instructed in step S407, and sequentially transmits the acquired image data to the designated terminal. After starting the transmission process, the process moves to step S409.
[0068]
In step S409, it is determined whether or not the transmission process has been completed normally. If the transmission process has been completed normally, the process ends. If not, the process proceeds to step S410.
[0069]
In step S410, the transmission processing of the image data has not been completed normally for some reason, so that the processing shifts to the normal redial processing. As a result, if the receiving terminal remains in a non-reception state due to reasons such as communicating with another terminal, the processing is performed in steps S401 and S402, the standby time becomes shorter than the setting, and as a result, transmission cannot be performed normally. In this case, transmission can be finally performed by shifting to normal redial processing again.
[0070]
At this time, if the maximum number of times of redial processing is determined by the number of redials or the like, the number of times when transmission in steps S408 and S409 has failed is not counted. In other words, by executing the automatic time switching function, the number of times that the possibility of failure due to the shortened standby time is high is eliminated. Will be higher.
[0071]
If the processing of steps S408, S409, and S410 has been performed for all the image data instructed to immediately call in step S407, the processing is terminated, and the processing is called in step S306. If there is, the process proceeds to step S307, and if it is called in step S309, the process proceeds to step S301.
[0072]
In the above embodiment, as an example of a job waiting to automatically execute a specific process after a specific time has elapsed, a redial process of a facsimile function is assumed, and the specific process is executed at a time designated by a user. As an example of a set job, a timer transmission of facsimile transmission is assumed. However, if the job has the same characteristics, the same effect can be obtained by performing the same process in another process. be able to.
[0073]
However, the job that waits for the specific process to be automatically executed after the specified time elapses, such as the redial process, does not stop after the normal end once. If the function is to continuously execute the same process later (a process of notifying the host server of the status information of the self (image processing apparatus 100) at regular intervals), the process is immediately executed as in step S402. After issuing the instruction, it is necessary to reset the next scheduled execution time (time obtained by adding the standby time to the executed time).
[0074]
According to the above embodiment, when executing the function of automatically switching the time information managed by the image processing apparatus at the start / end of the daylight saving time execution period, the job for executing the specific processing after the specific time has elapsed is in the standby state. In the case of, the function is executed at the time of time switching (immediate execution and processing), so that the function which has been in the standby state due to the execution of the automatic switching of the time information completely ignores the set standby time. It can be prevented from being automatically executed at a timing not to be performed, and a malfunction that may occur with this can be prevented.
[0075]
Accordingly, the functions can be sequentially executed under the initiative of the image processing apparatus within the waiting time without depending on the state at the time of switching, so that the functions can be executed reliably and the user is not confused. .
[0076]
Further, according to the above embodiment, since the job is immediately executed and processed, both can be processed with the same algorithm as the job executed at the time designated by the user, such as the timer transmission of facsimile transmission, and more efficient. The automatic execution of a good job can be monitored and managed. As a result, development, verification, and correction can be performed in a shorter time than before, and the number of design steps can be reduced, and the product cost can be reduced.
[0077]
In the above embodiment, the specified process and control are performed based on the time information management procedure for managing the time information including the current date and time and the time, and the time information obtained in the time information management procedure. A control execution procedure to be executed at a time, information necessary to execute each function in the control execution procedure, image data to be processed, and a data storage procedure for storing a job to be processed; A program for causing the communication device to execute a job execution procedure for executing a specific job in the control execution procedure after waiting for a time set in the data storage procedure, and the control execution procedure includes the data When executing the control to automatically change the time information based on the start / end time information of the daylight saving time period saved in the save procedure, the setting in the job execution procedure is performed. If the user is in a standby state until the time set in the data storage procedure elapses, the time information is stored regardless of the set time and the remaining time until the job is executed. This is an example of a program that is a procedure for instructing the job execution procedure to execute the job immediately so that the job is immediately executed at the same time as the automatic execution.
[0078]
By the way, the image processing apparatus has time information managed by itself, presents the time information to the user based on the time information, or performs specific processing (automatic transmission, automatic printing executed at a time designated by the user). Some of the image processing apparatuses having a function of executing the time information are automatically switched to save time and effort of manually changing the time information generated by the start / end of the daylight saving time period. There is an image processing device having a function.
