JP4289898B2 - Printing method, receiving apparatus and printing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a printing method, a broadcast data generation device, a receiving device, a printing device (printer), and the like, and in particular, displays received image data by drawing it on a video RAM in the device and supplies the image data to a printer. The present invention relates to a method and apparatus for performing printing.
[0002]
[Prior art]
The image data received by STB (Set Top Box) or DTV (Digital TV) via broadcasting satellite etc. is displayed on the display device, and the displayed screen is printed on a medium such as paper by a printer and output. When rendering, a rendering engine built in the STB or the like is temporarily rendered in a video RAM (Random Access Memory) with a resolution suitable for the display device. The image data drawn in the video RAM is printed after being subjected to processing suitable for printer characteristics such as color conversion and resolution conversion. A typical example of such a system is a case where an image displayed on a television is printed using a video printer.
[0003]
On the other hand, a technique is disclosed for recording and reusing by reducing the number of pixels or reducing the resolution within the viewable range so that the user can reuse the prohibited recording of digital TV video content. (For example, refer to Patent Document 1).
[0004]
[Patent Document 1]
JP-A-11-146378 (page 4-6, FIG. 1))
[0005]
[Problems to be solved by the invention]
However, as described above with the recent improvement in performance of display devices and the spread of high-definition television broadcasts, if image data drawn on the STB video RAM is printed in the display device quality, the image data There is a problem that an elaborate printed material is generated, resulting in a result contrary to the intention of the author who wants to thoroughly manage the copyrighted material.
[0006]
In addition, when high-quality image data is output from a STB or the like to a printer for the purpose of printing, the image data is stolen during transfer or high-quality image data that is not subjected to deterioration processing is output from the output destination device. This will lead to irreparable copyright infringement.
[0007]
Furthermore, in the case of printing, there is a concern that even if protection in the middle of distribution is attempted, it is copied after printing by a high-performance color copier.
Further, in the preceding example, the content that lowers the video image quality is disclosed in order to reuse the video content that is copyright-protected (recording prohibited). It is intended to lower the "quality as", and does not assume a quality level when output to a printer having a resolution performance much higher than that of a normal display device.
[0008]
In other words, in order to protect content that is supposed to be printed, it is an important requirement to determine how much print image quality degradation should occur, but the content producer confirms and specifies how much print image quality degradation is guaranteed. It is difficult to estimate the copyright protection level in advance.
[0009]
In addition, when digital TV broadcasting is used as an information source, various information such as a video portion, a still image portion, a text portion, and a graphics portion are handled as screen display data. Depending on the type and content of each information source, The degree of rights protection is different. However, copyright control in print control cannot be changed by each information source. For example, it is necessary to strongly protect copyrights for still images and video parts, but there are cases where it is desirable to make commentary comments freely.
[0010]
In addition, even for the same type of content, there are cases where it is desired to determine these copyright controls in advance for the convenience of the content producer, but this is not possible. Furthermore, since there is a difference that the image can be enjoyed or unbearable depending on the image size, there is a case where it is desired to protect the copyright by controlling the size, but there is nothing corresponding to this.
[0011]
In short, there is a problem that if high-quality content for digital TV or the like distributed from the outside is printed as it is for display devices, it does not match the intention of the author who wants to thoroughly manage the copyrighted work.
[0012]
Therefore, an object of the present invention is to provide a printing method, a broadcast data generation device, a reception device, and a printing device that can obtain a printed matter that matches the intention of the author.
[0013]
[Means for Solving the Problems]
  In order to achieve the above object, the printing method according to the present invention is distributed from the outside.broadcastReceiver that receives dataAnd broadcastingdataOn the basis of theprintingI doPrinting deviceIncludingPrinting systemsoThe printing method, wherein the receiving device isText or image objects for each fileFirst image quality levelText data andimage dataBroadcast data with mixedTo getbroadcastA data acquisition step;For each file constituting the broadcast data acquired in the broadcast data acquisition step, it is determined whether it is for image data representing an image as an object, and indicates the type of the data A data type determination step based on information (for example, information tag) or a code representing the type (for example, file extension) or the acquisition history of the data (for example, acquired by pull printing), and image data in the data type determination step The judgment that it isWasThis is the image data included in the file.The first image data isOf the image indicated by the first image dataThe second image quality level is inferior to the first image quality level.Show imageA deterioration step for converting to second image data;The broadcast data acquired in the broadcast data acquisition step is used as print data, and the file that has been determined to be image data in the data type determination step among the files that constitute the print data Only for the deterioration stepThe converted second image data isAs print data of the image,The printing deviceEach object represented by text data and image data included in the print dataPrinting step to printPrinting methodThe
[0014]
As a result, the second image data of the second image quality level that is inferior to the first image quality level is converted (degraded), and the deteriorated second image data is printed, so that a printed matter that matches the intention of the author can be obtained. it can.
[0015]
  Here, the deterioration stepIsA conversion step in which the receiving device converts the first image data into the second image data; and the receiving device,In the conversion stepA transfer step of transferring the converted second image data to the printing apparatus;TheIncludingMumono andMay be. In addition, the deterioration stepIsThe receiving device transfers the first image data to the printing device; and the printing device comprises:In the transfer stepForwardedWasA conversion step of converting the first image data into the second image data;TheIncludingWasteIt is good.
[0016]
As a result, the second image data having the second image quality level that is inferior to the first image quality level is deteriorated and printed, so that it is possible to obtain a printed matter that matches the intention of the author.
[0017]
  In addition, the transfer stepIs,AboveReceiverButThe printing deviceofAuthenticationTheAnd encrypting the first image dataTheTransferred to the printing device and converted to the conversion step.IsThe printing deviceButThe aboveAt transfer stepForwardedSaidDecode the first image dataAfterConvert to the second image dataRuIs preferred.
[0018]
  This protects the first image data transferred from the receiving apparatus to the printing apparatus.
  Also,The transfer step includesAuthenticationButIt is also possible to use DTCP (Digital Transmission Copy Protection).
[0019]
  Also,in frontPrinting stepIn one documentSaidRepresents an objectRepeat partial dataShitoriPull print method to obtain and printIn the formula,eachobjectPrintIt may be characterized by that.
[0020]
  In addition, the deterioration stepIs, The first image dataThe first image dataChange the resolution or aspect of the imageTo convert it into the second image dataIt may be a feature.
  The first image quality level may be an image quality level of an HD image of digital broadcasting, and the second image quality level may be an image quality level corresponding to an SD image of digital broadcasting. in this case,The deterioration step includesIf the first image quality level is the HD image quality level of digital broadcasting, the second image quality level may be the SD image quality level of digital broadcasting.
[0021]
  In the deterioration step, the first image dataThe first image dataFor combining image data with other image dataTo convert to the second image dataIt may be characterized by that.
  In the deterioration step, the first image dataThe first image dataChange color information ofTo the second image dataYouRukoAnd may be characterized.
[0022]
  In addition, the deterioration stepIs, The first image dataThe first image dataLimit the print size to a predetermined value or lessTo the second image dataYouRukoAnd may be characterized.
  In addition, the deterioration stepIs, The first image dataThe first image dataPerforms conversion based on the format ofAnd converting it into the second image dataThis may be a feature.
[0023]
  In addition, the deterioration stepIs, The first image dataThe first image dataDepending on whether the format is a digital broadcast HD image format, video format, or BML (Broadcast Markup Language) format,To each otherPerform a different type of conversionAnd converting it into the second image dataThis may be a feature.
[0024]
  In addition, The deterioration stepIs,For exampleSaidbroadcastIf the data format is BML (Broadcast Markup Language),broadcastIncluded in the dataimage data(Image image part)Only againstThe first image data is changed to the second image data.Do the conversion.
[0025]
  Also, the printing method is,in frontThe receiving device isAs the broadcast dataA print control information acquisition step of acquiring print control information which is information relating to control of printing distributed together with the first image data;In the printing control information acquisition stepBased on the acquired print control information,Only in certain casesThe deterioration stepTheExecutionLetRucontrolTheDoDeterioration control stepfurtherIt can also be characterized by including.
[0026]
  The print control information includes a flag indicating any one of “printable”, “printing prohibited”, and “printable below a predetermined image quality level”, and the deterioration control step.IsWhen the flag indicates “printing is possible at a predetermined image quality level or lower”, the deterioration step is performed.TheIt is good also as making it perform.
