JP2004094832A - Updating method, communication system and processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an updating method, a communication system and a processor easily applicable to the diversification of mechanisms and reducing a communication load in receiving a control program from a recorder via communication when updating the control program for controlling processing parts of a processor such as a digital complex machine having various processing parts including a facsimile mechanism and a scanner mechanism. <P>SOLUTION: When a first control program recorded in the processor 100 is updated to a second control program, an updating file integrated with a compressed control program consisting of the plurality of types of compressed second control programs is recorded in the recorder 200, and the updating file is transmitted from the recorder 200 to the processor 100. The processor 100 develops the compressed control program contained in the received updating file to generate the second control program and update the first control program to the second control program. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an updating method for updating a control program of a processing device that executes respective processes based on a plurality of control programs recorded in a recording unit, a communication system to which the method is applied, and a processing device used in the system In particular, the present invention relates to an updating method, a communication system, and a processing apparatus using a digital multi-function peripheral having a plurality of control programs such as a copy, facsimile, printer, and scanner as a processing apparatus.
[0002]
[Prior art]
2. Description of the Related Art In recent years, processing apparatuses provided with various image forming mechanisms such as a PCU mechanism, a facsimile mechanism, a network printer mechanism, and a network scanner mechanism for controlling a copy mechanism have been commercialized as digital multifunction peripherals.
[0003]
Further, in a processing apparatus commercialized as a digital multifunction peripheral, not only various image forming mechanisms but also optional equipment such as a multi-stage paper cassette, a large-capacity paper cassette, and a finisher for paper supply / discharge, for example, are attached. And a wide variety of product configurations.
[0004]
Also, various mechanisms such as a PCU mechanism, a facsimile mechanism, a network printer mechanism, and a network scanner mechanism that constitute the processing unit are realized by executing respective control programs, and the respective control programs are updated due to version upgrade, debugging, or the like. Updated as needed.
[0005]
For the update of the control program, the person in charge of the manufacturing company and the service company goes to the business office where the processing device is installed, and performs the optimal update according to the configuration of various processing devices such as models, mechanisms, and optional devices. The task of repeatedly updating various control programs of each processing device has been a heavy workload for a person in charge.
[0006]
In Japanese Patent Application Laid-Open No. 2001-256057, update data prepared for each model in which a combination of mechanisms constituting a service device (processing device) is set in advance is recorded in a higher-level device. Is connected via a network, the update data is downloaded from the host device to the service device, the update data of the mechanism to be updated included in the update data of the model of the service device is read, and the update data is included in the read update data. A method is disclosed in which a control program is rewritten by executing an update program to be executed to reduce a workload.
[0007]
[Patent Document 1]
JP 2001-256057 A (page 5-7, FIG. 2-6)
[0008]
[Problems to be solved by the invention]
However, in the invention described in Japanese Patent Application Laid-Open No. 2001-256057, the update data recorded in the higher-level device corresponds to a processing device of a model in which a combination of mechanisms is set in advance. However, there is a problem that update data corresponding to a processing apparatus in which the combination of mechanisms is changed according to a customer's request is not recorded as in a digital multifunction peripheral manufactured by CTO.
[0009]
Also, in order to download the update data corresponding to the control program required for the processing device, complicated communication must be performed between the host device and the processing device to determine the required update data. There's a problem.
[0010]
Furthermore, in order to cope with various models in which the combination of mechanisms has been changed, even a duplicate control program must be recorded for each model. There is a problem of recording capacity, which is problematic, and this problem also causes a problem of management of recorded update programs.
[0011]
Since the update program including the control program of each mechanism included in each model is downloaded, the communication load increases, and the communication system may be down.
[0012]
The present invention has been made in view of such circumstances, and is intended to update a control program used for controlling various processing units such as a PCU mechanism and a facsimile mechanism included in a processing device such as a digital multifunction peripheral with a new control program. Then, an update file is created by integrating a compression control program obtained by compressing various control programs, and the created update file is recorded in a recording device that communicates with the processing device. The file is transmitted, and the processing device develops a necessary update file to generate a control program, and updates the generated control program, so that the processing device goes to a business office to update various control programs of the processing device. Control program that not only eliminates the need for a user but also updates each control program of each processing unit provided in the processing device Since it is integrated into the update file, it is possible to respond even if the combination of mechanisms is unique, and even if the combination of mechanisms is diversified, the capacity of the update file does not increase, so An updating method that can be easily managed, and furthermore, the control program is compressed and transmitted, so that an increase in communication load can be prevented, a communication system to which the method is applied, and a processing device used in the system The purpose is to provide.
[0013]
[Means for Solving the Problems]
An update method according to the present invention is an update method for updating the control program of a processing device that executes processing based on a control program recorded in a recording unit, wherein the update method integrates a compression control program obtained by compressing a plurality of control programs. From the recording device that records the update file, an update file is transmitted to the processing device, and the processing device records the update file from among a plurality of compression control programs included in the received update file to the recording unit. Detecting a compression control program corresponding to the control program being executed, expanding the detected compression control program to generate a control program, and updating the control program recorded in the recording means to the generated control program. Features.
[0014]
In the updating method according to the present invention, an update file including a compression control program obtained by compressing the control program is transmitted from the recording device to the processing device, and the processing device expands the compression control program included in the received update file. By updating the control program recorded in the recording means to the program, the control program is transmitted to the processing device by communication and automatically updated, so that the business of the manufacturing company and the service company of the processing device can be performed. It is not necessary for the person in charge of the body to send the control program to the business office where the processing device is installed, and the work for updating is unnecessary, and the control program to be sent is compressed, so when the update file is sent Communication load can be reduced.
[0015]
A communication system according to the present invention includes a recording device that records a plurality of control programs, a processing device that executes respective processes based on the recorded control programs, and a recording device that communicates with the processing device. A communication system for updating a first control program of the processing device to a second control program, wherein the recording device records an update file obtained by integrating a compression control program obtained by compressing a plurality of second control programs. And a means for transmitting the recorded update file to the processing device, wherein the processing device records, in the recording means, a plurality of compression control programs included in the received update file. Means for detecting a compression control program corresponding to the first control program, and expanding the detected compression control program to generate a second control program Means for forming a first control program, characterized in that it comprises means for updating the generated second control program.
