JP2006254280A - Terminal device and image processing system with same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a terminal device with which an output speed of data in a printer can be surely prevented from being decelerated, and to provide an image processing system with the same. <P>SOLUTION: In each of a plurality of terminal devices 10, data for printing-out are compressed using a prescribed compression method and compressibility, and these compressed data are transmitted from each of the plurality of terminal devices 10 through a LAN 30 to a printer 20. At this point, in accordance with a processing status of the printer 20 represented by the operating situation of the printer 20 and the amount of non-processed data included in the printer 20 and a status of communication with the printer 20 represented by the time from the start of compressed data transmission from a terminal devices 10 to the printer 20 to the reception, in the terminal device 10, of a signal indicating the end of expansion of the compressed data transmitted from the printer 20, the compression method and compressibility of data to be next transmitted from the terminal device 10 to the printer 20 are changed. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for compressing data transmitted to a printer, a terminal device capable of changing the compression rate, and an image processing system for printing data transmitted from the terminal device in a printer.

  Conventionally, in order to reduce the burden on the communication path between the terminal device and the receiving device and avoid the increase in the memory capacity of the receiving device, the terminal device compresses data to reduce the amount of data, and this A technique is known in which compressed data is transferred from a terminal device to a receiving device, and the compressed data is decompressed in the receiving device. And, when transferring data from the terminal device to the receiving device, by changing the data compression capacity of the terminal device according to the data processing capacity of the terminal device and the communication speed between the terminal device and the receiving device, The entire system can be optimized.

  As a system configured as described above, an image forming apparatus that optimizes the processing of the printer and the host terminal by changing the compression rate of the image data transmitted from the host terminal to the printer according to the processing capability of each host terminal. Has been proposed (see Patent Document 1).

In this image forming apparatus, the compression method and compression rate of image data provided in the printer driver of the host terminal are transmitted to the printer and stored in the printer. Then, the image data for compression / decompression speed measurement divided into a plurality of parts is compressed with variously set compression methods and compression ratios and transmitted from the host terminal to the printer in accordance with instructions from the printer. The decompression of the compression / decompression speed measurement image data sent from the host terminal is completed after the printer instructs the host terminal to compress the compression / decompression speed measurement image data using the compression / decompression time measurement timer. The time until receiving a signal indicating that is measured. Thereafter, the printer transmits the compression / decompression speed measurement image data compression method and compression ratio, which have been measured by the compression / decompression time measurement timer, to the host terminal as the optimal compression method and compression ratio of the image data. As a result, the optimum compression method and compression rate of the image data when the image data is transmitted from the host terminal to the printer are determined.
Japanese Patent Laid-Open No. 10-29349

  As described above, in the image forming apparatus, the compression / decompression time measurement timer installed in the printer has the shortest measurement time, and the compression method and compression rate measurement image data compression method and compression ratio are optimized. By using the method and compression rate, the processing of the host terminal and the printer is optimized.

  However, in the image forming apparatus, since the processing state of the printer is not taken into consideration, all of the divided image data is set in advance regardless of the amount of unprocessed image data in the printer. If the image data is compressed and transmitted to the printer, the output speed of the image data in the printer may be reduced. The image forming apparatus has a configuration in which the host terminal and the printer are directly connected, and the load on the communication path between the host terminal and the printer in the case where the host terminal and the printer are connected via a LAN. Therefore, the output speed of the image data in the printer may be reduced depending on the load on the communication path.

  SUMMARY An advantage of some aspects of the invention is that it provides a terminal device that can reliably prevent a decrease in data output speed in a printer and an image processing system including the terminal device. .

  In order to achieve the above object, an image processing system according to the present invention includes a terminal device that compresses and transmits data for print output, and data that is decompressed after receiving data transmitted from the terminal device. An image processing system comprising: a printer that forms an image based on the print output; and a printer that temporarily stores data transmitted from the terminal device, and controls an overall operation of the printer A control unit configured to form an image based on the data extracted from the storage unit and perform printout, and the terminal device may be configured according to a usage rate of the control unit and a data amount stored in the storage unit. The processing status of the printer represented and the compressed data sent from the printer from the start of sending the compressed data to the printer The compression changing means for changing the compression method and compression ratio of data to be transmitted to the printer next according to the communication state with the printer represented by the time until receiving the signal indicating that the decompression is completed It is characterized by providing.