[0027]
  The print control information includes a flag indicating that “the image quality level at the time of printing is deteriorated”, and the deterioration control step.IsWhen the flag indicates that “the image quality level at the time of printing is degraded”, the degradation step is performed.TheIt is good also as making it perform.
[0028]
The broadcast data generation apparatus according to the present invention is a broadcast data generation apparatus that generates broadcast data including printable image data, and includes image data generation means for generating image data, and printing of the generated image data. Print control information generation means for generating print control information that is information for controlling the image data, the generated image data and the print control information are associated with each other, and the image data and the print control information are converted into broadcast data. Conversion means.
[0029]
Thus, since the intention of the author can be reflected in the print control information, a printed matter that best matches the intention of the author can be obtained.
Here, the print control information may include a flag indicating any one of “printable”, “printing prohibited”, and “printable below a predetermined image quality level”.
[0030]
Further, the print control information may include a flag indicating that “the image quality level at the time of printing is deteriorated”.
Therefore, according to the present invention, a high-quality image is surely deteriorated to a low-quality image and is printed in a deteriorated state. Therefore, high-definition digital television broadcasting is started, and high-performance receivers and printers have been widely used. The practical value of the present invention today is extremely high.
[0031]
Note that the present invention can be realized not only as such a printing method but also as a receiving device that uses the characteristic steps included in such a printing method as a means, or as a printing device. It can also be realized as a program executed by a computer. In addition to being able to be realized as a broadcast data generation device, the program can be realized as a broadcast data generation method using steps characteristic of the broadcast data generation device, or causing a computer to execute these steps. It can also be realized as. Needless to say, such a program can be distributed via a recording medium such as a CD-ROM or a transmission medium such as the Internet.
[0032]
Here, in the specification of the present application, to deteriorate the print image corresponding to the original image data means to convert all the pixels of the original image data into a state that cannot be reproduced. For example, the pixels of the original image data are thinned out at regular intervals, a part of the display pixel is replaced with another pixel or another image, a predetermined conversion is applied to the color, or some effect is added. This refers to a process for making a print image different from a reproduced print image in normal printing of an image. That is, the acquired first image data is converted into second image data having a second image quality level that is inferior to the first image quality level.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
FIG. 1 is a diagram showing an overall configuration of a printing system 1a according to the first embodiment.
[0034]
The printing system 1a includes a broadcast station 10 that transmits broadcast data via the antenna 2 and the satellite 3, and a set top box (hereinafter also referred to as “STB”) 20a that receives the broadcast data via the antenna 4. And a monitor 30 and a printer 40a connected to the STB 20a.
[0035]
The broadcast station 10 is a broadcast data generation device that generates broadcast data including printable image data, and controls an image data generation unit (not shown) that generates image data and printing of the generated image data. A print control information generation unit (not shown) that generates print control information (also referred to as “print instruction information”) that is information, the generated image data and the print control information are associated with each other, and the image data And a conversion unit (not shown) for converting the print control information into broadcast data.
[0036]
Broadcast data transmitted from the broadcast station 10 is transmitted in an HTML (Hyper Text Markup Language) format, an MPEG (Moving Picture Experts Group) format, and a BML (Broadcast Markup Language) format. The broadcast data is encoded by including print instruction information which is an instruction from a copyright manager (author, broadcast station manager) regarding printing. “Permit”, “Printing prohibition”, and “Permit if printing at low resolution” can be specified.
[0037]
More specifically, this print instruction information uses, for example, copy control information for controlling content copying, which is defined in the broadcast standard ARIB STD-B10 used in BS digital broadcasting, for print control. As shown in FIG. 2, a copy control identifier α indicating copy control information, digital copy control data β for controlling digital copy, and analog copy control are used. Analog copy control data γ.
[0038]
For example, if the value of the digital copy control data β is “0x11”, digital copying is prohibited, and if the value of the analog copy control data γ is other than “0x00”, analog copying is also prohibited. When these are used as print instruction information, print instruction information representing an instruction to prohibit printing and data storage in the printer can be used. Further, if the value of the digital copy control data β is “0x00”, there is no restriction on the digital copy, and if the value of the analog copy control data γ represents “Do not care”, copying can be performed without restriction. In this case, it is possible to use the print instruction information indicating an instruction that the image to be printed can be printed with high quality with the printer and the high-quality image can be saved with the printer.
[0039]
On the other hand, if the value of the digital copy control data β is “0x11”, digital copying is prohibited, but if the value of the analog copy control data γ is “0x00”, copying can be performed for analog recording by analog input. In this case, it is possible to use the print instruction information indicating an instruction that the image to be printed can be printed with a reduced image quality in the STB, and the image with the reduced image quality can be saved by the printer. If the value of the digital copy control data β is “0x10”, the digital copy can be copied only for one generation, and if the value of the analog copy control data γ is other than “0x00” or “0x00”, a predetermined copy can be made. In this case, it is possible to use print instruction information indicating an instruction that the image to be printed can be printed with a reduced image quality by the printer and that the high-quality image can be saved by the printer.
[0040]
That is, by combining the digital copy control data β and the analog copy control data γ, the first flag (1) for prohibiting printing at all, and the second flag (▲) for permitting unrestricted printing In addition to 2), a third flag {circle over (3)} for permitting printing with low image quality is configured, and this flag {circle over (3)} can instruct low image quality printing.
[0041]
The STB 20a receives broadcast data, extracts image data and the like from broadcast data received via the antenna 4, and transmits the extracted image data and the like to the monitor 30 for display or display on the monitor 30 from the user. If there is a print instruction to print the image that has been printed, transmission of the image data instructed to print based on the print instruction information to the printer 40a is stopped (the print instruction information is the first flag ▲ 1). ▼, i.e., when printing prohibition is indicated), the image data instructed to be printed is encrypted and transmitted to the printer 40a (when the print instruction information indicates the second flag {circle around (2)}, ie, print permission is indicated. And the third flag {circle over (3)}, that is, if the printing is permitted if the deterioration occurs). If the print instruction information indicates that the print permission is indicated, the STB 20a is configured to send the deterioration instruction control information to the printer 40a.
[0042]
The monitor 30 displays an image of broadcast data received by the STB 20a.
The printer 40a decrypts the encrypted image data, degrades an image to be printed based on an instruction from the STB 20a, and prints the image on paper.
[0043]
Note that the STB 20a, the monitor 30, and the printer 40a are connected to each other by an IEEE 1394 bus, USB, or the like, and the I / F (interface) unit of each device stores data in a format suitable for the connected bus. Interface.
[0044]
Next, the configuration of the STB 20a, the monitor 30, and the printer 40a will be described in detail.
FIG. 3 is a block diagram showing functional configurations of the STB 20a, the monitor 30, and the printer 40a shown in FIG.
[0045]
As shown in the figure, the STB 20a includes a communication I / F unit 201, an encoded information expansion unit 202, a drawing engine unit 203, a video RAM unit 204, a display image I / F unit 205, and display control. I / F unit 206, print instruction input unit 207, authentication unit 208, determination unit 209, print control I / F unit 210, encryption unit 211, print image I / F unit 212, and process control Part 213. Note that each unit constituting the STB 20a includes a CPU, a ROM that stores programs and data executed by the CPU in advance, a memory that provides a work area when the programs are executed, and temporarily stores broadcast data and the like. Etc.
[0046]
Broadcast data received via the antenna 4 is input to the communication I / F unit 201 of the STB 20a.
The communication I / F unit 201 performs predetermined processing on the input broadcast data and outputs it to the encoded information expansion unit 202.
[0047]
The encoded information expansion unit 202 performs processing for detecting print instruction information included in the encoded information in the format of the input data, extraction of image data, and the like, and sends the detected print instruction information to the determination unit 209. The extracted image data is sent to the drawing engine unit 203.
[0048]
The drawing engine unit 203 draws the image data supplied from the encoded information development unit 202 in the video RAM unit 204. If printing is possible if the image quality is deteriorated, the drawing engine unit 203 outputs control data for performing image processing (image processing for printing) necessary for normal printing via the print control I / F unit 210. The image processing for printing is processing for converting original image data into the resolution of the printing apparatus (printer) (usually enlargement) and correcting image degradation due to enlargement by various methods.