[0016]
In the communication system according to the present invention, an update file obtained by integrating a compression control program obtained by compressing a plurality of types of second control programs is transmitted from the recording device to the processing device, and the processing device transmits the update file included in the received update file. By updating the first control program to the second control program in which the control program is developed, the second control program is transmitted to the processing device by communication, and the update is automatically performed. It is not necessary for the person in charge of the service company or the like to deliver the control program to the business site where the processing device is installed, and the work for updating is unnecessary, and the second control program is updated because it is compressed. It is possible to reduce the communication load at the time of transmitting the application file.
[0017]
A processing device according to the present invention is connected to a communication network, includes a control unit, and a plurality of processing units that perform respective processes under the control of the control unit, and records the data in a processing unit recording unit included in each processing unit. In a processing device that executes processing by each processing unit based on each control program, a plurality of first and second control programs are updated from the first control program recorded in the processing unit recording unit to the second control program. (2) Request means for requesting another device connected to the communication network to transmit an update file obtained by integrating the compression control program obtained by compressing the control program, and receiving the update file transmitted in response to the request from the request means And a compression control program corresponding to each of the first control programs recorded in the processing unit recording means from among the plurality of compression control programs included in the received update file. Detecting means for detecting the compression control program, generating means for expanding the detected compression control program to generate a second control program, and adding the first control program recorded in the processing section recording means to the generated second control program. Updating means for updating.
[0018]
In the processing device according to the present invention, an update file obtained by integrating a plurality of types of second control programs into a compression control program is received from the recording device, and the second compression control program included in the received update file is expanded. By updating the first control program to the control program, the second control program is received by communication and automatically updated. Therefore, the person in charge of the business entity such as the processing device manufacturing company and the service company needs to update the control program. It is possible to eliminate the need for the work of updating after delivering the control program to the business office where the processing device is installed, and the respective second control programs of the respective processing units included in the processing device are integrated. Since it is included in the updated file, it is possible to easily cope with the diversification of the combination of the processing units of the processing device, and furthermore, the overlapping second system is used. Since the program does not need to be recorded, it is possible to prevent the update file from increasing in size. Further, since the second control program is compressed, the communication load when transmitting the update file can be reduced. Is possible.
[0019]
In the processing device according to the present invention, the update file includes attribute information indicating an attribute of a second control program, and the detecting unit detects a corresponding compression control program based on the attribute information. It is characterized by the following.
[0020]
In the processing device according to the present invention, the necessary second control program can be easily detected by including attribute information such as the number of the second control programs, version information, the size of the entire file, and data size information. It is.
[0021]
The processing device according to the present invention is characterized in that the attribute information included in the update file is uncompressed.
[0022]
In the processing device according to the present invention, since the attribute information is uncompressed, no decompression process is required when detecting the attribute information, so that the processing is easy, and the attribute information itself is compared with the second control program. Since the size is small, the load at the time of communication does not increase without compression.
[0023]
The processing apparatus according to the present invention further comprises: means for outputting attribute information corresponding to the compression control program detected by the detection means; and means for receiving designation of a compression control program to be expanded based on the output attribute information, The generation means is characterized in that the compression control program that has received the designation is expanded to generate a second control program.
[0024]
In the processing device according to the present invention, only the control program designated by the person in charge can be updated by decompressing only the designated compression control program and generating the second control program. Since it is possible to prevent this, it is possible to reduce the processing load of the expansion processing and shorten the processing time.
[0025]
The processing device according to the present invention is characterized in that the attribute information includes information on a combination of a plurality of second control programs.
[0026]
In the processing device according to the present invention, by displaying information on a combination of a plurality of control programs, it is possible to prevent the operation from being updated to a combination whose operation is not guaranteed.
[0027]
The processing device according to the present invention includes: a control unit recording unit included in the control unit; and a first control program recorded in the processing unit recording unit before updating by the updating unit. And a means for copying the data to a computer.
[0028]
In the processing device according to the present invention, before updating the first control program to the second control program, the first control program is copied to the control unit recording means and saved, so that an abnormality occurs at the time of update. By using the control unit recording means that can be restored to the original state and can be shared by each processing unit as a save destination, the data is saved to the processing unit recording means of each processing unit. Since the recording capacity as a whole can be made smaller than that, the production cost can be reduced.
[0029]
The processing device according to the present invention includes: means for comparing the first control program copied to the control unit recording means and the second control program generated by the generating means; and updating by the updating means based on the result of the comparison. Means for determining the necessity of the above.
[0030]
In the processing apparatus according to the present invention, the first control program before the update saved in the control unit recording means and the second control program developed from the update file are used as collation values for collation of, for example, a sum value. When it is determined that they are the same control program, the update by the second control program is stopped, so that unnecessary update processing can be prevented.
[0031]
The processing device according to the present invention includes: a unit that records the second control program generated by the generation unit in the recording unit for the control unit; and a second control program that is recorded in the recording unit for the control unit by the updating unit. The apparatus further comprises: means for comparing the updated control program with the second control program recorded in the processing unit recording means; and means for determining whether or not the update by the updating means needs to be re-executed based on the result of the comparison. And
[0032]
In the processing device according to the present invention, the generated second control program is recorded in the recording unit for the control unit, and is compared with the second control program recorded in the recording unit for the processing unit after updating by a method such as a verify check. Accordingly, it is possible to detect an update abnormality due to a factor such as a data error occurring during data transfer at the time of updating, and it is possible to re-update when an abnormality is detected.
[0033]
In the processing device according to the present invention, the update file includes a collation value used for collation of a second control program, a means for calculating a collation value of the second control program generated by the generation means, and a calculated collation value. And a means for collating collation values contained in the update file, and a means for judging whether or not updating by the updating means is possible based on the collation result.
[0034]
In the processing device according to the present invention, for example, a collation value such as the sum value of the second control program is included in the update file as attribute information, and the collation value such as the sum value of the second control program after expansion is used. By performing the collation, it is possible to determine whether or not the transmission from the recording device is being performed normally, and it is possible to prevent updating to the second control program including the abnormality.
[0035]
The processing device according to the present invention further includes a unit that compares the reception status of the requested update file with a predetermined determination criterion, and a determination unit that determines whether or not the update unit can update based on a result of the comparison. It is characterized by the following.
[0036]
In the processing device according to the present invention, after receiving the update file from the recording device, the occurrence of an abnormality during communication is detected by comparing the reception status such as the reception time and the size of the update file with a predetermined determination criterion. It is possible to prevent the second control program from being updated based on the update file that is highly likely to have an abnormality during communication.