  In the image processing system configured as described above, the terminal device converts a document or drawing document data into print document data including information on the format of the document data, and the print document data is converted to the printer. A printer driver that converts the print data into a print data that can be processed by the terminal device, and the terminal device converts the print document data transmitted from the terminal device into print data that can be printed on the receiving side and the reception When the terminal device communicates with the printer having firmware that stores the format of the document data that can be converted into the side print data, the terminal side print data that receives the format of the document data is stored in the firmware. If it is confirmed that it exists in the format of the document data that can be converted to The printing document data is converted into the printing document data by the program, and the printing document data is compressed by the compression method and the compression ratio determined by the compression ratio changing unit, and transmitted to the printer, while the terminal device transmits the document data Is not present in the format of the document data that can be converted into the reception side print data stored in the firmware, or the terminal side device transmits the transmission side print. When communicating with the printer including firmware for converting data into the receiving-side print data, the terminal device converts the document data into the print document data using the program, and then converts the print document data into the print data. The transmission side print data is converted into the transmission side print data by a printer driver. Is compressed in serial compression method and compression ratio compression changing means decides to send to the printer.

  As described above, the format of data to be transmitted from the terminal device to the printer is changed depending on whether or not the printer has firmware that stores the format of document data that can be converted into the reception-side print data. In addition, when the printer has firmware that stores the format of the document data that can be converted into the reception-side print data, the document data format is included in the format of the document data that can be converted into the reception-side print data that is stored in the firmware. The format of data to be transmitted from the terminal device to the printer is changed depending on whether it exists.

  At this time, the format of the document data is a font format in the document data and an image format in the document data. Examples of the font format in the document data include MSP Gothic, MSP Mincho, MS Gothic, and MS Mincho. Examples of the document data image format include JPEG, PNG, TIFF, BMP, and GIF.

  In each of the image processing systems described above, when the plurality of terminal devices and the printer are connected by a LAN and communication between each of the plurality of terminal devices and the printer is performed through a router, the router Monitoring the degree of congestion of the communication path between the router and the printer, and the compression changing means transmitting data to the printer according to the degree of congestion of the communication path between the router and the printer Change the compression method and compression ratio.

  When the communication path between the router monitored by the router and the printer is highly congested, the compression change means sends the data to the printer in order to minimize the burden on the communication path between the terminal device and the printer. A compression method and a compression rate that reduce the amount of data to be transmitted are selected, and data to be transmitted to the printer is compressed with a predetermined compression method and compression rate.

  At this time, according to the congestion degree of the communication path between the router and the printer, the router gives an order to transmit the data transmitted from each of the plurality of terminal devices to the printer, The data transmitted from each of the plurality of terminal devices may be transmitted to the printer in order from the data with the highest priority.

  As described above, the router communicates between the router and the printer based on the compression rate and the data amount of the data transmitted from each of the plurality of terminal devices according to the degree of congestion of the communication path between the router and the printer. The load on the route is calculated for the data transmitted from each of the plurality of terminal devices. Based on the calculation result, the router transmits data to the printer in order starting from data with less burden on the communication path between the router and the printer.

  In order to achieve the above object, a terminal device of the present invention is a terminal device in any one of the above-described image processing systems, and is stored in the usage rate of the control unit and the storage unit in the printer. The processing state of the printer represented by the data amount and a signal indicating that the decompression of the compressed data transmitted from the printer has been completed since the transmission of the compressed data to the printer is started is received. And a compression changing means for changing a compression method and a compression rate of data to be transmitted to the printer next according to a communication state with the printer represented by the time until.

  According to the present invention, the data compression method and the compression rate by the compression changing means are changed according to the processing state of the printer and the communication state between the terminal device and the printer. The load on the communication path can be reliably reduced to prevent an increase in data transmission time from the terminal device to the printer, and the printer can always be kept in the optimum processing state, and the data output speed at the printer Can be reliably prevented. Further, according to the present invention, the compression changing means changes the compression method and the compression rate of the data to be transmitted to the printer according to the congestion degree of the communication path between the router monitored by the router and the printer, thereby The load on the communication path between each of the terminal devices and the printer can be more reliably reduced, and a decrease in the data output speed in the printer can be more reliably prevented.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

<< Embodiment of the Invention >>
As shown in FIG. 1, the image processing system according to the present embodiment includes a plurality of terminal devices 10 to which documents and drawings are input, a printer 20 that communicates with the plurality of terminal devices 10 and prints documents and drawings. It is comprised by. In addition, each of a plurality of terminal devices 10 on the transmission side and the printer 20 on the reception side are connected by a LAN (Local Area Network) 30.