[0049]
The video RAM unit 204 outputs the rendered image data to the display image I / F unit 205 when there is no print instruction from the user, and encrypts the rendered image data when there is a print instruction. 211 is output.
[0050]
The display image I / F unit 205 transmits image data to the monitor 30.
The display control I / F unit 206 transmits and receives control data to and from the monitor 30.
A print instruction input unit 207 receives an input of a print instruction from a user. The print instruction input unit 207 may take any form such as a button or remote controller provided in the STB 20a or the printer 40a, or a personal computer (not shown) in the system.
[0051]
The authentication unit 208 of the STB 20a is paired with the authentication unit 401 of the printer 40a, which will be described later. Specifically, the authentication unit 208 authenticates according to the procedure of an authentication method called DTCP (Digital Transmission Copy Protection), and eliminates unauthorized devices. To do.
[0052]
The determination unit 209 interprets the print instruction information sent from the encoded information expansion unit 202. That is, it is determined whether the flag is the first flag {circle around (1)} (printing prohibited), the second flag {circle around (2)} (printing permitted), or the third flag {circle around (3)} (if printing is possible). If the content is “permitted if deteriorated”, control data for a certain deterioration instruction is generated in step S208 shown in FIG. 5 and transmitted to the printer 40a through the print control I / F unit 210. This deterioration instruction control data is composed of, for example, a 1-bit flag indicating the deterioration instruction. In addition, when the print instruction information is “print permission”, the determination unit 209 does not particularly specify an image processing method.
[0053]
The print control I / F unit 210 transmits and receives control data to and from the printer 40a. For example, the print control I / F unit 210 transmits the control data output from the drawing engine unit 203 and the control data output from the determination unit 209 to the printer 40a.
[0054]
The encryption unit 211 performs a predetermined encryption process on the image data drawn on the video RAM unit 204. In the case of the DTCP encryption method, encryption is performed in units of a predetermined number of bytes. The encrypted image data is sent to the print image I / F unit 212.
[0055]
The print image I / F unit 212 transmits the encrypted image data to the printer 40a.
The process control unit 213 comprehensively controls the units 201 to 212 in the STB 20a. If the print instruction information is print prohibition, the input of the print instruction input from the print instruction input unit 207 is ignored.
[0056]
The monitor 30 includes a display image I / F unit 301, a display image processing unit 302, an image display unit 303, a display control I / F unit 304, and a display control unit 305.
The display image I / F unit 301 supplies the image data received from the display image I / F unit 205 of the STB 20a to the display image processing unit 302.
[0057]
The display image processing unit 302 performs predetermined processing on the input image data and supplies the processed image data to the image display unit 303.
The image display unit 303 is a display device such as a CRT (Cathode Ray Tube), an LCD (Liquid Crystal Display), a PDP (Plasma Display Panel), or a projector, and displays an image based on the image data processed by the display image processing unit 302. Display with the quality of the original image.
[0058]
The display control I / F unit 304 receives control data from the display control I / F unit 206 of the STB 20 a and outputs the received control data to the display control unit 305.
The display control unit 305 comprehensively controls each unit 301 to 304 in the monitor based on the control data output from the display control I / F unit 304.
[0059]
The printer 40a includes an authentication unit 401, a print image I / F unit 402, a decryption unit 403, a print control I / F unit 404, an image processing method determination unit 405, a print image processing unit 406, and image printing. Unit 407 and a print control unit 408. Each unit constituting such a printer 40a provides a CPU, a ROM that stores programs and data executed by the CPU in advance, a work area when executing the programs, and temporarily stores image data and the like. This is realized by a memory or the like.
[0060]
The authentication unit 401 mutually authenticates with the authentication unit 208 of the STB 20a.
The print image I / F unit 402 receives the image data transmitted from the print image I / F unit 212 of the STB 20 a and sends the received image data to the decoding unit 403.
[0061]
The decryption unit 403 decrypts the encrypted image data and supplies the decrypted image data to the print image processing unit 406.
The print control I / F unit 404 receives the control data transmitted from the print control I / F unit 210 of the STB 20a, and supplies the received control data to the image processing method determination unit 405.
[0062]
The image processing method determination unit 405 determines the processing content in the print image processing unit 406 according to the content of the control data, and instructs the printing image processing unit 406 about the processing content.
Note that the image processing method determination unit 405 stores in advance a deterioration processing instruction table 4050 shown in FIG. 4 that stores a plurality of processing contents to be instructed when control data for deterioration instruction is received.
[0063]
The deterioration processing instruction table 4050 is created by any one of the deterioration method and the degree of deterioration, or a combination thereof. “Degradation degree” includes, for example, degradation of the resolution to the standard definition (SD) image quality level, ½ of the thinning level, the area or ratio of the area that leaves the original image quality level, and the like. The “degradation method” includes pixel reduction such as aspect ratio conversion and thinning, application of image editing effects such as reduction in color reproducibility and blurring, and the like.
[0064]
The predetermined image processing here includes one or both of the two types of deterioration and the above-described printing image processing.
FIG. 4 is a diagram showing a configuration example of the deterioration processing instruction table 4050 created based on the deterioration method and the degree of deterioration.
[0065]
Here, the image data of the screen displayed on the STB 20a has a resolution determined by a standard such as 1080i, 720P, 480P, 480i.
In the degradation process from 1080i to 480i, horizontal pixels are thinned out by a half, and vertical pixels are thinned out by a half. Since the number of pixels is halved and the size of the image data is reduced, interpolation is performed using pixels in the vicinity of the thinned pixels.
[0066]
In the deterioration process from 720P to 480i, the horizontal pixels are thinned out to two thirds, the vertical pixels are thinned out into two thirds, and interpolation is performed using pixels in the vicinity of the thinned pixels. In the deterioration process from 480P to 480i, the horizontal pixels are thinned by half, the vertical pixels are thinned by two thirds, and interpolation is performed using pixels in the vicinity of the thinned pixels. Note that the thinning process may be performed only in the horizontal direction or only in the vertical direction. As a thinning method, it is conceivable to use only one frame of interlace.
[0067]
After performing such deterioration processing, printing image processing such as enlargement / reduction processing to print resolution is performed.
Other degradation methods include converting the color information of the image data from R (red), G (green), B (blue) to K (black), making the color image monochrome, and limiting the ink color used. There is also a degradation method that reduces the number of colors. Similarly, there are degradation methods that reduce the number of gradations and extremely change the contrast. In addition, there is a degradation method in which image data is combined with other image data or random noise.
[0068]
Further, if the printed image is sufficiently small in size, the object of deteriorating the image is achieved. Therefore, there is a deterioration method in which the size of the print image is limited to be sufficiently small. For example, the print image is limited to 3 cm in length, 4 cm in width, 36 mm in length, 64 mm in width, or less.
[0069]
The print image processing unit 406 performs predetermined processing instructed by the image processing method determination unit 405 on the input image data, and converts the input image data into data that can be printed by the image printing unit 407.
[0070]
The image printing unit 407 prints an image on paper based on the image data from the print image processing unit 406 at a predetermined resolution (for example, 200/300/400 dpi). The printing method is thermal type, thermal transfer, sublimation type, ink jet or the like.
[0071]
The print control unit 408 comprehensively controls the printer units 401 to 407 based on control data received by the print control I / F unit 404 and responses from the units.
Next, the operation of each part of the STB 20a will be described.
[0072]
FIG. 5 is a flowchart showing operations performed by each unit of the STB 20a.
When there is no print instruction from the user, the encoded information expansion unit 202 sequentially outputs image data extracted from the broadcast data to the drawing engine unit 203. The drawing engine unit 203 writes the image data output from the encoded information development unit 202 in the video RAM unit 204 for drawing (S201). The image data written in the video RAM unit 204 is sent to the display image I / F unit 301 via the display image I / F unit 205 and displayed on the image display unit 303. While the drawing engine unit 203 is drawing, the processing control unit 213 monitors an input from the print instruction input unit 207. Then, the process control unit 213 determines whether there is an input from the print instruction input unit 207. That is, the process control unit 213 determines whether the input is a print instruction (S202). When determining that it is not a print instruction, the process control unit 213 supplies the image data drawn in the video RAM unit 204 to the monitor 30 via the display image I / F unit 205. As a result, each unit of the monitor 30 displays an image by performing predetermined processing based on the input image data (S203). As a result, unless the print instruction is input (No in S202), the image data input to the STB 20a continues to be sequentially displayed on the monitor 30 by repeating the processes of Steps S201 to S203.