[0079]
Also, as described above, in order to notify the user of the communication state in facsimile transmission / reception, the image processing apparatus having time information includes the communication start time / end time and the communication time in a communication result report and a communication management report. As described, there is an image processing apparatus that measures the execution start time and end time of a function, and the elapsed time of the execution, and uses the image processing apparatus for control and execution of the function.
[0080]
Switching of the time information accompanying the start / end of the daylight saving time period and measurement of the execution start time and end time of the function, and the measurement of the execution elapsed time are not problematic when performed independently of each other. When executed, inconsistencies may occur in the information being measured.
[0081]
For example, if the start time of the daylight saving time period elapses during communication, the time information is advanced by a specific time, so that an extremely slow communication end time and a long communication time are measured. Similarly, when the summer time end time has elapsed, the time information is changed to the time returned by a specific time after the daylight saving time end time has elapsed, so the phenomenon that the communication end time is earlier than the communication start time is a phenomenon. When the communication time occurs and the communication time is calculated by the formula of “communication time = communication end time−communication start time”, a negative value is calculated. When these inconsistencies occur, information that lacks accuracy is described in the communication management report and the communication result report, and the user is confused.
[0082]
Further, when another function is executed by linking to the execution start / end time and elapsed time of the measured function, for example, there is a function to notify the user when the cumulative communication time of one month exceeds a specific time. In such a case, the linked function may not operate normally and may lead to malfunction.
[0083]
According to the present invention, when measuring a start time, an end time, and an elapsed time of execution of a function / job during execution of a function / job, such as during communication, the time information associated with the elapse of the start / end time of the daylight saving time execution period. The execution of the automatic switching function is prohibited, so that when not prohibited, time inconsistency due to switching of time information is avoided, and malfunctions caused by this inconsistency are avoided. Then, when it is necessary to present the measured time to a user or a service person, accurate time information can be presented.
[0084]
First, an outline of an image processing apparatus 200 for carrying out the present invention will be described.
[0085]
FIG. 5 is a block diagram illustrating a schematic configuration of the image processing apparatus 200.
[0086]
In the image processing apparatus 200, a CPU 201 is a system control unit, and controls the entire image processing apparatus 200.
[0087]
The ROM 202 stores a control program executed by the CPU 201, an embedded operating system (OS) program, and the like. In the above embodiment, each control program stored in the ROM 202 performs software control such as scheduling and a task switch under the management of the embedded OS stored in the ROM 202.
[0088]
The RAM 203 is configured by an SRAM (static RAM) or the like, stores program control variables and the like, stores set values registered by an operator, management data of the image processing apparatus 200, and the like, and is provided with various work buffer areas. ing.
[0089]
The image memory 204 is composed of a DRAM (dynamic RAM) or the like, and stores image data.
[0090]
The data conversion unit 205 performs conversion of image data, such as analysis of a page description language (PDL) and the like, and expansion of character data into CG (computer graphics).
[0091]
The reading control unit 206 reads an image signal obtained by the reading unit 207 optically reading a document using a CIS image sensor (contact image sensor) and converting the image into electrical image data via an image processing control unit (not shown). Various image processing such as binarization processing and halftone processing are performed, and high-definition image data is output. In the above-described embodiment, the reading control unit 206 is compatible with both the sheet reading control method of performing reading while transporting a document and the book reading control method of scanning a document on a document table.
[0092]
The operation display unit 208 includes a numeric input key, a character input key, a one-touch telephone number key, a mode setting key, an enter key, a cancel key, and the like, so that the user can determine image transmission destination data and register setting data. , An operation display unit, and a display unit configured with various keys, LED (light emitting diode), LCD (liquid crystal display), etc., and for performing various input operations by an operator, display of operation status of the image processing apparatus 200, status status, and the like. is there.
[0093]
The communication control unit 209 includes a MODEM (modulator / demodulator), an NCU (network controller), and the like. In the above embodiment, the communication control unit 209 is connected to the analog communication line (PSTN) 231 and performs communication control according to the T30 protocol and line control such as outgoing and incoming calls for the communication line.
[0094]
The resolution conversion processing unit 210 performs resolution conversion control such as millimeter-inch resolution conversion of image data. Note that the resolution conversion processing unit 210 can also perform image data scaling processing.
[0095]
The encoding / decoding processing unit 211 performs encoding / decoding processing on image data (MH, MR, MMR, JBIG, JPEG, etc.) handled by the image processing apparatus 200, and performs scaling processing.