  In the image processing system configured as described above, each of the plurality of terminal devices 10 includes a transmission / reception unit 11 connected to the LAN 30 and communicating with the printer 20, and an input such as a keyboard and a mouse operated by an operator. Unit 12, a storage unit 13 that stores various programs and stores data when operating these programs, a display unit 14 that displays according to the driven program, a transmission / reception unit 11, And a control unit 15 that controls the operations of the input unit 12 and the display unit 13.

  Then, the storage unit 13 creates document data obtained by converting the document or drawing into data according to the operation of the input unit 12 and creates document data for printing when an instruction to print the document or drawing is given through the input unit 12. A printer driver that stores application programs and converts print document data into bitmap print data that can be processed by the printer 20 (hereinafter referred to as “print data on the transmission side”), document data, and print document data As the format of the transmission side print data, the font information and image format of the document data, and the compression method and compression rate of the print document data and the transmission side print data are stored.

  The storage unit 13 stores formats such as MSP Gothic, MSP Mincho, MS Gothic, and MS Mincho as font information of document data, and JPEG, PNG, TIFF, BMP as image formats of document data. , And GIF format. The storage unit 13 stores formats such as LZH, RAR, and ZIP as compression methods for print document data and transmission side print data, and a plurality of compression ratios for print document data and transmission side print data. Stores the compression rate set for each stage.

  Further, the display unit 14 displays a screen for creating a document or drawing by the application program. Then, calculation processing by an application program is performed according to the operation of the input unit 12, whereby a document or a drawing is displayed on the display unit 14 and document data in which the document or the drawing is converted into data is created.

  Furthermore, the control unit 15 prints or transmits the print document data or the transmission data at a predetermined compression method and compression rate by the compression changing unit based on the compression method and compression rate of the print document data and the transmission side print data stored in the storage unit 13. Compress side print data. The control unit 15 also transmits the print document data or the transmission print data transmitted from the printer 20 after the transmission / reception unit 11 of the terminal apparatus 10 starts transmitting the print document data or the transmission print data to the printer 20. A timer is provided for measuring the time until receiving a signal indicating that the decompression process has ended.

  In the image processing system configured as described above, the printer 20 includes a transmission / reception unit 21 that is connected to the LAN 30 and communicates with each of the plurality of terminal devices 10, and print data that can be printed (hereinafter referred to as “print data”). Stores firmware that stores document data formats that can be converted into “reception-side print data” and print document data that can be decompressed and transmitted from the terminal device 10 or a compression method for transmission-side print data. An image based on the recording medium 22, the memory 23 for temporarily storing the print document data or the transmission-side print data before and after decompression, and the reception-side print data generated from the print document data or the transmission-side print data Forming the image forming unit 24 for performing printing processing and receiving side print data after decompressing the print document data or the transmission side print data And a control unit 25 for controlling the respective operations of the transceiver 21 and the image forming unit 24, the converts.

  Then, the recording medium 22 stores the font format and image format of the document data as the format of the document data that can be converted into the reception-side print data. The recording medium 22 stores formats such as MSP Gothic, MSP Mincho, MS Gothic, and MS Mincho as font information of document data, and JPEG, PNG, TIFF, BMP as image formats of document data. , And GIF format are stored. Further, the recording medium 22 stores formats such as LZH, RAR, and ZIP as compression methods for printable document data that can be expanded and print data on the transmission side.

  The flow of the image processing system configured as described above will be described with reference to the sequence diagram shown in FIG. In consideration of the case where the printer driver included in the terminal device 10 and the firmware version included in the printer 20 are different, the format of the document data stored in the storage unit 13 of each of the terminal devices 10 and the recording medium 22 of the printer 20 This includes the case where the format of the document data that can be converted into the receiving-side print data stored in the file does not match.

  First, when an application program stored in the storage unit 13 of the terminal device 10 is activated and printing of document data is instructed through the input unit 12 of the terminal device 10, the control unit 15 of the terminal device 10 uses the input unit 12. A process for confirming the print instruction and printing the document data is started (step S11). Then, the control unit 15 of the terminal device 10 analyzes document data to be printed (step S12). At this time, the control unit 15 of the terminal device 10 confirms the font format and the image format of the document data as the format of the document data.

  Subsequently, according to an instruction from the control unit 15 of the terminal device 10, a small amount of data of about 100 bytes representing the format of the document data is transmitted from the transmission / reception unit 11 of the terminal device 10 to the printer 20 via the LAN 30 (step S13). When data representing the format of document data is transmitted from the transmission / reception unit 11 of the terminal device 10 to the printer 20, a timer installed in the control unit 15 is started (step S14).