[0037]
The processing device according to the present invention is characterized in that when the determination unit determines that the update is not possible, the request unit requests retransmission of the update file.
[0038]
In the processing apparatus according to the present invention, for example, when it is determined that an error has occurred during communication and the update file is likely to include the error, and it is determined that the update file cannot be updated, the retransmission of the update file to the recording unit is performed. , It is possible to improve the reliability of updating the second control program.
[0039]
The processing apparatus according to the present invention is characterized by further comprising means for recording history information indicating the history of the update by the updating means.
[0040]
The processing device according to the present invention is in charge of performing an operation by recording an update history, outputting the recorded history as necessary, such as displaying, printing, and transferring it to another device. Since the user can check the update history, it is possible to support continuous system management and take appropriate measures when an abnormality occurs.
[0041]
In the processing device according to the present invention, the attribute information includes creation time information indicating a creation time of a second control program, the history information includes update time information indicating a time updated by the updating unit, A means for comparing the creation time information included in the information and the update time information included in the history information; and a means for determining whether or not the updating by the updating means is necessary, based on the comparison result. .
[0042]
In the processing device according to the present invention, the generation time and the update time of the second control program are compared, and when it is determined that the generation time is newer than the update time, the second control program is updated to prevent an erroneous update to an older version. It is possible.
[0043]
The processing device according to the present invention further includes means for detecting a change in the processing unit, and the requesting means, when a change in the processing unit is detected, transmits transmission of the update file to another communication network. It is characterized in that it is provided with what is required of the device.
[0044]
In the processing device according to the present invention, by requesting the transmission of the update file when the processing unit is changed, even if the control program corresponding to the changed processing unit does not exist in the processing device, the communication network can be connected to the communication network. Since it can be received from another device to be connected, it is possible to cope with a change in the mechanism.
[0045]
The processing device according to the present invention includes: a unit that records a use state of each of the plurality of processing units; and a unit that determines whether update by the update unit is necessary based on the recorded use state. It is characterized by.
[0046]
In the processing device according to the present invention, based on the use status of each processing unit, the necessity of updating is determined, so that only the control program of the processing unit with high use frequency is updated, and the control program with low use frequency or low use frequency is not used. Since it is possible to prevent the control program of the processing unit from being updated, it is possible to reduce the processing load of the expansion processing and shorten the processing time.
[0047]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
Hereinafter, the present invention will be described in detail with reference to the drawings showing the embodiments.
FIG. 1 is a block diagram showing the configuration of the communication system of the present invention.
In the figure, reference numerals 100, 100, ... denote processing devices such as digital multifunction peripherals, and the processing devices 100, 100, ... are connected to an internal communication network NWi such as a LAN.
[0048]
Are provided with various mechanisms such as a facsimile mechanism, a PCU (Process Control Unit) mechanism for controlling a copy mechanism, a printer mechanism, and a scanner mechanism. Each of the processing apparatuses 100, 100,. The mechanisms provided are variously combined according to the respective applications, and the specifications such as versions are not necessarily the same even with the same mechanism.
[0049]
A recording device 200 that communicates with the processing devices 100, 100,... Is connected to the internal communication network NWi. The recording device 200 connects to an external communication network NWo such as the Internet, and connects the processing devices 100, 100,. .. Are connected to a business entity device 300 managed by a business entity such as a service company that provides services related to the manufacturing company and the processing devices 100, 100,.
[0050]
FIG. 2 is a block diagram showing a configuration of the processing device 100 and the recording device 200 used in the communication system of the present invention.
The processing apparatus 100 includes a control unit 10 that controls the entire apparatus and various processing units 20, 20,... Such as a facsimile mechanism, a PCU mechanism, a printer mechanism, and a scanner mechanism that perform respective processes under the control of the control unit 10. Have.
[0051]
The control unit 10 includes a CPU 11 that controls each circuit in the control unit 10, and a first memory 12 such as a flash memory that stores a control program executed by the CPU 11. The control unit 10 performs various processes by executing the control program being executed by the control unit 10.
The first memory 12 also records history information indicating an update history, and usage conditions such as the number of times and frequency of use of each of the processing units 20, 20,....
The control unit 10 is connected to the internal communication network NWi and communicates with the recording device 200 via an external device interface (external device I / F) 13, and various information such as programs and data received via the external device interface 13. A second memory 14 for temporarily recording the information, a decompression circuit 15 for performing decompression processing when the information recorded in the second memory 14 is compressed information, and a program decompressed by the decompression circuit 15. A third memory (control unit recording means) 16 for recording information such as data is provided.
Further, the control unit 10 includes a bus interface (bus I / F) 17 for communicating with each of the processing units 20, 20,... And an input / output unit 18 such as a liquid crystal touch panel for accepting input operations and outputting (displaying) various information. It has.
[0052]
The processing unit 20 includes a CPU 21 for controlling each circuit in the processing unit 20, a first memory (processing unit recording unit) 22 such as a flash memory for recording various information such as a control program, and stores temporarily generated information. A second memory 23, and a bus interface (bus I / F) 24 for communicating with the control unit 10. The control program reads a control program recorded in the first memory 22 under the control of the CPU 21. The processing unit 20 executes various processing such as facsimile processing and copy processing by storing and executing the processing in the second memory 23.
[0053]
The recording device 200 is a device using a computer such as a server computer, and includes a CPU 201 that controls the entire device, a first memory 202 such as a hard disk that records information such as various programs and data, and stores temporarily generated information. A second memory 203 such as a RAM, and an internal communication unit 204 connected to the internal communication network NWi and an external communication unit 205 connected to the external communication network NWo.
The first memory 202 included in the recording device 200 stores an update file obtained by integrating compression control programs obtained by compressing a plurality of types of control programs for controlling the various processing units 20, 20,. It is recorded and transmitted to the processing device 100 as needed.
It is also possible to receive the update file from the enterprise device 300 via the external communication network NWo.
[0054]
Next, the update file transmitted from the recording device 200 to the processing device 100 will be described.
FIG. 3 is an explanatory diagram conceptually showing a configuration of an update file transmitted from the recording device 200 to the processing device 100 used in the communication system of the present invention.
The update file includes uncompressed attribute information and a compression control program obtained by compressing and integrating a plurality of types of control programs.
The attribute information includes information indicating the attribute of the entire update file and information indicating the attribute of each control program.