[0073]
On the other hand, when the processing control unit 213 determines that a print instruction has been input (Yes in S202), the authentication unit 208 of the STB 20a performs an authentication procedure with the authentication unit 401 of the printer 40a according to the DTCP procedure (S204). ). If the authentication procedure fails, the process control unit 213 rejects the input from the print instruction input unit 207 or does not execute the print related process from step S205 described later even if the input is accepted. This authentication procedure may be performed when the STB 20a and the printer 40a are connected, or may be performed before a print instruction is issued. In that case, the success or failure of the authentication is recorded, and if it is determined in step S202 that the print instruction has been input, if the authentication procedure is successful, the printing-related processing in step S205 and after may be performed.
[0074]
If the authentication procedure is successful, the process control unit 213 controls the drawing engine unit 203 not to perform new drawing. In other words, the process control unit 213 controls each unit so that the image data drawn in the video RAM unit 204 is not updated. That is, the process control unit 213 prohibits writing to the video RAM unit 204 (S205). Here, when the print instruction is input and the authentication procedure is successful, the writing of the image data to the video RAM unit 204 is stopped during the transfer of the image data in the video RAM unit 204 to the printer. This is to eliminate the inconvenience that the printed image becomes a different image from the middle.
[0075]
On the other hand, when the print instruction is input and the authentication procedure is successful, the encoded information expansion unit 202 extracts the print instruction information from the control data corresponding to the image data instructed to print, and determines the print instruction information. The data is sent to the unit 209 (S206).
[0076]
When the print instruction information is sent, the determination unit 209 interprets the print instruction information (S207). That is, based on the digital copy control data β and the analog copy control data γ for controlling analog copying, the determination unit 209 determines that the contents of the print instruction information are “printing permission”, “printing prohibition”, Alternatively, it is interpreted as a third path “printing permission if deteriorated”. If the content is “permitted if deteriorated”, the determination unit 209 generates control data for a certain deterioration instruction and transmits it to the printer 40a via the print control I / F unit 210 (S208). That is, the determination unit 209 instructs the printer 40a to deteriorate with the generated control data.
[0077]
When an instruction for deterioration is given to the printer 40a, the encryption unit 211 encrypts the image data in the video RAM unit 204 by a predetermined amount, and then transmits the encrypted image data to the print image I / F unit 212. Via the printer 40a (S209).
[0078]
Then, the process control unit 213 determines whether image data for one image has been supplied to the printer 40a (S210), and repeats the process of step S209 until the image data for one image is supplied. If it is determined that image data for one screen has been supplied (completed in step S210), the processing control unit 213 prohibits the updating of the drawing data in the video RAM unit 204 in step S204 (prohibits writing to the video RAM unit 204). Release (S211). And the process of step S201-S203 is repeated and the next image is displayed on the monitor 30 one by one.
[0079]
If the content of the print instruction information received by the determination unit 209 in step S207 is “printing permitted” (permitted in S207), step S208 is skipped, that is, there is no need for image degradation, so the printer 40a. Without instructing the deterioration of the image data, the image data transmission process shown in step S209 to the printer 40a is started (S209, S210). On the other hand, if “printing prohibited” (prohibited in S207), the prohibition of drawing data update in the video RAM unit 204 shown in step S211 is canceled, and the process returns to S201.
[0080]
When an image data buffer unit for taking out and buffering image data instructed for printing from the video RAM unit 204 is provided in the STB 20a, the timing for releasing the prohibition of drawing on the video RAM unit 204 in step S210 is as follows. This is when the transfer of image data to the image data buffer unit is completed.
[0081]
Next, processing performed by the printer 40a will be described.
FIG. 6 is a flowchart illustrating processing executed by each unit of the printer 40a.
The print control I / F unit 404 receives the control data transmitted from the STB 20a, and transmits the received control data to the image processing method determination unit 405 (S301). The control data includes normal control data for controlling the printer 40a, deterioration control data corresponding to image data to be printed, and the like.
[0082]
The image processing method determination unit 405 determines whether or not deterioration control data is included in the control data (S302). If it is determined that the degradation instruction control data is included (Yes in S302), the image processing method determination unit 405 refers to the degradation process instruction table 4050, selects any one degradation process, and performs print image processing. The unit 406 is instructed to perform predetermined image processing on the image data (S303). Note that when the print instruction information is “print permission”, the control data for the deterioration instruction is not sent from the STB 20a (No in S302), and therefore the image processing method determination unit 405 is not limited to the print image processing unit 406. The image processing method is not specified.
[0083]
If the contents of the print instruction information indicate what kind of deterioration method is used, the determination unit 209 of the STB 20a transmits the deterioration method to the printer 40a in addition to the control data, and the image processing method determination unit. By designating the deterioration method in 405, the image can be deteriorated by the optimum deterioration method for the content image.
[0084]
On the other hand, the decryption unit 403 decrypts the encrypted image data received via the print image I / F unit 402, and sends the decrypted image data to the print image processing unit 406 (S304). The print image processing unit 406 processes the image data by the image processing method designated by the image processing method determination unit 405 (S305). That is, when it is determined that the control data for the degradation instruction is included (Yes in S302), the image processing method determination unit 405 instructs the print image processing unit 406 to perform image degradation (S303), and print image processing is performed. The unit 406 performs degradation processing on the decoded image data (S305).
[0085]
FIG. 7 is a diagram showing how the image is subjected to deterioration processing. In particular, FIG. 7A shows an original image before deterioration processing, FIG. 7B shows an image subjected to deterioration processing by thinning, FIG. 7C shows an image that has been subjected to deterioration processing by converting a color image into black and white, and FIG. 7D shows an image that has been subjected to ambient blur deterioration processing.
[0086]
When image data that has undergone such image degradation processing is sent, the image printing unit 407 prints an image on paper based on the image data that has undergone degradation processing (S306).
[0087]
When printing on the paper is completed, the print control unit 408 erases the image data remaining in the printer memory (S308). That is, the decoded image data before the deterioration process is deleted.
[0088]
On the other hand, when it is determined that the control data for the degradation instruction is not included (No in S302), that is, in the case of the second flag (2), the image processing method determination unit 405 displays the print image processing unit 406. Is not instructed to perform predetermined image processing on the image data. Also in this case, the decryption unit 403 decrypts the encrypted image data received via the print image I / F unit 402, and sends the decrypted image data to the print image processing unit 406 (S311). The print image processing unit 406 processes the image data by the image processing method designated by the image processing method determination unit 405 (S312). When the print instruction information is “printing permitted”, the print image processing unit 406 does not specify the image processing method in particular from the image processing method determination unit 405. An image processing method to be applied when there is no instruction is determined, and image data is processed by that method. The image printing unit 407 prints an image on a sheet based on the processed image data (S313).
[0089]
As described above, according to the invention according to the first embodiment, when the print instruction information indicates deterioration, the STB 20a that receives the image data distributed from the outside receives the first image quality level. The first image data is acquired, and the acquired image data is sent to the printer 40a together with the control information for the deterioration instruction. In the printer 40a that receives the control information for the deterioration instruction, the first image data is inferior to the first image quality level. Since the image data is converted into the second image data of the image quality level and the converted second image data is printed, a printed matter that matches the intention of the author can be obtained.
[0090]
In the first embodiment, the part for degrading image data is mounted on the printer 40a. However, it is not particularly limited to the printer 40a, and the main body side of a TV or the like having a built-in tuner for receiving STB 20a and broadcast data. Alternatively, the image data may be mounted on another server that distributes image data.
[0091]
Further, in the above-described first embodiment, the deteriorated instruction control data has been described as a 1-bit flag. However, an area for storing control contents is added to this flag, and “deterioration degree”, “ "Deterioration method" may be included. In this case, it is possible to cause the printer 40a to perform deterioration processing suitable for the image.
[0092]
(Embodiment 2)
Next, a printing system according to Embodiment 2 of the present invention will be described.