  When the transmission / reception unit 21 of the printer 20 receives the data representing the format of the document data transmitted from the terminal device 10, the control unit 25 analyzes the data. Then, the control unit 25 of the printer 20 compares the format of the document data obtained by analyzing the data with the format of the document data that can be converted into the reception-side print data stored in the recording medium 22, and print document data It is determined which of the print data on the transmission side converted into the bitmap format should be requested to the terminal device 10 (step S15). Further, the control unit 25 of the printer 20 checks the usage rate of the control unit 25 and the free capacity of the memory 23 as the processing state of the printer 20 (step S16).

  Subsequently, in response to an instruction from the control unit 25 of the printer 20, a signal indicating which of the print document data and the transmission side print data converted into the bitmap format is requested to the terminal device 10 and the processing state of the printer 20. Is transmitted from the transmission / reception unit 21 to the terminal device 10 through the LAN 30 (step S17).

  In other words, the control unit 25 of the printer 20 has confirmed that the format of the document data transmitted from the terminal device 10 exists in the format of the document data that can be converted into the reception-side print data stored in the recording medium 22. At this time, the control unit 25 of the printer 20 analyzes the font format and the image format in the print document data and determines that the receiving side print data can be generated from the print document data. Accordingly, a request is made from the transmission / reception unit 21 of the printer 20 to the terminal device 10 to transmit the print document data not converted into the bitmap format to the printer 20 (see step S17).

  On the other hand, the control unit 25 of the printer 20 has confirmed that the format of the document data transmitted from the terminal device 10 does not exist in the format of the document data that can be converted into the reception-side print data stored in the recording medium 22. At this time, the control unit 25 of the printer 20 analyzes the font format and the image format in the print document data and determines that it is impossible to generate the reception-side print data from the print document data. Accordingly, a request is made from the transmission / reception unit 21 of the printer 20 to the terminal device 10 to transmit the transmission side print data converted into the bitmap format to the printer 20 (see step S17).

  Thereafter, the transmission / reception unit 11 of the terminal device 10 transmits a signal indicating which of the printing document data transmitted from the printer 20 and the transmission side print data converted into the bitmap format to the printer 20 and the printer 20. When the data representing the processing state is received, the timer installed in the control unit 15 is stopped (step S18), and the control unit 15 analyzes the data.

  Then, the control unit 15 of the terminal device 10 confirms that the printer 20 is requesting transmission of the transmission side print data converted into the bitmap format based on the analysis result of the data transmitted from the printer 20 in step S17. Then, first, print document data including a plurality of data blocks is generated from the document data by the application program.

  Here, when one of the data blocks in the document data for printing is composed of, for example, text data for forming a document, coordinate information indicating the coordinate position in the print image with respect to the text constituting the data block. And character number information indicating the number of characters in the text, font information indicating the font format of the text, and the contents of the text are recorded. In addition, when one of the data blocks in the document data for printing is constituted by, for example, graphic data for forming a graphic, coordinate information indicating the coordinate position in the print image with respect to the graphic constituting the data block, The size information indicating the size of the figure and the contents of the figure are recorded.

  Next, the document data for printing generated in this way is converted into the transmission print data in the bitmap format expressed in binary by the printer driver stored in the storage unit 13 in the control unit 15 of the terminal device 10. Conversion is performed (step S19). Then, the transmission side print data generated by the printer driver is temporarily stored in the storage unit 13 of the terminal device 10.

  Alternatively, the control unit 15 of the terminal device 10 requests that the printer 20 request transmission of print document data that has not been converted into the bitmap format based on the analysis result of the data transmitted from the printer 20 in step S17. Upon confirmation, the application program generates print document data including a plurality of data blocks from the document data. The configuration of the document data for printing is the same as the configuration described above, and thus the description thereof is omitted. Then, the print document data generated by the application program is temporarily stored in the storage unit 13 of the terminal device 10.

  Subsequently, the control unit 15 of the terminal device 10 refers to the compression method and compression rate of the transmission-side print data or print document data stored in the storage unit 13 and uses the compression change unit to determine the timer measurement time and the printer. Based on the data representing the processing state 20, the compression method and the compression rate of the transmission-side print data or print document data to be transmitted to the printer 20 are determined (step S20).