[0096]
The recording control unit 212 performs various image processing such as smoothing processing, recording density correction processing, and color correction on the image data to be printed via an image processing control unit (not shown), and converts the image data into high-definition image data. Output to the recording unit 213 (described later). Further, it also plays a role of periodically acquiring status information data of the recording unit 213.
[0097]
The recording unit 213 is a printing device including a laser beam printer, an inkjet printer, or the like, and prints color image data or monochrome image data on a printing member.
[0098]
The USB function control unit 214 controls communication of the USB interface, performs protocol control according to the USB communication standard, converts data from a USB control task executed by the CPU 201 into a packet, and converts the data into a packet. Then, a USB packet is transmitted, or conversely, a USB packet from an external information processing terminal is converted into data and transmitted to the CPU 201.
[0099]
The components 201 to 206, 208 to 212, and 214 are mutually connected via a CPU bus 215 managed by the CPU 201.
[0100]
The clock unit 116 manages time information such as the current date and time and time, and performs processing such as measurement of operation intervals and notification of time information to the CPU 201. This is composed of a clock IC or the like.
[0101]
Next, an internal setting executed to realize a function of automatic time switching at the start of the daylight saving time execution period (hereinafter, daylight saving time start time) / end (hereinafter, daylight saving time end time) inside the image processing apparatus 200 when the power is turned on. Will be described.
[0102]
FIG. 6 is a flowchart showing a processing operation internally set when the power is turned on in the image processing apparatus 200.
[0103]
In step S <b> 601, the CPU 201 of the image processing apparatus 200 acquires, from the ROM 202 or the RAM 203, information indicating a preset country / region in which the apparatus is used (hereinafter, referred to as “set country information”). When the power is turned on, the set country information is set at the time of factory shipment. After acquiring the set country information, the process moves to step S602.
[0104]
In step S602, the CPU 201 obtains, from the ROM 202 or the RAM 203, information about the daylight saving time start time applied in the country / region indicated by the set country information obtained in step S601, and thereafter uses the control to control the automatic time switching function. For use as information, it is stored in an area of the RAM 203 other than the obtained location. After the storage, the process moves to step S603.
[0105]
In step S603, the CPU 201 acquires, from the ROM 202 or the RAM 203, information on the daylight saving end time applied to the country / region indicated by the set country information acquired in step S601, and thereafter uses the control to control the automatic time switching function. For use as information, it is stored in an area of the RAM 203 other than the obtained location. After the storage, the process moves to step S604.
[0106]
In step S604, the CPU 201 stores information on the time to be advanced / returned (hereinafter, shift time) as the daylight saving time start / end time applied to the country / region indicated by the set country information acquired in step S601 elapses. Alternatively, it is obtained from the RAM 203 and thereafter stored in a different area from the obtained location in the RAM 203 for use as control information used for controlling the automatic time switching function. After the storage, the process proceeds to step S605.
[0107]
In step S605, a flag (hereinafter, referred to as “function execution flag”) indicating whether the automatic time switching function is enabled / disabled due to the elapse of the daylight saving time start / end time, and the execution of the automatic time switching function permitted by the elapse of the daylight saving time start / end time (Hereinafter, referred to as an "automatic switching flag"). This function execution flag is set to the same initial value as information (hereinafter, ON / OFF information) indicating ON / OFF of execution of automatic time switching due to the passage of daylight saving time start / end times.
[0108]
The ON / OFF information can be changed by the user through the operation display unit 208, and is stored in an area of the RAM 203 where user-settable data is stored. The automatic switching flag is set to be switchable (ON) as an initial value. The initial setting value of the automatic switching flag is common to any set country information. When both settings are completed, the internal settings are terminated, and the process shifts to the standby state. At the same time as the transition to the standby state, the time monitoring process is started.
[0109]
Next, as in the case of communication, information on the execution start / end time of the function is notified to the user / other device. Alternatively, a description will be given of a control flow at the time of executing automatic switching of time information with the passage of daylight saving time start / end time in an image processing apparatus which measures elapsed time at the time of executing a function.
[0110]
FIGS. 7 and 8 show the image processing apparatus 200 in which the information of the execution start / end time and the elapsed time of the processing is described by describing the time information in the communication header, the communication start / end time in the communication management / result report, and the communication. 9 is a flowchart illustrating a control operation of facsimile transmission and reception used for describing an execution (elapsed) time and the like, and a control operation of time monitoring for time switching based on elapse of daylight saving start / end times.