[0093]
FIG. 8 is a diagram illustrating a functional configuration of the printing system 1b according to the second embodiment.
The printing system 1b includes a broadcasting station 10, an STB 20b, a monitor 30, and a printer 40b. In the figure, illustration of the broadcasting station 10 and the like is omitted. Also, the same components as those of the STB 20a, the monitor 30, and the printer 40a shown in FIG.
[0094]
Here, the printing system 1a according to the first embodiment is configured to determine whether or not to perform the deterioration process according to the contents of the print instruction information. However, in the printing system 1b according to the second embodiment, image data is stored. It is configured to determine whether or not to perform the image degradation process based on the rule that the degradation process is performed if the image quality exceeds a certain level.
[0095]
According to this configuration, the print instruction information included in the broadcast data and added to the image data and the determination unit 209 of the STB 20a are not necessary. Therefore, the STB 20b of the printing system 1b is configured by omitting the determination unit 209, while the printer 40b determines the image quality by reading the image quality information of the image data from the additional data in the image data or the resolution of the image data. A portion 409 is provided.
[0096]
When the image data is sent from the STB 20b, the image quality determination unit 409 reads the image quality information of the image data from the additional data in the image data decoded by the decoding unit 403 or the resolution of the image data. The read image quality information is sent to the image processing method determination unit 405. For example, whether or not the image data has HD (High Definition) image quality can be read from the header information added to the image data, and can be determined from the vertical and horizontal resolutions of the image data.
[0097]
Next, operations performed by each unit of the STB 20b and operations performed by each unit of the printer 40b will be sequentially described.
FIG. 9 is a flowchart showing operations performed by each unit of the STB 20b. Steps up to step S205 are the same as those in FIG. 5 of the first embodiment, and a description thereof will be omitted.
[0098]
When processing for prohibiting writing to the video RAM unit 204 is performed (S205), the encryption unit 211 encrypts the image data and transmits the encrypted image data to the printer 40b (S209). That is, in the STB 20b of the second embodiment, steps S206 to S208, which are the processes performed in the first embodiment, that is, the print instruction information extraction process, the determination of the print instruction information, and the deterioration instruction. The instruction to deteriorate the printer is omitted.
[0099]
Therefore, the configuration of the STB 20b is simplified compared to the STB 20a, and the load on the STB 20b is reduced.
FIG. 10 is a flowchart showing processing executed by each unit of the printer 40b shown in FIG.
[0100]
When the encrypted image data transmitted from the STB 20b is received via the print image I / F unit 402, the decryption unit 403 decrypts the encrypted image data and prints the decrypted image data into the print image. In addition to the processing unit 406, the image quality determination unit 409 is also sent (S601).
[0101]
Upon receiving the image data, the image quality determination unit 409 reads image quality information such as the image data body of the decoded image data, the additional data in the image data, or the resolution of the image data (S602). This image quality information is detected by, for example, reading from the header information added to the image data whether the image data has HD (High Definition) image quality, or reading the vertical and horizontal resolutions of the image data. The
[0102]
When the detection is completed, the image quality determination unit 409 sends the detected image quality information to the image processing method determination unit 405 (S603). The image processing method determination unit 405 determines whether the image quality of the image data is greater than a certain level from the sent image quality information (S604). If the image quality exceeds a certain level (Yes in S604), the image processing method determination unit 405 instructs the print image processing unit 406 to select an image processing method for image degradation (S605). For example, if the image data has HD image quality, an instruction is given to perform image processing with SD (Standard Definition) image quality. This instruction may be instructed based on, for example, the deterioration processing instruction table 4070 shown in FIG. According to the degradation processing instruction table 4070, when the image quality information is HD image quality, the image quality is high, and an image processing method for SD image quality by thinning or the like is instructed. Note that when the image quality information is SD image quality, the image quality is low, and an instruction of an image processing method for image quality degradation is not described.
[0103]
When there is an instruction for the image processing method, the print image processing unit 406 processes the image data by the image processing method instructed by the image processing method determination unit 405 (S606).
FIG. 12 is a diagram showing the state of the image degradation process. In particular, FIG. 12A is a diagram showing an image before the image quality degradation process, and FIG. 12B is a diagram after the degradation process is performed to the SD image quality. FIG. It can be seen that there is no jaggedness in the HD image quality print image, so the image quality is high, whereas the SD image quality print image is noticeable and the image quality is degraded.
[0104]
If there is no instruction for the image processing method, the print image processing unit 406 performs normal image processing as in the case of the first embodiment. In this case, since the original image has low image quality and is printed with low image quality, there is no need for image quality deterioration. Further, the subsequent processing (S307, S308) is the same as that in the first embodiment, and thus the description thereof is omitted.
[0105]
As is clear from the above description, a printed matter that matches the intention of the author can also be obtained by the invention according to the second embodiment.
In the second embodiment, the image data decoded by the decoding unit 403b is also sent to the image quality determination unit 409. However, the image quality determination unit 409 monitors the decoded image data. The image quality information may be acquired based on the monitor result.
[0106]
In the second embodiment, the image quality determination unit 409 is provided in the printer 40b. However, the image quality determination unit 409 may be provided in the STB 20b. In this case, the image quality determination unit 409 receives the image data to be sent from the video RAM unit 204 to the printer 40b or monitors it to detect the quality of the image data, and the detection result is sent to the print control I / O. The image data may be sent to the print image processing unit 406 via the F unit 210 and the print control I / F unit 404.
[0107]
Alternatively, the determination unit 209 may be provided in the STB 20b, and image data may be sent from the STB 20b to the printer 40b only when the determination unit 209 determines that the print instruction information is not print prohibition.
[0108]
(Embodiment 3)
Next, a printing system according to Embodiment 3 of the present invention will be described.
FIG. 13 is a diagram illustrating a functional configuration of the printing system 1c according to the third embodiment.
The printing system 1c includes a broadcasting station 10, an STB 20b, a monitor 30, and a printer 40c. In the figure, illustration of the broadcasting station 10 and the like is omitted. Further, the same components as those of the STBs 20a and 20b, the monitor 30, and the printers 40a and 40b shown in FIGS.
[0109]
Here, the printing system 1a according to the first embodiment is configured to determine whether or not the deterioration process is performed according to the contents of the print instruction information. In the printing system 1b according to the second embodiment, the image data is higher than a certain level. In the printing system 1c according to the third embodiment, the print data transmitted to the printer is configured to determine whether to perform the image degradation process based on the rule that the image quality image is subjected to the degradation process. It is configured to select whether or not to deteriorate depending on the type of the method.
[0110]
Incidentally, the image quality determination unit 409 reads that the print data is the image data displayed on the television screen, and instructs the print image processing unit 406 to uniformly perform the deterioration process. However, when the print data is data written in the BML (Broadcast Markup Language) format, if the degradation process is performed on the text portion, there is a problem that characters become difficult to read or cannot be read.
[0111]
In this case, when the print data is data written in the BML (Broadcast Markup Language) format, it is conceivable to perform a branch such as instructing not to perform the deterioration process only on the text portion. As the determination method, an information tag indicating the type of print data is added to the data sent to the printer 40c by the STB 20b, a determination method using the information tag, a determination method based on the file extension of the data, and the like can be considered.
[0112]
Also, text data and image data such as JPEG are mixed in print data written in the BML format.
In the example shown in FIG. 15, FIGS. 15A and 15B are text data, and FIG. 15C is image data.
[0113]
Unlike image data, text data is not subject to image degradation such as thinning. This is because inconveniences such as being unreadable when deteriorated occur. Therefore, it is conceivable that text data is not subject to degradation, but only image data is subject to degradation.
[0114]
To realize this, when the print data is in the BML format, only the image data such as JPEG is identified from the extension and data type of the file, and an instruction is given to perform degradation processing only on the image data.
[0115]
The printer 40c differs from the printer 40b shown in FIG. 8 in that it includes a data type determination unit 410 instead of the image quality determination unit 409, and corresponds to pull printing.
[0116]
The data type determination unit 410 determines whether the data is image data based on a file extension or the like from print data including a plurality of input and decrypted files.
[0117]
Next, processing executed by each unit of the printer 40c will be described.
FIG. 14 is a flowchart showing the operation of processing executed by each unit of the printer 40c shown in FIG.