The compression control program is information obtained by compressing control programs for controlling the control unit 10 and the various processing units 20, respectively, and the compression programs are included in the update file in an integrated state.
[0055]
FIG. 4 is an explanatory diagram conceptually showing the structure of attribute information included in the update file used in the communication system of the present invention.
Information indicating the attributes of the entire update file includes ID information indicating a manufacturer and a product, format information indicating a compression format of a compression control program included in the update file and a format of the update file itself, and an update file. This is information such as creation time information indicating its own creation date and time, a file name, a data size, the number of control programs included as a compression control program, and reception conditions.
Note that the reception condition indicates a condition relating to communication such as a reception time and the number of detected errors at the time of reception.
The information indicating the attribute of each control program is information indicating the attribute of the control program for the control unit 10 included in the processing device 100 and the attribute of the control program for the various processing units 20, and specifically, Control program ID information, version information, pre-compression and post-compression data sizes, collation values such as sum values used for collation of control programs, and creation time information indicating the creation time of control programs and information such as combination information. .
[0056]
FIG. 5 is an explanatory diagram conceptually showing the configuration of the compression control program included in the update file used in the communication system of the present invention.
The update file includes a control program for the control unit 10, a control program for the processing unit 20 as a PCU mechanism, a control program for the processing unit 20 as a scanner mechanism, and a control program for the processing unit 20 as a facsimile mechanism. Is recorded as a compression control program compressed for each mechanism.
Each of the compression control programs includes various information such as ID information of the control program, attribute information of the control program, and data as the control program main body in a compressed state.
There may be a plurality of control programs corresponding to each mechanism. For example, as a control program of the PCU mechanism, 45 CPM indicating the specifications of a copier capable of printing 45 sheets per minute and 35 CPM of 35 sheets Two kinds of control programs such as 35 CPM which is a specification may be included. Similarly, two kinds of control programs such as a control program for a monochrome scanner and a control program for a color scanner are used as a control program for a scanner mechanism. May be included.
When a plurality of types of control programs exist for one mechanism, the data may be divided into common data and data of a difference that differs for each control program.
[0057]
Next, processing of various devices used in the communication system of the present invention will be described. In the following description, for convenience, a control program pre-recorded in the processing unit 20 included in the processing device 100 is referred to as a first control program, and is included in a compressed state in an update file transmitted from the recording device 200 to the processing device 100. The control program to be executed will be described as a second control program.
FIG. 6 is a flowchart showing an update file transmission / reception process of the processing device 100 and the recording device 200 used in the communication system of the present invention.
The recording device 200 communicates with the business entity device 300 via, for example, the external communication network NWo, and updates the update file recorded in the first memory 202 as necessary.
[0058]
The processing device 100 performs processing for updating the control program when the processing unit 20 is changed and when an input for instructing the update of the control program is received.
That is, in the processing device 100, an input for detecting a change of the processing unit 20 or for instructing the update of the control program is received (S101), whereby the mode shifts to the control program update mode and the first program stored in the first memory 22 is recorded. In order to update the first control program to the second control program, request information for requesting transmission of a new update file is transmitted to the recording device 200 connected to the internal communication network NWi via the external device interface 13 (S102). .
Note that by setting conditions in advance in addition to detecting a change in the processing unit 20 and accepting an input instructing an update of the control program, the mode can be shifted to the control program update mode.
[0059]
The recording device 200 monitors information addressed to itself, which is transmitted on the internal communication network NWi, and receives the request information requesting transmission of the update file from the processing device 100 via the internal communication network NWi. (S103), the update file is extracted from the first memory 202 (S104), and the extracted update file is transmitted to the processing device 100 that has transmitted the request information (S105).
[0060]
The processing device 100 receives the update file transmitted in response to the request information via the internal communication network NWi and the external device interface 13 (S106), and records the received update file in the second memory 14. (S107), it is determined whether or not the reception of the update file has been completed. If it is determined that the reception has been completed, the attribute information included in the update file is read (S108), and the read attribute information indicates the attribute information. A predetermined determination criterion is compared with the reception status (S109), and based on the comparison result, it is determined whether the control program can be updated (S110).
The predetermined criterion indicated by the read attribute information is a criterion such as a reception condition such as a reception time included in the attribute information, a data size of an update file, and the number of control programs. The information to be compared is also information corresponding to these criteria.
[0061]
In step S110, when it is determined that the communication has been normally completed and the control program can be updated by comparing the reception status and the determination criterion (S110: YES), the update file transmission / reception process is completed.
[0062]
In step S110, when it is determined that an abnormality has occurred during communication based on the comparison between the reception status and the determination criterion, and it is not possible to update the second control program based on the received update file (S110: NO), returning to step S102, retransmitting the request information (S102), and repeating the subsequent processing.
Instead of retransmitting the request information, information indicating that an error has occurred at the time of reception may be output from the input / output unit 18 to complete the processing.
In this way, it is possible to prevent the second control program from being updated based on the update file that is likely to contain an abnormality during communication.
[0063]
FIGS. 7 and 8 are flowcharts showing a control program update process of the processing device 100 used in the communication system of the present invention.
In the processing device 100 that has determined that the update file has been normally received, the update file is recorded in the first memory 12 of the control unit 10 and the first memories 22, 22,... Of the plurality of processing units 20, 20,. Attribute information such as combination information, version information, configuration, and ID number of the first control program is detected (S201), and further, attribute information of the second control program included in the received update file is detected (S202). In the processing device 100, based on a comparison between the attribute information of the first control program detected in step S201 and the attribute information included in the update file detected in step S202, the plurality of types of compression included in the update file are determined. From the control programs, a compression control program corresponding to each first control program recorded in the first memory 22 is detected (S203).
Next, the processing device 100 detects creation time information, which is attribute information of the second control program corresponding to the detected compression control program, included in the update file (S204), and further corresponds to the second control program. The history information indicating the history such as update time information indicating the update time recorded in the first memory 12 of the processing unit 20 is detected (S205), and the time indicated by the creation time information and the update included in the history information are detected. The timing indicated by the timing information is compared (S206), and it is determined whether or not updating is necessary based on the comparison result (S207).