[0111]
In step S701, it is determined whether or not the set country information has been changed by the user or serviceman. If the set country information has been changed, the process proceeds to step S702. If the set country information has not been changed, the process proceeds to step S703.
[0112]
In step S702, the fact that the set country information has been changed means that the country / region in which the device is used has been changed, and the summer time start / end time, shift time, It is necessary to reset the function execution flag. The operation of the resetting process is the same operation as the flowchart shown in FIG. Upon completion of the resetting, the process proceeds to step S701.
[0113]
In step S703, it is determined whether the function execution flag is ON. If it is ON, the process proceeds to step S705; otherwise, the process proceeds to step S704. When the ON / OFF information is changed by the user, the changed information is reflected on the flag.
[0114]
In step S704, the automatic switching flag is set to switching disabled (OFF). Since it is recognized that the function execution flag reflecting the ON / OFF information in step S703 is a function execution disabled (OFF) setting, the time information is automatically switched with the passage of the summer time start / end time for some reason. Is not desired by the user. Thereafter, the automatic switching flag monitors the time while the switching is disabled (OFF). After setting the flag, the process proceeds to step S705.
[0115]
In step S705, it is determined whether the user has instructed to start the transmission operation. The transmission start is performed by detecting that a document has been set on the reading unit 207 of the image processing apparatus 200, and specifying that a communication partner has been designated via the operation display unit 208 and reading of the document has been started. 206 is when the CPU 201 is notified. If transmission start is instructed, the process proceeds to step S706; otherwise, the process proceeds to step S707.
[0116]
In step S706, the communication control unit 209 is instructed to start the transmission operation, specifically, to transmit the image data captured by the reading unit 207 in step S705 to the partner terminal. Upon receiving the instruction from the CPU 201, the communication control unit 209 attempts access to the communication partner input in step S705, and notifies the CPU 201 that the connection has been successful if the connection is successful.
[0117]
The CPU 201 stores the time received from the communication control unit 209 as the communication start time, and measures the communication (elapsed) time when the communication (elapsed) time is not determined from the difference between the communication start time and the end time. Start. At the same time, the automatic switching flag is set to switching disabled (OFF), and after this setting, the process proceeds to step S707.
[0118]
In step S707, it is determined whether the start of the receiving operation has been instructed. This is because the CPU 201 can recognize that a connection has been established between the communication control unit 209 and the communication partner, a CI signal or a CNG signal from the partner device has been sensed, and the transmitted facsimile image has been received from the partner terminal. Then, it is determined whether or not the start of the receiving operation has been instructed.
[0119]
At this time, the time when the connection with the communication partner is established is stored as the communication start time, and when the communication (elapsed) time is not determined from the difference between the communication start time and the end time, the communication (elapsed) time is measured. To start. If the start of the receiving operation is instructed, the process proceeds to step S708, and if not, the process proceeds to step S709.
[0120]
In step S708, the reception operation is started, and specifically, the communication control unit 209 starts the operation of transferring the received image data to the image memory 204 according to the facsimile reception procedure, and instructs the image data to be stored in the image memory 204. I do. Then, at the same time, the automatic switching flag is set to switching disabled (OFF), and after this setting, the process proceeds to step S709.
[0121]
In step S709, it is determined whether the daylight saving time acquired in step S602 has passed the time information that is the current time managed by the clock unit 116. If the time has elapsed, the process proceeds to step S710; otherwise, the process proceeds to step S712.
[0122]
In step S710, the statuses of the function execution flag and the automatic switching flag are checked. If both are ON, the process proceeds to step S711; otherwise, the process proceeds to step S712.
[0123]
In step S711, the CPU 201 obtains the current time from the clock unit 116, calculates a time advanced by the shift time obtained in step S604 from the obtained time, and updates the time information managed by the clock unit 116. After this update, the process moves to step S712.
[0124]
In step S712, it is determined whether or not the time information indicating the current time managed by the clock unit 116 has elapsed from the summer time end time acquired in step S603 in FIG. If the time has elapsed, the process proceeds to step S713; otherwise, the process proceeds to step S715.
[0125]
In step S713, the statuses of the function execution flag and the automatic switching flag are checked. If both are ON, the process proceeds to step S714; otherwise, the process proceeds to step S715.
[0126]
In step S714, the CPU 201 obtains the current time from the clock unit 116, calculates the time returned by the shift time obtained in step S604 from the obtained current time, and updates the time information managed by the clock unit 116. Then, after this update, the process moves to step S715.