[0118]
When print data composed of a plurality of files is input to the printer 40c, the decryption unit 403 sends the data to the data type determination unit 410 in addition to the print image processing unit 406 for each file after decryption (S901).
[0119]
The data type determination unit 410 determines whether the file is image data (S902). If it is image data, the data type determination unit 410 sends a message to that effect to the image processing method determination unit 405. The image processing method determination unit 405 refers to the degradation processing instruction table 4050, selects any one degradation processing, and instructs the print image processing unit 406 to perform predetermined image processing on the image data (S903). ). The print image processing unit 406 performs image processing for image data degradation using the instructed method (S904). The image printing unit 407 prints on paper using print data including image data that has undergone image processing (S905). The following flow is the same as in FIG.
[0120]
FIG. 16 is a diagram showing the state of the image deterioration processing. In particular, FIG. 16A shows an image before the image quality deterioration processing, and FIG. 16B shows the deterioration processing (reduction processing) only for the image portion. It is a figure which shows the image after being done. It can be seen that the print image without deterioration processing has a high image quality that allows the details to be clearly seen because the image is large, whereas the reduced print image does not show details and the image quality is deteriorated.
[0121]
The print instruction information may be included in the BML format print data, and the instruction may be executed by reading the print instruction information with a printer.
Specifically, among the print data in the BML format, “print_control” is specified for the name attribute of the <meta> tag, and values such as “print_ok” and “print_never” are specified for the content attribute. In this way, it is possible to control printing of a BML document having the <meta> tag in the header.
[0122]
Further, when the image is reduced, it may be instructed to add a reason such as “Image quality is degraded for copyright protection” as shown in FIG.
If there is no instruction for the image processing method, the print image processing unit 406 performs normal image processing as in the case of the first embodiment. In this case, the original image has low image quality and is printed with low image quality, so there is no need for image quality deterioration. Further, the subsequent processing (S307, S308) is the same as that in the first embodiment, and thus the description thereof is omitted.
[0123]
As is clear from the above description, a printed matter that matches the intention of the author can also be obtained by the invention according to the third embodiment.
This is not limited to the BML format, and print data in the ML (Markup Language) format can have the same function.
[0124]
Even for print data in a format other than the ML format, a tag corresponding to the <meta> tag may be defined.
Further, when the print data is composed of a plurality of files as in the BML format, as shown in Japanese Patent Laid-Open No. 2000-66867, a pull print request for obtaining image data from the printer to the STB is performed. May take composition. In this pull print, the determination as to whether the image data is performed in step S902 in FIG. 14 is not based on the file extension, but the data acquired by the pull print is determined to be image data. The effect of performing degradation processing on only image data can be obtained by performing degradation processing on the data. In the BML format, this is possible because the print data is composed of one text data and a plurality of image data, and the link information to the image data is written in the one text data.
[0125]
Alternatively, the determination unit 209 may be provided in the STB 20b, and image data may be sent from the STB 20b to the printer 40c only when the determination unit 209 determines that the print instruction information is not print prohibition.
[0126]
(Embodiment 4)
Next, a printing system according to Embodiment 4 of the present invention will be described.
FIG. 17 is a diagram illustrating a functional configuration of the printing system 1d according to the fourth embodiment.
The printing system 1d includes a broadcasting station 10, an STB 20d, a monitor 30, and a printer 40a. In the figure, illustration of the broadcasting station 10 and the like is omitted. Further, the same components as those of the STBs 20a and 20b, the monitor 30, and the printers 40a, 40b, and 40c shown in FIGS.
[0127]
Here, in the printing systems 1a to 1c of the first to third embodiments, the image deterioration processing is performed in the printers 40a to 40c. However, in the printing system 1d of the fourth embodiment, the image deterioration processing is performed in the STB 20d. Configured to do. In the printing system 1a of the first embodiment, the copy control information included in the broadcast data is diverted and used for printing control. However, in the printing system 1d, printing instruction information dedicated to printing control is separately added to the broadcasting data. In this print instruction information, an image deterioration instruction or the like is sent.
[0128]
FIG. 18 is a diagram illustrating a configuration of print instruction information dedicated to print control.
The print instruction information 100 includes a print instruction flag storage unit 101 that stores a first flag (1), a second flag (2), and a third flag (3), and a deterioration method that stores an image deterioration method. The storage unit 102 includes a deterioration degree storage unit 103 that stores the degree of image deterioration, and another instruction information storage unit 104 that stores other instruction information. The deterioration method storage unit 102 to the other instruction information storage unit 104 indicate the third flag {circle around (3)} in the print instruction flag storage unit 101, i.e., the instruction is issued by the copyright manager when printing is possible if deterioration occurs. Is stored arbitrarily. The degradation method storage unit 102 stores, for example, pixel reduction by thinning out or image editing due to a decrease in color reproducibility. In the degradation degree storage unit 103, for example, degradation to the SD image quality level with respect to resolution, degradation to half the degree of thinning, and the like are stored. The other instruction information storage unit 104 stores a designation such as “permits printing up to how many”. Note that the print instruction flag storage unit 101 may be configured to store only the third flag (3).
[0129]
When the print instruction information 100 is sent from the encoded information expansion unit 202, the determination unit 209 looks at the print instruction flag storage unit 101. If the deterioration is possible, the deterioration method storage unit 102 to other instruction information are displayed. The image degradation processing unit 214 is instructed to perform image degradation processing according to the information in the storage unit 104.
[0130]
When there is an image degradation instruction from the determination unit 209, the image degradation processing unit 214 performs image degradation processing as instructed on the image data sent from the video RAM unit 204, and the image degradation processed image data is encrypted. Send to 211. Note that the drawing engine unit 203 does not send any instruction to the image deterioration processing unit 214 when the print instruction flag storage unit 101 indicates unrestricted printing permission. In this case, the image deterioration processing is not performed. The unit 214 passes through the image data without performing the image deterioration process.
[0131]
FIG. 19 is a flowchart showing operations performed by each unit of the STB 20d. The same step numbers are assigned to the portions corresponding to those in FIG. 9, and the description thereof is omitted.
If the print instruction flag storage unit 101 of the print instruction information 100 sent from the encoded information expansion unit 202 is deteriorated, the determination unit 209 determines that printing is possible (“determination is permitted in S207”), and the image deterioration processing unit 214. Is instructed to perform image deterioration processing according to information in the deterioration method storage unit 102 to other instruction information storage unit 104 (S220). When there is an image degradation instruction from the determination unit 209, the image degradation processing unit 214 performs image degradation processing as instructed on the image data sent from the video RAM unit 204, and encrypts the image data subjected to the image degradation processing The data is sent to the unit 211 (S221).
[0132]
As described above, the image degradation process is performed in advance in the STB 20d. As a result, even if the printer is a normal printer, the image subjected to the degradation process is printed on paper.
Note that when the deterioration process is performed on the STB side, authentication and data encryption performed between the STB and the printer may be omitted. This is because degraded data may be exploited.
[0133]
The printing system 1d according to the fourth embodiment is configured to determine whether or not to perform the deterioration process depending on the contents of the print instruction information 100. However, as with the printing system 1b according to the second embodiment, the video RAM unit is configured. If the image data stored in 204 is a high-quality image of a certain level or more, the image deterioration processing unit 214 may determine whether to perform the image deterioration processing based on the rule of performing the deterioration processing, As with the printing system 1c according to the third embodiment, whether or not to deteriorate depending on the format of the print data stored in the video RAM unit 204 is selected, or a deterioration method is selected, and the image deterioration processing unit 214 performs deterioration processing only on the image portion. You may comprise as follows.
[0134]
In the embodiment of the present application, a case where broadcast data is input by satellite broadcasting or the like is described, but the purpose is not impaired even if the data is terrestrial, wired or via the Internet. In this case, the STB 20a to STB 20b may be configured to correspond to pull printing and perform image deterioration processing in units of pulls.
[0135]
【The invention's effect】
As is apparent from the above description, according to the printing method of the present invention, the second image data converted (deteriorated) to the second image data of the second image quality level inferior to the first image quality level is deteriorated. Since the image data is printed, it is possible to obtain a printed material that matches the intention of the author.