  At this time, if the usage rate of the control unit 25 in the data representing the processing state of the printer 20 is high and the free capacity of the memory 23 is small, it takes more time for the printer 20 to print unprocessed data. Guessed. For this reason, using the time during which the printer 20 is printing unprocessed data, the terminal device 10 compresses the transmission-side print data or print document data. Therefore, the higher the usage rate of the control unit 25 in the data representing the processing state of the printer 20 and the smaller the free capacity of the memory 23, the higher the compression rate of the transmission-side print data or print document data is set. Reduce the data volume of the sending print data or print document data to be sent. Thereby, the burden concerning the communication path | route between the terminal device 10 and the printer 20 can be reduced.

  On the other hand, as the usage rate of the control unit 25 in the data representing the processing state of the printer 20 is lower and the free space in the memory 23 is larger, the time required for the printer 20 to print unprocessed data is reduced. Presumed to be. For this reason, the compression time of the transmission print data or print document data in the terminal device 10 is shortened so that the compression rate from the terminal device 10 to the printer 20 is low, that is, the transmission print data or print document data having a large amount of data. The printer 20 can immediately shift to the printing process for the transmission-side print data or the print document data even if is transmitted. Therefore, as the usage rate of the control unit 25 in the data representing the processing state of the printer 20 is lower and the free space of the memory 23 is larger, the compression rate of the transmission side print data or the document data for printing is lowered to the printer 20. Increase the data volume of the sending print data or print document data to be sent.

  At this time, it is estimated that the longer the measurement time of the timer installed in the control unit 15 of the terminal device 10, the higher the degree of congestion of the communication path between the terminal device 10 and the printer 20. For this reason, the longer the measurement time of the timer installed in the control unit 15 of the terminal device 10, the higher the compression rate of the transmission side print data or print document data, and the transmission side print data or print data to be transmitted to the printer 20 Reduce the amount of document data. Thereby, the burden concerning the communication path | route between the terminal device 10 and the printer 20 can be reduced.

  On the other hand, at this time, it is estimated that the shorter the measurement time of the timer installed in the control unit 15 of the terminal device 10, the lower the degree of congestion of the communication path between the terminal device 10 and the printer 20. For this reason, the shorter the measurement time of the timer installed in the control unit 15 of the terminal device 10 is, the lower the compression rate of the transmission side print data or print document data is, and the transmission side print data or print data that is transmitted to the printer 20 is transmitted. Increase the amount of document data.

  Note that when the usage rate of the control unit 25 in the data representing the processing state of the printer 20 is low and the free space of the memory 23 is large, or the measurement time of a timer installed in the control unit 15 of the terminal device 10 is short. At this time, it is also possible to transmit the transmission side print data or the print document data from the terminal device 10 to the printer 20 without being compressed in accordance with the data amount of the transmission side print data or the print document data.

  Then, the control unit 15 of the terminal device 10 divides the transmission-side print data or print document data stored in the storage unit 13, retrieves it from the storage unit 13, and first transmits it to the printer 20. The document data for printing is compressed by the compression method and compression rate determined in step S20, and the compressed transmission side print data or print document data is stored in the storage unit 13 again. Thereafter, in response to an instruction from the control unit 15 of the terminal device 10, transmission-side print data or print document data compressed with a predetermined compression method and compression rate is retrieved from the storage unit 13, and sent from the transmission / reception unit 11 to the printer 20 through the LAN 30. It is transmitted (step S21). Further, when the compressed transmission-side print data or print document data is transmitted from the transmission / reception unit 11 of the terminal device 10 to the printer 20, the count of the timer installed in the control unit 15 is reset to zero, and the timer is set. Start (step S22).

  When the transmission / reception unit 21 of the printer 20 receives the transmission side print data or the print document data transmitted from the terminal device 10, the control unit 25 analyzes this data. When the control unit 25 of the printer 20 confirms that the data transmitted from the terminal device 10 is transmission-side print data or print document data, the transmission-side print data or print document data is temporarily stored in the memory 23. Memorize.

  Here, in this image processing system, a plurality of terminal devices 10 are connected to the printer 20 via the LAN 30, and the transmission side print data or printing document data transmitted from the terminal device 10 is stored in the memory 23 of the printer 20. Accumulated and stored. The control unit 25 of the printer 20 sequentially extracts and expands the transmission side print data or print document data stored in the memory 23 (step S23), and stores the expanded transmission side print data or print document data in the memory. 23 is temporarily stored.

  Thereafter, the control unit 25 of the printer 20 sequentially extracts the decompressed transmission-side print data or print document data stored in the memory 23, converts them into bitmap-format reception-side print data that can be printed out by firmware, and The receiving side print data is transmitted to the image forming unit 24. The image forming unit 24 of the printer 20 creates an image based on the reception side print data and prints the image on a recording sheet.