[0127]
In step S715, it is determined whether the transmission operation started in steps S705 and 706 is being executed. If the reading process of the document in the reading unit 207 and the reading control unit 206 is still continued, and the transmission process of the image data by the communication control unit 209 is continued, the process proceeds to step S716, and if the transmission process is not started. Then, control goes to a step S718.
[0128]
In step S716, it is determined whether the transmission processing has ended, that is, whether the transmission processing has ended and the connection has been disconnected. When the transmission processing is completed, the time at this time is stored as the communication end time, and when the communication (elapsed) time is not obtained from the difference between the communication start time and the end time, the communication (elapsed) time is calculated. The measurement ends, and the process moves to step S717; otherwise, the process moves to step S718.
[0129]
In step S717, since the transmission processing has been completed, switching permission (ON) is set in the automatic switching flag, and after this setting, the process proceeds to step S718.
[0130]
In step S718, it is determined whether the receiving operation started in steps S707 and S708 is being executed. If the reception processing of the image data by the communication control unit 209 is still continued, the process proceeds to step S719, and if the reception operation has not been started, the process proceeds to step S701.
[0131]
In step S719, it is determined whether the reception processing has ended, that is, whether the reception processing has ended and the connection has been disconnected. This end is not when printing of all image data received by the recording control unit 212 and the recording unit 213 ends, but only when communication ends and the connection is disconnected. If the reception processing has ended, the time at this time is stored as the communication end time, the measurement of the communication (elapsed) time ends, and the flow shifts to step S720; otherwise, the flow shifts to step S701. .
[0132]
In step S720, since the reception processing has been completed, switching permission (ON) is set in the automatic switching flag, and after this setting, the process proceeds to step S701.
[0133]
As described above, during the operation of the image processing apparatus 200, in steps S701, S703, S705, S707, S709, S712, S715, and S718, the elapse of the summer time start / end time and the operation status of facsimile transmission and reception are determined. Continue to monitor.
[0134]
Automatic switching of the time information due to the elapse of the summer time start / end time is not executed unless both the function execution flag and the automatic switching flag are ON (steps S710, S713). During the period from the start of execution (steps S705 and S707) to the end (steps S716 and S719) of the transmission / reception processing, that is, while the communication start / end time and the communication (elapsed) time are measured. Since the automatic switching flag cannot be switched (OFF) (steps S706 and S708), the automatic switching of the time information is not executed.
[0135]
During communication (when the automatic switching flag is OFF), even if the daylight saving time start / end time has elapsed, steps S701 to S720 continue to be looped during operation, so that immediately after communication is completed, steps S709 and S712 are passed. Then, automatic switching of the time information is executed.
[0136]
Also, when the time information of the clock unit 116 is returned due to the elapse of the daylight saving time end (step S714), the daylight saving time end time is passed again. In this case, processing is performed so that the time information is not returned repeatedly. There is a need to.
[0137]
The above embodiment is for the case of facsimile transmission / reception. However, the same processing can be applied to a telephone call (call start / end time, call time) using a receiver. Even in the processing / function for measuring only the elapsed time without storing the start / end time, the same effect can be obtained by performing the same processing as described above.
[0138]
In the above embodiment, the specified process and control are performed based on the time information management procedure for managing the time information including the current date and time and the time, and the time information obtained in the time information management procedure. Presents to the user the control execution procedure to be executed at the time, the processing specified at the specific time, the data storage procedure to save the information necessary for the execution of the control, the current time information, and the time information on the function. When the time information presenting procedure and the process designated at the specific time, the execution start time and the execution end time of the control are presented to the user in the time information presenting procedure, the time information presenting procedure is stored in the data saving procedure. A time information switching control prohibiting procedure for prohibiting the control of automatically switching the time information based on the information on the start / end time of the daylight saving time period. It is.
[0139]
The above embodiment can be applied to a communication device other than an image communication device such as a facsimile device.
[0140]
【The invention's effect】
According to the first to seventh aspects of the present invention, when the automatic switching of the time information at the start / end of the daylight saving time execution period is performed, the job is not executed at a timing that completely ignores the set standby time. This has the effect.
[0141]
According to the invention described in claims 8 to 16, when the start time, the end time, and the elapsed time of execution are measured during execution of a function / job, such as during communication, the start / end time of the daylight saving time execution period is determined. By prohibiting the execution of the time information automatic switching function with the passage of time, it is possible to avoid a time inconsistency caused by switching the time information when not prohibiting, thereby not informing the user of the inconsistent time information. This has the effect of preventing the user from being confused and avoiding a malfunction that may occur due to the contradiction.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a schematic configuration of an image processing apparatus 100 according to a first embodiment of the present invention.