[0064]
In step S207, when it is determined that the time indicated by the creation time information is later than the time indicated by the update time information and the update is necessary (S207: YES), the processing device 100 records the time in the first memory 12. The creation time information, which is the attribute information of the first control program, is detected (S208), the time indicated by the creation time information, which is the attribute information of the second control program, and the creation time information, which is the attribute information of the first control program. Are compared (S209), and it is determined whether or not the update is necessary based on the comparison result (S210).
[0065]
In step S210, when it is determined that the time indicated by the creation time information, which is the attribute information of the second control program, is newer than the time indicated by the creation time information, which is the attribute information of the first control program, and that updating is necessary (S210). : YES), the processing device 100 expands the detected compression control program by the expansion circuit 15 to generate a second control program (S211), and records the generated second control program in the third memory 16 of the control unit 10. (S212).
[0066]
In the processing device 100, the code of the second control program recorded in the third memory 16 is arranged in a matrix format, and a sum value that is a total value in the row direction and the column direction is calculated as a collation value (S213). The calculated sum value is compared with the sum value included in the attribute information of the update file (S214), and whether the second control program can be updated is determined based on the result of the comparison (S215).
Note that the collation value calculated in step S213 and collated in step S214 is not limited to the sum value, but may be a value used for parity check as long as the value can be used for collation. May be combined.
[0067]
In the processing device 100, in step S215, when it is determined that the second control program is normally developed and there is no problem even if updated (S215: YES), the second control program is recorded in the first memory 22 of the corresponding processing unit 20. An update processing subroutine for updating the existing first control program to the generated second control program is started (S216).
[0068]
Then, the processing device 100 determines whether or not there is another processing unit 20 that requires updating of the control program (S217). If there is no processing unit 20 that requires updating of the control program (S217: NO), it indicates the time of update. The history information indicating the history such as the update time information is recorded in the first memory 12 (S218), the completion information indicating that the update processing is completed is output from the input / output means 18 (S219), and the update processing of the control program is performed. Complete.
[0069]
In step S207, when it is determined that the time indicated by the creation time information is older than the time indicated by the update time information and that the update of the second control program is unnecessary (S207: NO), the process proceeds to step S217, and It is determined whether there is a processing unit 20 that should update the control program (S217).
[0070]
In step S210, the time indicated by the creation time information that is the attribute information of the second control program is older than the time that is indicated by the creation time information that is the attribute information of the first control program, and it is not necessary to update the second control program. (S210: NO), the process proceeds to step S217, and it is determined whether or not there is another processing unit 20 that needs to update the control program (S217).
[0071]
In step S217, if there is another processing unit 20 that needs to update the control program (S217: YES), the process returns to step S203 and the subsequent processes are repeated.
In step S215, when it is determined that the second control program is not properly developed and should not be updated (S215: NO), an output indicating that the generated second control program is abnormal is performed, and Abnormal processing for stopping the update processing is performed (S220).
[0072]
Note that the history information recorded in the first memory 12 in step S218 can be subjected to output processing such as display, printing, and transfer to another device as necessary. By confirming the history, it is possible to support continuous system management and perform appropriate processing when an abnormality occurs.
[0073]
FIG. 9 is a flowchart showing an update processing subroutine of the processing device 100 used in the communication system of the present invention.
As processing by the update processing subroutine started in step S216 of the control program update processing described with reference to FIGS. 7 and 8, the processing apparatus 100 corresponds to the second control program developed and generated in step S211. Then, the first control program recorded in the first memory 22 of the processing unit 20 is copied to the third memory 16 of the control unit 10 (S301).
That is, before the first control program is updated to the second control program, the normally operating first control program is saved.
[0074]
Then, in the processing device 100, the first control program and the second control program in the third memory 16 are collated by a method such as a verify check (S302), and it is determined whether or not the update is necessary based on the collation result (S303).
Note that the collation in step S302 may be such that the respective sum values are calculated and the calculated sum values are collated instead of collating the first control program and the second control program themselves.
[0075]
In step S303, when it is determined that the first control program and the second control program do not match and are different versions and need to be updated (S303: YES), the processing device 100 determines in the corresponding processing unit The first control program recorded in the one memory 22 is updated to the second control program (S304).
[0076]
The processing device 100 determines whether there is an abnormality in the data size based on the size of the second control program recorded in the first memory 22 and the data size of the second control program which is the attribute information included in the update file. (S305).
[0077]
If it is determined in step S305 that the data size is normal (S305: YES), the processing device 100 processes the second control program recorded in the third memory 16 of the control unit 10 by the update process in step S304. The data is collated with the second control program recorded in the first memory 22 of the unit 20 (S306), and based on the collation result, it is determined whether the update needs to be re-executed (S307).
[0078]
In step S307, the second control program recorded in the third memory 16 of the control unit 10 and the second control program recorded in the first memory 22 of the processing unit 20 match, and it is not necessary to execute update again. If determined (S307: NO), the processing device 100 calculates the sum value of the second control program recorded in the first memory 22 of the processing unit 20 as a collation value (S308), and updates the calculated sum value. The collation is performed with a collation value which is a sum value included in the attribute information of the file for use (S309), and it is determined whether or not re-execution of the update is necessary based on the collation result (S310).
In step S310, when it is determined that the collation values match and it is not necessary to execute the update again (S310: NO), the processing device 100 ends the update processing subroutine.
[0079]
In step S303, if it is determined that the first control program and the second control program are the same and the versions are the same and do not need to be updated (S303: NO), the update processing subroutine for the second control program ends. I do.
[0080]
If it is determined in step S305 that the data size is abnormal (S305: NO), in step S307, the second control program recorded in the third memory 16 of the control unit 10 and the first memory 22 of the processing unit 20 Does not match, and it is determined that re-execution of the update is necessary (S307: YES), in step S310, the sum values do not match, and the re-execution of the update is necessary. (S310: YES), the process returns to step S302, and the process related to re-execution of the update is repeated.
[0081]
Note that the number of abnormalities such as a mismatch in the collation values is counted, and when the counted number reaches a predetermined value, information indicating that normal updating has not been performed is output, and the abnormality processing subroutine is started. Then, the update processing subroutine ends.
[0082]
FIG. 10 is a flowchart showing an abnormality processing subroutine of the processing device 100 used in the communication system of the present invention.
As processing by the abnormality processing subroutine started by the update processing subroutine described with reference to FIG. 9, in the processing device 100, the second control program recorded in the first memory 22 of the processing unit 20 is returned to the first control program. It is determined whether or not it is (S401).