  When the expansion of the transmission side print data or print document data transmitted from the terminal device 10 in step S21 is completed, the control unit 25 of the printer 20 sets the usage rate and the control unit 25 as the processing state of the printer 20. The free capacity of the memory 23 is confirmed (step S24). Then, in response to an instruction from the control unit 25 of the printer 20, a signal indicating that the expansion of the transmission-side print data or print document data and data indicating the processing state of the printer 20 are transmitted from the transmission / reception unit 21 to the terminal device via the LAN 30. 10 (step S25).

  When the transmission / reception unit 11 of the terminal device 10 receives a signal indicating that the expansion of the transmission-side print data or print document data transmitted from the printer 20 and data indicating the processing state of the printer 20 are received, the control unit 15 Is stopped (step S26), and the control unit 15 analyzes this data.

  Subsequently, the control unit 15 of the terminal device 10 refers to the compression method and compression rate of the transmission-side print data or print document data stored in the storage unit 13 and uses the compression change unit to determine the timer measurement time and the printer. Based on the data representing the processing state 20, the compression method and the compression rate of the transmission side print data or print document data to be transmitted to the printer 20 are determined (step S27).

  Then, the control unit 15 of the terminal device 10 divides the transmission-side print data or print document data stored in the storage unit 13, retrieves it from the storage unit 13, and then transmits it to the printer 20. The document data for printing is compressed by the compression method and compression rate determined in step S27, and the compressed transmission side print data or print document data is stored in the storage unit 13 again. Thereafter, in response to an instruction from the control unit 15 of the terminal device 10, transmission-side print data or print document data compressed with a predetermined compression method and compression rate is retrieved from the storage unit 13, and sent from the transmission / reception unit 11 to the printer 20 through the LAN 30. It is transmitted (step S28). Further, when the compressed transmission-side print data or print document data is transmitted from the transmission / reception unit 11 of the terminal device 10 to the printer 20, the count of the timer installed in the control unit 15 is reset to zero, and the timer is set. Start (step S29).

  When the transmission / reception unit 21 of the printer 20 receives the transmission side print data or the print document data transmitted from the terminal device 10, the control unit 25 analyzes this data. When the control unit 25 of the printer 20 confirms that the data transmitted from the terminal device 10 is transmission-side print data or print document data, the transmission-side print data or print document data is temporarily stored in the memory 23. Memorize.

  Subsequently, the control unit 25 of the printer 20 sequentially extracts and expands the transmission side print data or the print document data stored in the memory 23 (step S30), and expands the expanded transmission side print data or the print document data. It is temporarily stored in the memory 23.

  Thereafter, the control unit 25 of the printer 20 sequentially extracts the decompressed transmission-side print data or printing document data stored in the memory 23, converts it into bitmap-side reception-side print data that can be printed out by firmware, This reception side print data is transmitted to the image forming unit 24. The image forming unit 24 of the printer 20 creates an image based on the reception side print data and prints the image on a recording sheet.

  When the expansion of the transmission side print data or print document data transmitted from the terminal device 10 in step S28 is completed, the control unit 25 of the printer 20 sets the usage rate and the control unit 25 as the processing state of the printer 20. The free capacity of the memory 23 is confirmed (step S31). Then, in response to an instruction from the control unit 25 of the printer 20, a signal indicating that the expansion of the transmission-side print data or print document data and data indicating the processing state of the printer 20 are transmitted from the transmission / reception unit 21 to the terminal device via the LAN 30. 10 (step S32).

  As described above, according to the measurement time of the timer installed in the control unit 15 of the terminal device 10 and the processing state of the printer 20, transmission-side print data or print document transmitted from the terminal device 10 to the printer 20 through the LAN 30. The data compression method and compression rate are changed. When there are n transmission-side print data or print document data to be transmitted separately from the terminal device 10 to the printer 20, the (n-1) th transmission-side print data or print document data is expanded. A signal indicating completion and data indicating the processing state of the printer 20 are transmitted from the transmission / reception unit 21 of the printer 20 to the terminal device 10 via the LAN 30 (step S33).

  The transmission / reception unit 11 of the terminal device 10 receives a signal indicating that the expansion of the (n−1) th transmission side print data or print document data transmitted from the printer 20 is completed, and data indicating the processing state of the printer 20. Is received, the timer installed in the control unit 15 stops (step S34), and the control unit 15 analyzes this data.