FIG. 2 is a flowchart illustrating an internal setting processing operation when the image processing apparatus 100 is powered on.
FIG. 3 is a flowchart showing a time monitoring operation for time switching based on the passage of daylight saving time start time / end time in the image processing apparatus 100;
FIG. 4 is a diagram illustrating a state in which a redial process of facsimile transmission is awaited when performing a process of automatically switching time information as daylight saving time start / end times elapse in the above-described embodiment; 13 is a flowchart illustrating an operation when a time-specified job exists when the timer transmission is set.
FIG. 5 is a block diagram illustrating a schematic configuration of an image processing apparatus 200.
FIG. 6 is a flowchart illustrating a processing operation internally set when the power is turned on in the image processing apparatus 200;
FIG. 7 is a diagram illustrating an example of a description of time information in a communication header, a communication start / end time in a communication management / result report, and a communication execution (elapsed time). 3 is a flowchart showing a control operation of facsimile transmission / reception used for describing time and the like, and a control operation of time monitoring for time switching based on elapse of daylight saving start / end times.
FIG. 8 shows an image processing apparatus 200 including information on its execution start / end time and processing elapsed time, description of time information in a communication header, communication start / end time in a communication management / result report, and communication execution (elapsed time). 3 is a flowchart showing a control operation of facsimile transmission / reception used for describing time and the like, and a control operation of time monitoring for time switching based on elapse of daylight saving start / end times.
[Explanation of symbols]
100, 200 ... image processing device,
101, 201 ... CPU,
102, 202 ... ROM,
103, 203 ... RAM,
104, 204 ... image memory,
105, 205: Data conversion unit.

Claims (16)

Time information management means for managing time information including the current date, time, and time;
Control execution means for executing a specified process at a specific time based on the time information obtained from the time information management means;
The control execution means stores a job including specific time information necessary for executing the specified processing at the specific time and image data to be processed, and information on start / end times of a daylight saving time period. Means for storing data;
The control execution unit executes a specific job at the specific time stored in the data storage unit, and the control execution unit starts a daylight saving time execution period stored in the data storage unit. When executing control for automatically changing the time information based on the information on the / end time, the control execution means is configured to execute the job with respect to the waiting job irrespective of the time for executing the job. A communication device for automatically changing the time information and executing the job. In claim 1,
The communication device, wherein the control execution unit is a unit for automatically re-executing the failed job when the time stored in the data storage unit has come when the executed job is not completed normally. . In claim 1,
The communication device according to claim 1, wherein the control execution unit executes the same job when the time stored in the data storage unit has come, starting from the time of previous execution. In claim 1,
The communication execution means is a means for executing another job when the time stored in the data storage means is reached, starting from the specific job after executing the specific job. apparatus. In any one of claims 1 to 4,
The control execution means stored in the data storage means, the specific time information required to execute the specified process, the input means for externally changing,
A communication apparatus, wherein a user can change a time at which the control execution unit executes a job by the input unit. A time information management step of managing time information including the current date and time and time;
A control execution step of executing a designated process at a specific time based on the time information obtained in the time information management step;
A data storing step of storing a job including specific time information required to execute the specified process at the specific time in the control execution step and image data to be processed;
A daylight saving time determining step of determining whether the current time information is a start / end time of a daylight saving time period;
When the specific time set in the data storage step is reached, a specific job is executed in the control execution step, and control for automatically changing the time information is performed based on the determination in the summer time determination step. A job execution step of automatically changing the time information and executing the job regardless of a time for executing the job for the waiting job;
A method for controlling a communication device, comprising: A time information management procedure for managing time information including the current date, time, and time;
A control execution procedure for executing a designated process at a specific time based on the time information obtained in the time information management procedure;
A data storage procedure for storing a job consisting of specific time information required to execute the designated process at the specific time in the control execution procedure and image data to be processed;
A daylight saving time determination procedure for determining whether the current time information is a start / end time of a daylight saving time period;
When the specific time set in the data storage procedure is reached, a specific job is executed in the control execution procedure, and control for automatically changing the time information is performed based on the determination in the summer time determination procedure. A job execution procedure for automatically changing the time information and executing the job irrespective of the time for executing the job with respect to the waiting job;
A program that causes a computer to execute. Time information management means for managing time information including the current date, time, and time;
Control execution means for executing designated processing and control at a specific time based on time information obtained from the time information management means;
Data storage means for storing the specific time information, the start / end time of the daylight saving time period, and information necessary for executing the control including the process designated at the specific time;