[0083]
When it is determined in step S401 that the processing returns to the first control program (S401: YES), the processing device 100 determines whether the second control program recorded in the first memory of the processing unit 20 includes boot software. Is determined (S402).
[0084]
If it is determined in step S402 that the second control program does not include boot software (S402: NO), the processing device 200 corresponds to the first control program copied to the third memory 16 of the control unit 10. The data is re-recorded in the first memory of the processing unit 20 (S403), an output for notifying that the program has returned to the original control program is performed, and the abnormality processing subroutine ends.
[0085]
In step S402, when it is determined that the boot software is incorporated in the second control program (S402: YES), in the processing device 200, only the changed part of the first control program copied to the third memory 16 of the control unit 10 Is re-recorded in the first memory of the corresponding processing section 20 (S404), an output notifying that the operator in charge of the operation has returned to the original control program is output from the output means 18, and the abnormality processing subroutine is terminated. .
[0086]
If it is determined in step S401 that the process does not return to the first control program (S401: NO), the abnormality processing subroutine ends.
[0087]
Embodiment 2 FIG.
The second embodiment is a mode in which a control program to be updated is manually selected in the first embodiment.
Note that the configurations of the communication system, various devices, and the update file are the same as those of the first embodiment, and therefore, the first embodiment is referred to and the description is omitted.
[0088]
FIG. 11 is a flowchart showing a control program update process of the processing device 100 used in the communication system of the present invention.
In the processing device 100 that has determined that the update file has been normally received by the same update file transmission / reception processing as in the first embodiment, the version of the second control program corresponding to the compression control program included in the received update file is used. Attribute information such as information, creation time information and combination information is detected (S501), and the detected attribute information such as version information, creation time information and combination information is output from the input / output means 18 (S502).
The combination information is information indicating the compatibility of the combination of the second control programs corresponding to the respective processing units 20, 20,..., And the control programs of the respective processing units 20, 20,. When updated, the processing unit 20 is likely to cause an abnormal operation due to, for example, a difference in the use of the memory.
[0089]
Then, the person in charge of operating the processing apparatus 100 checks the output attribute information, and inputs to the input / output means 18 a control program to be updated, that is, a compression control program to be expanded into the second control program.
The processing device 100 receives the designation of the compression control program to be expanded into the second control program (S503), and determines whether it is appropriate to update the second control program corresponding to the accepted compression control program with the combination information. It is determined based on attribute information such as (S504).
[0090]
If it is determined in step S504 that the update is appropriate (S504: YES), the processing device 100 proceeds to step S211 and subsequent steps in the control program update process of the first embodiment described with reference to FIGS. 7 and 8. The processing, that is, the compression control program that has received the designation is expanded by the expansion circuit 15 to generate a second control program (S211). After various checks, an update processing subroutine is started (S216), and the corresponding processing unit is started. 20. A process of updating the first control program to the second control program is executed.
[0091]
If it is determined in step S504 that updating is not appropriate (S504: NO), the processing device 100 outputs information indicating that updating is inappropriate from the input / output unit 18 (S505). If the mode is the automatic correction mode (S506: YES), a compression control program to be expanded into the second control program is determined based on the attribute information (S507).
In the processing device 100, the processing after step S211 in the control program update processing according to the first embodiment described with reference to FIGS. 7 and 8, that is, the determined compression control program is expanded by the expansion circuit 15, and the second control program Is generated (S211), and after various checks, an update processing subroutine is started (S216), and processing for updating the first control program of the corresponding processing unit 20 to the second control program is executed.
[0092]
If the mode is not the automatic correction mode in step 506 (S506: NO), the process returns to step S502, requests the designation of the compression control program again, and repeats the subsequent processing.
In step S506, after outputting information indicating that updating is inappropriate, the control program updating process may be stopped.
[0093]
Embodiment 3 FIG.
The third embodiment is different from the first embodiment in which the control programs of all the processing units 20 are updated to the latest recommended combinations, and is a mode in which a control program to be updated is determined based on the frequency of use of the processing units 20.
Note that the configurations of the communication system, various devices, and the update file are the same as those of the first embodiment, and therefore, the first embodiment is referred to and the description is omitted.
[0094]
FIG. 12 is a flowchart showing a control program update process of the processing device 100 used in the communication system of the present invention.
In the processing device 100 that has determined that the update file has been normally received by the same update file transmission / reception processing as in the first embodiment, the first memories 22, 22,... Of the plurality of processing units 20, 20,. (Step S601), and further detects the attribute information of the second control program included in the received update file. (S602).
[0095]
The processing device 100 performs processing to be updated in the control program based on a comparison between the attribute information of the first control program detected in step S601 and the attribute information included in the update file detected in step S602. .. Are selected (S603).
Further, in the processing device 100, information indicating the use status such as the number of uses and the use frequency of the processing units 20, 20, ... selected in step S603, which is recorded in the first memory 12 of the control unit 10, is extracted ( S604), the usage status of the selected processing units 20, 20,... Is compared with a preset reference (S605), and it is determined whether or not updating is necessary based on the comparison result (S606).
[0096]
In step S606, when it is determined that the selected processing units 20, 20,... Are used more than the preset reference and need to be updated (S606: YES), the processing device 100 7 and FIG. 8, the processing unit 20 selected in step S603 from the compression control program included in the update file from the processing after step S203 in the control program update processing according to the first embodiment. ,... Are detected (S203), and after various checks, a second control program is generated (S211), and an update processing subroutine is started (S216). Of the first control program to the second control program.
[0097]
If it is determined in step S606 that the selected processing units 20, 20,... Are less than the preset reference and that updating is not necessary (S606: NO), the control program updating process ends.
[0098]
Even if it is determined that the usage status of the selected processing units 20, 20,. If no, the processing for updating the first control program to the second control program is executed by the same processing as when the usage status of the processing units 20, 20,.
[0099]
In this way, by determining the necessity of updating based on the use status of each processing unit 20, 20,..., Only the control program of the processing unit 20, 20,. .. Can be prevented from being updated, the processing load of the expansion processing can be reduced, and the processing time can be shortened.
[0100]
Next, various information output from the input / output unit 18 included in the processing apparatus 100 of the present invention will be described.
FIG. 13 is an explanatory diagram illustrating an image output from the input / output unit 18 included in the processing apparatus 100 of the present invention.
FIG. 13 shows an image in which the history information recorded in the first memory 12 is output in step S218 of the control program update process described with reference to FIGS.