  Subsequently, the control unit 15 of the terminal device 10 refers to the compression method and the compression rate of the transmission side print data or print document data stored in the storage unit 13, and uses the compression change unit to determine the timer measurement time and the printer 20. And the compression method and compression rate of the transmission-side print data or print document data to be transmitted to the printer 20 are determined based on the data representing the processing state (step S35).

  Then, the control unit 15 of the terminal device 10 takes out the nth transmission-side print data or print document data stored in the storage unit 13 from the storage unit 13 and transmits the nth transmission-side print data or print to the printer 20. The document data for printing is compressed by the compression method and compression rate determined in step S35, and the compressed transmission side print data or print document data is stored in the storage unit 13 again. Thereafter, in response to an instruction from the control unit 15 of the terminal device 10, transmission-side print data or print document data compressed with a predetermined compression method and compression rate is retrieved from the storage unit 13, and sent from the transmission / reception unit 11 to the printer 20 through the LAN 30. It is transmitted (step S36).

  When the transmission / reception unit 21 of the printer 20 receives the transmission side print data or the print document data transmitted from the terminal device 10, the control unit 25 analyzes this data. When the control unit 25 of the printer 20 confirms that the data transmitted from the terminal device 10 is transmission-side print data or print document data, the transmission-side print data or print document data is temporarily stored in the memory 23. Memorize.

  Subsequently, the control unit 25 of the printer 20 sequentially extracts and expands the transmission side print data or print document data stored in the memory 23 (step S37), and expands the expanded transmission side print data or print document data. It is temporarily stored in the memory 23.

  Thereafter, the control unit 25 of the printer 20 sequentially extracts the decompressed transmission-side print data or printing document data stored in the memory 23, converts it into bitmap-side reception-side print data that can be printed out by firmware, This reception side print data is transmitted to the image forming unit 24. The image forming unit 24 of the printer 20 creates an image based on the reception side print data and prints the image on a recording sheet.

  When the expansion of the nth transmission side print data or print document data transmitted from the terminal device 10 in step S36 is completed, the transmission side print data or the print document data is instructed by the control unit 25 of the printer 20. A signal indicating that the decompression has ended is transmitted from the transmitting / receiving unit 21 to the terminal device 10 via the LAN 30 (step S38).

  When the transmission / reception unit 11 of the terminal device 10 receives a signal indicating that the expansion of the transmission-side print data or print document data transmitted from the printer 20 has been completed, the control unit 15 analyzes this data. When the control unit 15 of the terminal apparatus 10 confirms that all of the n-side transmission side print data or print document data has been transmitted to the printer 20, the document data printing process is terminated (step S39). .

  As described above, in this embodiment, the data compression method and compression rate in the terminal device 10 are changed according to the processing state of the printer 20 and the communication state between the terminal device 10 and the printer 20. Therefore, according to the present embodiment, it is possible to reliably reduce the load on the communication path between the terminal device 10 and the printer 20 and prevent an increase in the data transmission time from the terminal device 10 to the printer 20. At the same time, the printer 20 can always be kept in an optimum processing state, and a decrease in the data output speed in the printer 20 can be reliably prevented.

  For example, when the usage rate of the control unit 25 of the printer 20 is high and the free capacity of the memory 23 of the printer 20 is small, if the degree of congestion of the communication path between the terminal device 10 and the printer 20 is high, By increasing the compression rate of data transmitted to the printer 20 and reducing the amount of data, the burden on the communication path between the terminal device 10 and the printer 20 can be reduced. At this time, since the terminal 20 can compress the data by using the time during which the printer 20 is printing the unprocessed data temporarily stored in the memory 23, the data in the printer 20 can be compressed. A decrease in output speed can be reliably prevented.

  In the image processing system, one printer 20 is connected to the plurality of terminal devices 10 through the LAN 30 (see FIG. 1). However, the present invention is not limited to this, and a plurality of printers 20 are connected to the plurality of terminal devices through the LAN 30. 10 may be connected. In the image processing system having such a configuration, when document data is printed, an operator designates one printer 20 from among a plurality of printers 20 through the input unit 12 of the terminal device 10. Then, communication is performed between the printer 20 designated by the operator and the terminal device 10 to determine whether or not to transmit the data converted into the bitmap format from the terminal device 10 to the printer 20.

  In the image processing system, when communication is performed between each of the plurality of terminal devices 10 and the printer through the router 40 connected to the LAN 30 (see FIG. 5), the router 40 is connected to the router 40 and the printer 20. It is also possible to monitor the degree of congestion of the communication path between and the data transmitted from each of the plurality of terminal devices 10 to the printer 20.