Time information presenting means for presenting current time information and time information relating to the function to the user;
When the process specified at the specific time and the execution start time and the execution end time of the control are presented to the user using the time information presenting means, the summer time stored in the data storing means is provided. Time information switching control prohibiting means for prohibiting control for automatically switching the time information based on information on the start / end times of the implementation period;
A communication device comprising: In claim 8,
Using the time information presentation time, when executing the function of presenting the execution time of the function to the user, based on the information of the start / end time of the daylight saving time period stored in the data storage means, A communication device for inhibiting control for automatically switching the time information. In claim 8,
The communication device has a data exchange unit for transmitting and receiving data to and from another communication device and a computer, and uses the data exchange unit to transmit and receive data to and from another communication device and a computer. When the start time and the end time are notified to the user or the service person by the time information presenting means, based on the information on the start / end time of the daylight saving time period stored in the data storage means, A communication device for inhibiting control for automatically switching the time information. In claim 9,
The communication device has a data exchange unit for transmitting and receiving data to and from another communication device and a computer, and uses the data exchange unit to transmit and receive data to and from another image processing unit and a computer. When the communication time from the start time to the end time is notified to the user or service person by the time information presenting means, the start / end time of the daylight saving time execution period stored in the data storage means is performed. A communication apparatus for prohibiting a control for automatically switching the time information based on the information. A time information management step of managing time information including the current date and time and time;
A control execution step of executing specified processing and control at a specific time based on the time information obtained in the time information management step;
A data storage step of storing the specific time information, the process specified at the specific time, and information necessary for executing control;
A daylight saving time determining step of determining whether the current time information is a start / end time of a daylight saving time period;
A time information presenting step of presenting the user with current time information and time information on the function;
The process specified at the specific time, the execution start time and the execution end time of the control, when presenting to the user in the time information presentation step, based on the determination in the summer time determination step, the time information A time information switching control prohibiting step of prohibiting the control of automatically switching the time;
A method for controlling a communication device, comprising: A time information management procedure for managing time information including the current date, time, and time;
A control execution procedure for executing specified processing and control at a specific time based on the time information obtained in the time information management procedure;
A data storage procedure for storing the specific time information, the process specified at the specific time, and information necessary for executing control;
A daylight saving time determination procedure for determining whether the current time information is a start / end time of a daylight saving time period;
A time information presentation procedure for presenting the user with current time information and time information on the function;
When the process specified at the specific time, the execution start time and the execution end time of the control, are presented to the user in the time information presentation procedure, the time information is determined based on the determination in the summer time determination procedure. A time information switching control prohibiting procedure for prohibiting control for automatically switching the time;
A program that causes a computer to execute. Time information management means for managing time information including the current date, time, and time;
Data storage means for storing control information including a start / end time of a daylight saving time period;
Time information switching means for automatically switching the time information based on information on the start / end time of the daylight saving time period;
Time information switching control prohibiting means for prohibiting switching by the time information switching means when communication is in progress when the start / end time of the daylight saving time period stored in the data storage means is reached;
A communication device comprising: A time information management step of managing time information including the current date and time and time;
A daylight saving time determining step of determining whether the current time information is a start / end time of a daylight saving time period;
A time information switching step of automatically switching the time information based on the determination in the summer time determination step;
A time information switching control prohibiting step of prohibiting the switching in the time information switching step when communication is being performed when the start / end time of the daylight saving time period is reached;
A method for controlling a communication device, comprising: A time information management procedure for managing time information including the current date, time, and time;
A daylight saving time determination procedure for determining whether the current time information is a start / end time of a daylight saving time period;
A time information switching procedure for automatically switching the time information based on the determination in the summer time determination procedure;
A data storage procedure for storing the specific time information, the start / end time of the daylight saving time period, the process specified at the specific time, and information necessary for executing control;
A time information presentation procedure for presenting the user with current time information and time information on the function;
A time information switching control prohibiting procedure for prohibiting the switching in the time information switching procedure when communication is being performed when the start / end time of the daylight saving time period is reached;
A program that causes a computer to execute.

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