[0136]
The broadcast data generation apparatus according to the present invention is a broadcast data generation apparatus that generates broadcast data including printable image data, and includes image data generation means for generating image data, and printing of the generated image data. Print control information generation means for generating print control information that is information for controlling the image data, the generated image data and the print control information are associated with each other, and the image data and the print control information are converted into broadcast data. Since the conversion means is provided, the intention of the copyright holder can be reflected by the print control information, and a printed matter that best matches the intention of the author can be obtained.
[0137]
Therefore, according to the present invention, a high-quality image is surely deteriorated to a low-quality image and is printed in a deteriorated state. Therefore, high-definition digital television broadcasting is started, and high-performance receivers and printers have been widely used. The practical value of the present invention today is extremely high.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an overall configuration of a printing system 1a according to a first embodiment.
FIG. 2 is a diagram illustrating a configuration example of print instruction information.
FIG. 3 is a block diagram showing functional configurations of the STB, monitor, and printer shown in FIG.
FIG. 4 is a diagram illustrating a configuration example of a deterioration processing instruction table.
FIG. 5 is a flowchart showing an operation performed by each unit of the STB shown in FIG. 3;
6 is a flowchart showing processing executed by each unit of the printer shown in FIG. 3;
7A and 7B are diagrams illustrating a state in which an image is subjected to deterioration processing, in particular, FIG. 7A is a diagram illustrating an original image before being subjected to deterioration processing, and FIG. 7B is subjected to deterioration processing by thinning. FIG. 7C is a diagram illustrating an image that has been subjected to degradation processing by converting a color image into black and white, and FIG. 7D is an image that has been subjected to ambient blur degradation processing. FIG.
FIG. 8 is a diagram illustrating a functional configuration of a printing system according to a second embodiment.
9 is a flowchart showing operations performed by each unit of the STB shown in FIG.
10 is a flowchart showing processing executed by each unit of the printer shown in FIG.
FIG. 11 is a diagram illustrating a configuration example of a deterioration processing instruction table.
12A and 12B are diagrams illustrating a state in which an image is subjected to deterioration processing. In particular, FIG. 12A is a diagram illustrating an original image before deterioration processing, and FIG. 12B is subjected to deterioration processing by thinning. FIG.
FIG. 13 is a diagram illustrating a functional configuration of a printing system according to a third embodiment.
14 is a flowchart showing an operation of processing executed by each unit of the printer shown in FIG. 13;
FIGS. 15A and 15B are diagrams showing components of print data written in BML format, in particular FIGS. 15A and 15B show text data, and FIG. 15C shows text data. It is a figure which shows the image data linked to.
16A and 16B are diagrams illustrating a state in which an image is subjected to deterioration processing, in particular, FIG. 16A is a diagram illustrating an original image before being subjected to deterioration processing, and FIG. 16B is subjected to deterioration processing by thinning. FIG.
FIG. 17 is a diagram illustrating a functional configuration of a printing system according to a fourth embodiment.
FIG. 18 is a diagram illustrating a configuration example of print instruction information.
FIG. 19 is a flowchart showing an operation performed by each unit of the STB shown in FIG.
[Explanation of symbols]
1a, 1b, 1c, 1d printing system
10 Broadcasting stations
20a, 20b, 20d STB
40a, 40b, 40c Printer
201 Communication I / F part
202 Encoded information expansion unit
203 Drawing engine
204 Video RAM section
207 Print instruction input unit
208 Authentication part
209 Judgment part
210 Print control I / F section
211 Encryption section
212 Print image I / F section
213 Processing control unit
214 Image degradation processor
401 Authentication unit
402 Print image I / F section
403 Decryption unit
404 Print control I / F section
405 Image processing method determination unit
406 Print Image Processing Unit
407 Image printing section
408 Print control unit
409 Image quality judgment unit
410 Data type determination unit

Claims (47)

Receiver for receiving broadcast data distributed from the external, and, a printing method in a printing system having include printing apparatus that performs printing based on the broadcast data,
Broadcast data acquisition step in which the receiving device acquires broadcast data in which text data and image data representing text or image objects at a first image quality level are mixed for each file ;
For each file constituting the broadcast data acquired in the broadcast data acquisition step, it is determined whether the file is for image data representing an image as an object, and indicates the type of the data A data type determination step performed based on information or a code representing the type or the acquisition history of the data;
For the file that has been determined to be image data in the data type determination step , the first image data that is the image data included in the file is the image of the image indicated by the first image data. A deterioration step of converting to second image data indicating an image of a second image quality level inferior to the first image quality level;
The broadcast data acquired in the broadcast data acquisition step is used as print data, and the file that has been determined to be image data in the data type determination step among the files that form the print data Only for the above, the printing device prints each object represented by the text data and the image data included in the print data, using the second image data converted in the deterioration step as the print data of the image. preparative including printing method. The deterioration steps are,
A conversion step in which the receiving device converts the first image data into the second image data;
The receiving apparatus, a method of printing according to claim 1, wherein the transfer step and including things for transferring the second image data converted by said conversion step to the printing apparatus. The deterioration steps are,
A transfer step in which the receiving device transfers the first image data to the printing device;
The printing apparatus, printing method according to claim 1, wherein the conversion step and including that the converting the first image data transferred in the transfer step to the second image data. Said transfer steps, said receiving device, the authentication of the printing apparatus, and encrypting the first image data transferred to the printing device,
The conversion steps are said printing apparatus, printing method according to claim 3, wherein the converting the second image data after decoding the first image data transferred in the transfer step . 5. The printing method according to claim 4 , wherein in the transfer step, the authentication is DTCP (Digital Transmission Copy Protection). Before SL printing step is a pull print method of printing with acquired repeatedly a partial data representing the object in the one document, you print each object,
The printing method according to claim 1 , wherein: The degradation steps, the first image data, by changing the resolution or aspect of an image indicated by the first image data, a method of printing according to claim 1, wherein the converting the second image data. The first image quality level is an image quality level of a digital broadcast HD image,
The printing method according to claim 1, wherein the second image quality level is an image quality level corresponding to an SD image of digital broadcasting. The degradation step, the long first a HD quality level of image quality levels digital broadcasting, a method of printing according to claim 8, wherein the pre-Symbol the second quality level as SD quality level of the digital broadcast . The degradation steps is the first image data, by performing a process of synthesizing its first image data and other image data, according to claim 1, wherein the that converts the second image data Printing method. The degradation steps, the first image data, by changing the color information of the first image data, a method of printing according to claim 1, wherein the that converts the second image data. The degradation steps is the first image data, limits the print size of the first image data to a predetermined value or less, the printing of claim 1, wherein the that converts the second image data Method. The degradation steps is the first image data, I line conversion method determined depending on the format of the first image data, according to claim 1, wherein the converting the second image data Printing method. The degradation steps, the first image data, the format of the first image data is the HD image format digital broadcasting, or video formats, depending on whether BML (Broadcast Markup Language) format, the line conversion method different from each other What method of printing according to claim 1 3, wherein the converting the second image data. Before Symbol receiver, the print control information acquisition step of acquiring information in a print control information on control of the print coming distributed with the first image data as the broadcast data,
On the basis of the print control information the printing control information acquired in acquisition step further includes a degradation control step of performing the control of degradation step Ru to execute the flop only when the predetermined
請 Motomeko 1 method of printing described. The print control information includes a flag indicating any one of “printable”, “printing prohibited”, and “printable below a predetermined image quality level”,
The degradation control steps, when the flag indicates "printable below a predetermined quality level" A printing method according to claim 1 5, wherein the executing the deterioration steps. The print control information includes a flag indicating that “the image quality level at the time of printing is degraded”,
The degradation control steps, when the flag indicates the fact that, "image quality deterioration level during printing", printing method according to claim 1 5, wherein the executing the deterioration steps. Receives broadcast data distributed from the outside, a receiving apparatus for outputting print data based on the broadcast data to the outside of the printing apparatus,
Broadcast data acquisition means for acquiring broadcast data in which text data and image data representing a text or image object at a first image quality level for each file are mixed ;
For each file constituting the broadcast data acquired by the broadcast data acquisition means, it is determined whether the file is for image data representing an image as an object, and indicates the type of the data A data type determination means which is based on a code representing information or type or the acquisition history of the data;
For the file that has been determined to be about image data by the data type determination means , the first image data that is the image data included in the file is the image of the image indicated by the first image data. Deterioration means for converting to second image data indicating an image of a second image quality level inferior to the first image quality level;
The file in which the broadcast data acquired by the broadcast data acquisition unit is used as print data, and the file that is determined to be image data by the data type determination unit among the files that form the print data. receiver including only the second image data converted by said degradation means as print data of the image, and output means for outputting to the printing device for. Pull printing method and acquired repeatedly a partial data representing the object in the one document Ru is printed on the printing device to print each object,