[0101]
In the example shown in FIG. 13, the name “machine X” is shown as the model name of the processing device above the image, and is recorded in the first memory 12 of the control unit 10 as “current ROM VERSION” below that. ., Attribute information indicating the version and update date of the control program recorded in the first memory 22 of each processing unit 20, 20,... And the update method.
[0102]
From FIG. 13, the processing unit is a PCU mechanism whose version of the control program recorded in the first memory 12 of the control unit 10 indicated as “MAIN” is “V1.00” and “PCU”. The version of the control program recorded in the first memory 22 of the control unit 20 is “V1.00”, and the control program recorded in the first memory 22 of the processing unit 20 which is a scanner mechanism indicated as “SCANNER”. Is "V1.00B".
As the updating method, words such as “factory shipping”, “automatic updating”, and “manual updating” are indicated.
[0103]
In the lower part of the image, a history of updating the control program as “version upgrade LOG” is shown. In the example shown in FIG. 13, information on the factory shipment and two updates is shown.
In each history, the update date, update method, and version are shown in association with each other. The word “OK” indicated with an arrow to the left of the information indicating the version indicates that the update was successful. ing.
[0104]
FIG. 14 is an explanatory diagram showing an image output from the input / output unit 18 provided in the processing device 100 of the present invention.
FIG. 14A shows an image output when the compression control program to be expanded to the second control program and to perform the update process is specified in step S503 of the control program update process described with reference to FIG. I have.
In the example shown in FIG. 14A, the update is based on the update file with the file name “AAAAA” above the image, and the update file is created on the date indicated as “2001.XX.XX”. It is shown that
[0105]
In addition, the wording “Writing ALL OK?” Is shown, and it is possible to select whether or not to update the control programs of the plurality of processing units 20, 20,. .. Can be updated collectively by designating “Yes”, and by designating “No”, the person in charge of operating the control program 100 can update the control program. Can be specified for each of the processing units 20, 20,..., And by specifying "CA", the process can be terminated without performing the update.
[0106]
Further, below the image, the processing units 20, 20,... And the updated versions thereof are referred to as “MAIN: V1.00”, “PCU: V1.0.45”, and “SCANNER: V1.00.B”. It is shown.
[0107]
When the person in charge of operating the processing device 100 selects to specify whether the control program can be updated for each of the processing units 20, 20,... By specifying "Yes" or "No" to the wording "Writing OK?" Shown in the figure, it is possible to specify whether the control program needs to be updated for each of the processing units 20, 20,. Can be.
[0108]
FIG. 14B illustrates an image in which the completion information indicating that the update processing has been completed is output in step S219 of the control program update processing.
In FIG. 14B, in addition to the information described with reference to FIG. 14A, the words “Result: OK” and the image The word "ALL OK !!" is shown below, indicating that the update processing has been completed without any problem.
It goes without saying that the content and format of the images shown in FIGS. 14A and 14B are changed according to the number of pixels of the input / output unit 18.
[0109]
FIG. 15 is an explanatory diagram illustrating an image output from the input / output unit 18 included in the processing device 100 of the present invention.
FIG. 15 illustrates an image of the combination information output as the attribute information in step S502 of the control program update process described with reference to FIG.
As shown in FIG. 15, the combination information is output in the form of a table showing the compatibility of each version of the control unit 10 and each of the processing units 20, 20,.
In the example shown in FIG. 15, it is shown that there are three versions of the control program of the control unit 10 as "controller", and similarly, "PCU" is the version of the control program of the processing unit 20 which is a PCU mechanism. It is shown that there are three versions of the control program of the processing unit 20 which is a scanner mechanism as "SCAN", and two versions of the control program of the processing unit 20 which is a facsimile mechanism as "FAX". I have.
And the compatibility of each version is indicated by the symbol of "◎", "○" and "x", and the combination with good compatibility is shown as "◎" or "○", and "◎" is particularly recommended This indicates a combination.
Incompatible combinations are shown as "x".
[0110]
For example, when the control program of the control unit 10 is version 1.01 created on February 25, 2001, the control program of the processing unit 20 which is a PCU mechanism has compatibility between versions 1.00 and 1.01. It can be seen from FIG. 15 that version 1.01 is a good combination and version 2.00 is incompatible with version 2.00.
Further, the control program of the processing unit 20 as the scanner mechanism is not compatible with any version, and when the processing unit 20 as the scanner mechanism is used, the control program of the control unit 10 needs to be version 2.00. is there.
[0111]
Below the compatibility table, the update history of the control program indicates that the current control program was updated on February 25, 2001. Further below, it is shown that the current control program of the control unit 10 is version 1.01 updated on February 25, 2001, and the control program of the processing unit 20 which is a PCU mechanism is shown. Is version 1.01 updated on February 25, 2001.
It is shown that the processing unit 20 as the scanner mechanism and the processing unit 20 as the facsimile mechanism do not exist at present.
[0112]
Below that, the version of the control program to be changed is shown, and the person in charge determines whether the control program needs to be updated based on the version before and after the change and the combination information.
[0113]
In the above embodiment, the processing apparatus is a digital multifunction peripheral having a mechanism such as a facsimile mechanism and a scanner mechanism. However, the present invention is not limited to this. The present invention can be applied to various devices as long as it is controlled by the control program described above.
[0114]
【The invention's effect】
As described in detail above, the updating method, the communication system, and the processing device according to the present invention use a processing device such as a digital multifunction peripheral that operates based on the control of the control program and a recording device that communicates with the processing device, and record the data in the processing device. When the first control program is updated to the second control program, an update file obtained by integrating a plurality of types of second control programs into a compression control program is recorded in the recording device, and the processing is performed by the recording device. By transmitting the update file to the apparatus, the processing apparatus expands the compression control program included in the received update file to generate a second control program, and updates the first control program to the second control program. Since the second control program is received by communication and updated, the responsibility of business entities such as a processing device manufacturing company and a service company is obtained. It is possible for the user to send the control program to the business establishment where the processing device is installed, and to eliminate the work for updating, and the second control program for each processing unit included in the processing device can be eliminated. Is included in the update file, it is possible to easily cope with the diversification of combinations of the processing units of the processing device, and it is not necessary to record the duplicated second control program. It is possible to prevent the capacity of the update file from increasing, and furthermore, the second control program is compressed, so that the communication load at the time of transmitting the update file can be reduced. To play.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a communication system according to the present invention.