  In the image processing system having such a configuration, information on the degree of congestion of the communication path between the router 40 and the printer 20 monitored by the router 40 is transmitted to each of the plurality of terminal devices 10. Each of the plurality of terminal devices 10 determines a compression method and a compression rate of data to be transmitted to the printer 20 according to the degree of congestion of the communication path between the router 40 and the printer 20. In addition, the router 40 communicates data to be transmitted to the printer 20 based on the degree of congestion of the communication path between the router 40 and the printer 20 based on the compression ratio and data amount of data transmitted from each of the plurality of terminal devices 10. Calculate the burden on the route. Then, the router 40 transmits data to the printer 20 in order from data with less burden on the communication path between the router 40 and the printer 20.

  As described above, the present invention is useful for a compression method and a terminal device capable of changing the compression rate of data transmitted to a printer, and an image processing system that prints data transmitted from the terminal device in the printer. .

1 is a diagram illustrating an overall configuration of an image processing system according to an embodiment. It is a figure which shows the structure of the terminal device in the image processing system which concerns on embodiment. 1 is a diagram illustrating a configuration of a printer in an image processing system according to an embodiment. It is a sequence diagram which shows the flow of the image processing system which concerns on embodiment. It is a figure which shows the whole structure of the other image processing system which concerns on embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Terminal device 11 Transmission / reception part 12 Input part 13 Storage part 14 Display part 15 Control part 20 Printer 21 Transmission / reception part 22 Recording medium 23 Memory 24 Image formation part 25 Control part 30 LAN
40 routers

Claims (6)

An image comprising: a terminal device that compresses and transmits data for print output; and a printer that forms an image based on the decompressed data after receiving data transmitted from the terminal device and performs print output In the processing system,
The printer includes a storage unit that temporarily stores data transmitted from the terminal device, and a control unit that controls the overall operation of the printer, and forms an image based on the data extracted from the storage unit Print output and
From the printer when the terminal device starts sending the compressed data to the printer and the processing state of the printer represented by the usage rate of the control unit and the amount of data stored in the storage unit A method of compressing data to be transmitted to the printer next in accordance with a communication state with the printer represented by a time until reception of a signal indicating that decompression of compressed data to be transmitted has been completed; An image processing system comprising compression changing means for changing a compression rate. The terminal device converts a document or drawing document data into print document data including information on the format of the document data, and converts the print document data into transmission print data that can be processed by the printer. A printer driver, and
The terminal device includes firmware that converts the print document data transmitted from the terminal device into reception-side print data that can be printed and stores the format of the document data that can be converted into the reception-side print data. When communicating with the printer,
When the terminal device confirms that the format of the document data exists in the format of the document data that can be converted to the reception-side print data stored in the firmware, the document data is printed by the program. The document data for printing is compressed with the compression method and the compression ratio determined by the compression ratio changing means and is sent to the printer,
On the other hand, when the terminal device confirms that the format of the document data does not exist in the format of the document data that can be converted into the reception-side print data stored in the firmware, or the terminal device When communicating with the printer provided with firmware that converts the transmission-side print data transmitted from the apparatus into the reception-side print data,
After the terminal device converts the document data to the print document data by the program, the terminal device converts the print document data to the transmission side print data by the printer driver and converts the transmission side print data to the compression change unit. The image processing system according to claim 1, wherein the image processing system compresses the data with the compression method and the compression rate determined by step S <b> 1 and transmits the result to the printer.   The image processing system according to claim 2, wherein the format of the document data is a font format in the document data and an image format in the document data. When the plurality of terminal devices and the printer are connected by a LAN and communication between each of the plurality of terminal devices and the printer is performed through a router,
The router monitors the congestion degree of the communication path between the router and the printer;
The compression changing unit changes a compression method and a compression rate of data to be transmitted to the printer according to a congestion degree of a communication path between the router and the printer. 4. The image processing system according to any one of 3.   The router attaches an order to transmit data transmitted from each of the plurality of terminal devices to the printer according to the degree of congestion of the communication path between the router and the printer, and a plurality of the 5. The image processing system according to claim 4, wherein the data is transmitted to the printer in order from the data with the highest priority among the data transmitted from each of the terminal devices. A terminal device in the image processing system according to any one of claims 1 to 5,
In the printer, the processing status of the printer represented by the usage rate of the control unit and the amount of data stored in the storage unit, and transmission from the printer when the transmission of compressed data to the printer is started The compression method and compression of data to be transmitted next to the printer according to the communication state with the printer represented by the time until reception of the signal indicating that the decompression of the compressed data is completed A terminal device comprising compression changing means for changing a rate.

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