The receiving device according to claim 18 . The degradation means, wherein the first image data, by changing the resolution or aspect of an image indicated by the first image data, receiving apparatus according to claim 18, wherein the converting the second image data. The first image quality level is an image quality level of a digital broadcast HD image,
The receiving apparatus according to claim 18, wherein the second image quality level is an image quality level corresponding to an SD image of digital broadcasting. The degradation means, the long first a HD quality level of image quality levels digital broadcasting, before Symbol receiver according to claim 21, wherein the second quality levels, characterized in that the SD image quality level of the digital broadcast . The degradation means, wherein the first image data by synthesizing its first image data and other image data, the receiving apparatus according to claim 18, wherein the converting the second image data. The degradation means, wherein the first image data, by changing the color information of the first image data, receiving apparatus according to claim 18, wherein the converting the second image data. The degradation means, the first image data, by limiting the print size of the first image data to a predetermined value or less, the receiving apparatus according to claim 18, wherein the converting the second image data . The degradation means, the first image data, I line conversion method determined depending on the format of the first image data, according to claim 18, wherein the converting the second image data Receiver device. The degradation means, wherein the first image data, the HD image format in the form of the first image data is digital broadcasting, or video formats, depending on whether BML (Broadcast Markup Language) format, Tsu line conversion of different methods from each other 27. The receiving apparatus according to claim 26 , wherein the receiving apparatus converts the second image data . Print control information acquisition means for acquiring print control information which is information relating to print control distributed together with the first image data as the broadcast data ;
On the basis of the print control information the printing control information acquired by acquiring means, deterioration performs only the control of the first image data to the deterioration means Ru to execute the conversion to the second image data in a predetermined case receiver according to claim 18, wherein further comprising a control means. The print control information includes a flag indicating any one of “printable”, “printing prohibited”, and “printable below a predetermined image quality level”,
The degradation control means, when the flag indicates "printable below a predetermined quality level", the receiving apparatus according to claim 28, wherein the executing the conversion to the degradation means. The print control information includes a flag indicating that “the image quality level at the time of printing is degraded”,
The degradation control means, when the flag indicates the fact that "image quality deterioration level during printing", the receiving apparatus according to claim 28, wherein the executing the conversion to the degradation means. Receives broadcast data distributed from the outside, a program for the receiver to output the print data based on the broadcast data to the outside of the printing apparatus,
A broadcast data acquisition step of acquiring broadcast data in which text data and image data representing text or image objects at a first image quality level are mixed for each file ;
For each file constituting the broadcast data acquired in the broadcast data acquisition step, it is determined whether the file is for image data representing an image as an object, and indicates the type of the data A data type determination step performed based on information or a code representing the type or the acquisition history of the data;
For the file that has been determined to be image data in the data type determination step, the first image data that is the image data included in the file is the image of the image indicated by the first image data. A deterioration step of converting to second image data indicating an image of a second image quality level inferior to the first image quality level;
The broadcast data acquired in the broadcast data acquisition step is used as print data, and the file that has been determined to be image data in the data type determination step among the files that form the print data for only the second image data converted in the degradation step as the print data of the image, including Mpu program and an output step of outputting to the printing device. A printing device that acquires broadcast data transferred from an external device and performs printing based on the broadcast data ,
Broadcast data acquisition means for acquiring broadcast data in which text data and image data representing a text or image object at a first image quality level for each file transferred from an external device are mixed ;
For each file constituting the broadcast data acquired by the broadcast data acquisition means, it is determined whether the file is for image data representing an image as an object, and indicates the type of the data A data type determination means which is based on a code representing information or type or the acquisition history of the data;
For the file that has been determined to be about image data by the data type determination means , the first image data that is the image data included in the file is the image of the image indicated by the first image data. Deterioration means for converting to second image data indicating an image of a second image quality level inferior to the first image quality level;
The file in which the broadcast data acquired by the broadcast data acquisition unit is used as print data, and the file that is determined to be image data by the data type determination unit among the files that form the print data. mark only the second image data converted by said degradation means as print data of the image, which Ru and a printing means for printing each object represented by the text data and the image data included in the print data for Printing device. The first image data is encrypted, before Symbol image data acquisition means, after performing the authentication procedure with the external device, the deterioration means obtains the encrypted first image data, the broadcast data acquired by the acquiring means, the printing apparatus according to claim 32, wherein the converting the second image data after decoding the first picture data which has been encrypted. The printing apparatus according to claim 33 , wherein the authentication is DTCP (Digital Transmission Copy Protection). It said printing means, you print each object in the pull print method of printing with acquired repeatedly a partial data representing the object in the one document,
The printing apparatus according to claim 32 . The degradation means, the first image data, by changing the resolution or aspect of an image indicated by the first image data, according to claim 32, wherein a is intended that converts the second image data Printing device. The first image quality level is an image quality level of a digital broadcast HD image,
The printing apparatus according to claim 32, wherein the second image quality level is an image quality level corresponding to an SD image of digital broadcasting. If the first image quality level is the HD image quality level of digital broadcasting , the deterioration means
38. The printing apparatus according to claim 37, wherein the second image quality level is an SD image quality level of digital broadcasting. The degradation means, the first image data, by performing a process of synthesizing its first image data and other image data, according to claim 32, characterized in that it converts the second image data The printing apparatus as described. The degradation means, wherein the first image data, by changing the color information of the first image data, the printing apparatus according to claim 32, wherein a is for converting the second image data. The degradation means, the first image data, limits the print size of the first image data to a predetermined value or less, according to claim 32, wherein a is for converting the second image data Printing device. The degradation means, claims the first image data, a conversion method that is determined depending on the format of the first image data I lines, is characterized in that for converting the second image data 33. Printing apparatus according to 32 . The degradation means, wherein the first image data, the HD image format in the form of the first image data is digital broadcasting, or video formats, depending on whether BML (Broadcast Markup Language) format, Tsu line conversion of different methods from each other 43. The printing apparatus according to claim 42 , wherein the printing apparatus converts the second image data . Print control information acquisition means for acquiring print control information which is information relating to print control distributed together with the first image data as the broadcast data ;
On the basis of the print control information the printing control information acquired by acquiring means, deterioration performs only the control of the first image data to the deterioration means Ru to execute the conversion to the second image data in a predetermined case printing apparatus according to claim 32, wherein further comprising a control means. The print control information includes a flag indicating any one of “printable”, “printing prohibited”, and “printable below a predetermined image quality level”,
The degradation control means, when the flag indicates "printable below a predetermined quality level", the printing apparatus according to claim 44, wherein the executing the conversion to the degradation means. The print control information includes a flag indicating that “the image quality level at the time of printing is degraded”,
The degradation control means, when the flag indicates the fact that "image quality deterioration level during printing", the printing apparatus according to claim 44, wherein the executing the conversion to the degradation means. A program for a printing device that acquires broadcast data transferred from an external device and performs printing based on the broadcast data ,
Broadcast data acquisition step for acquiring broadcast data in which text data and image data representing a text or image object at a first image quality level for each file transferred from an external device is mixed ;
For each file constituting the broadcast data acquired in the broadcast data acquisition step, it is determined whether the file is for image data representing an image as an object, and indicates the type of the data A data type determination step performed based on information or a code representing the type or the acquisition history of the data;
For the file that has been determined to be about image data by the data type determination means, the first image data that is the image data included in the file is the image of the image indicated by the first image data. A deterioration step for converting to second image data indicating an image of a second image quality level inferior to the first image quality level;
The broadcast data acquired in the broadcast data acquisition step is used as print data, and the file that has been determined to be image data in the data type determination step among the files that constitute the print data as the print data converted second image data the image by only the degradation step for, including Mpu and printing step of printing each object represented by the text data and the image data included in the print data Program.

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