FIG. 2 is a block diagram showing a configuration of a processing device and a recording device used in the communication system of the present invention.
FIG. 3 is an explanatory diagram conceptually showing a configuration of an update file transmitted from a recording device to a processing device used in the communication system of the present invention.
FIG. 4 is an explanatory diagram conceptually showing a configuration of attribute information included in an update file used in the communication system of the present invention.
FIG. 5 is an explanatory diagram conceptually showing a configuration of a compression control program included in an update file used in the communication system of the present invention.
FIG. 6 is a flowchart showing an update file transmission / reception process of the processing device and the recording device used in the communication system of the present invention.
FIG. 7 is a flowchart showing a control program update process of a processing device used in the communication system of the present invention.
FIG. 8 is a flowchart showing a control program update process of a processing device used in the communication system of the present invention.
FIG. 9 is a flowchart showing an update processing subroutine of the processing device used in the communication system of the present invention.
FIG. 10 is a flowchart showing an abnormality processing subroutine of a processing device used in the communication system of the present invention.
FIG. 11 is a flowchart showing a control program update process of a processing device used in the communication system of the present invention.
FIG. 12 is a flowchart showing a control program update process of a processing device used in the communication system of the present invention.
FIG. 13 is an explanatory diagram showing an image output from input / output means provided in the processing device of the present invention.
FIG. 14 is an explanatory diagram showing an image output from input / output means provided in the processing device of the present invention.
FIG. 15 is an explanatory diagram showing an image output from input / output means provided in the processing device of the present invention.
[Explanation of symbols]
100 processing equipment
200 recording device
300 business equipment
10 control unit
20 processing unit
NWi internal communication network
NWo external communication network

Claims (17)

In an updating method for updating the control program of a processing device that executes processing based on a control program recorded in a recording unit,
From a recording device that records an update file that integrates a compression control program obtained by compressing a plurality of control programs, transmits an update file to the processing device,
The processing device comprises:
From among the plurality of compression control programs included in the received update file, a compression control program corresponding to the control program recorded in the recording unit is detected,
Expand the detected compression control program to generate a control program,
An update method, wherein the control program recorded in the recording means is updated to a generated control program. A processing device that has a recording unit that records a plurality of control programs, and executes respective processes based on the recorded control programs; and a recording device that communicates with the processing device. In a communication system for updating one control program to a second control program,
The recording device,
Means for recording an update file obtained by integrating a compression control program obtained by compressing a plurality of second control programs;
Means for transmitting the recorded update file to the processing device,
The processing device includes:
Means for detecting a compression control program corresponding to the first control program recorded in the recording means from a plurality of compression control programs included in the received update file;
Means for expanding the detected compression control program to generate a second control program;
Means for updating the first control program to the generated second control program. A control unit is connected to the communication network, and includes a plurality of processing units that perform respective processes under the control of the control unit. Based on the respective control programs recorded in the processing unit recording means of each of the processing units. In a processing device that executes processing by each processing unit,
In order to update the first control program recorded in the recording unit for the processing unit to the second control program, the transmission of the update file integrating the compression control programs obtained by compressing the plurality of second control programs is connected to the communication network. Requesting means for requesting another device to
Means for receiving an update file transmitted in response to the request of the requesting means;
Detecting means for detecting, from among the plurality of compression control programs included in the received update file, a compression control program corresponding to each of the first control programs recorded in the processing unit recording means;
Generating means for expanding the detected compression control program to generate a second control program;
A processing apparatus, comprising: the generated second control program; and updating means for updating the first control program recorded in the processing unit recording means. The update file includes attribute information indicating an attribute of the second control program,
4. The processing apparatus according to claim 3, wherein the detection unit detects a corresponding compression control program based on the attribute information. The processing apparatus according to claim 4, wherein the attribute information included in the update file is uncompressed. Means for outputting attribute information corresponding to the compression control program detected by the detection means,
Means for receiving designation of a compression control program to be expanded based on the output attribute information,
The processing apparatus according to claim 4, wherein the generation unit expands the compression control program that has received the specification to generate a second control program. The processing device according to claim 6, wherein the attribute information includes information on a combination of a plurality of second control programs. Control unit recording means of the control unit,
8. The apparatus according to claim 4, further comprising: means for copying the first control program recorded in the processing unit recording means to the control unit recording means before updating by the updating means. A processing device according to any one of the above. Means for comparing the first control program copied to the control unit recording means and the second control program generated by the generation means,
9. The processing apparatus according to claim 8, further comprising: means for determining whether or not the updating by the updating means is necessary, based on a result of the comparison. Means for recording the second control program generated by the generating means in the control unit recording means;
Means for comparing the second control program recorded in the control unit recording means with the second control program updated by the updating means and recorded in the processing unit recording means;
The processing apparatus according to claim 8, further comprising: a unit configured to determine whether re-execution of updating by the updating unit is necessary based on a result of the comparison. The update file includes a collation value used for collation of the second control program,
Means for calculating a collation value of the second control program generated by the generating means;
Means for comparing the calculated matching value and the matching value included in the update file;
The processing apparatus according to claim 4, further comprising: a unit configured to determine whether or not the updating unit can perform the update based on a result of the comparison. Means for comparing the reception status of the requested update file with a predetermined criterion,
The processing apparatus according to claim 4, further comprising: a determination unit configured to determine whether or not the update by the update unit is possible based on a result of the comparison. 13. The processing apparatus according to claim 12, wherein when the determination unit determines that the update is not possible, the request unit requests a retransmission of the update file. 14. The processing apparatus according to claim 4, further comprising: means for recording history information indicating a history of updating by said updating means. The attribute information includes creation time information indicating a creation time of the second control program,
The history information includes update time information indicating a time of update by the update unit,
Means for comparing the creation time information included in the attribute information and the update time information included in the history information,
15. The processing apparatus according to claim 14, further comprising: a unit that determines whether or not the updating unit needs to be updated based on a result of the comparison. A means for detecting a change in the processing unit,
5. The apparatus according to claim 4, wherein when the change of the processing unit is detected, the request unit requests the other device connected to the communication network to transmit the update file. 6. The processing device according to claim 15. Means for recording the use status of each of the plurality of processing units,
17. The processing apparatus according to claim 4, further comprising: means for determining whether or not updating by said updating means is necessary, based on the recorded usage status.

Images