JP2005031713A - Control device and device to be controlled for use in system corresponding to both command base model and user interface export model - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To switch between a command base model and a user interface export model according to what is processed. <P>SOLUTION: Commands about a plurality of kinds of prints are stored in the nonvolatile memory 35 of a digital still camera 1 and the nonvolatile memory 71 of a printer 50. For the kinds of prints for which both the digital still camera 1 and the printer 50 have commands in common, printing processes are performed using the command base model. For printing processes for which the digital still camera 1 does not have commands, the digital still camera 1 is made to function as a client while the printer 50 is made to function as a server, whereby the printing processes are performed using the user interface export model. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
【Technical field】
The present invention relates to a control device and a controlled device used in a system that supports both a command-based model and a user interface export model.
[0002]
[Prior art and its problems]
A direct print system based on a command-based model is known. A direct print system based on a command-based model is composed of a digital still camera and a printer. A command for print processing is transmitted from the digital still camera to the printer. The printer includes a command transmitted from the digital still camera (or a program or data for interpreting a command transmitted from the digital still camera). The printer is controlled based on a print processing command transmitted from the digital still camera to the printer.
[0003]
In the direct print system based on the command-based model, when all the print processing functions of the printer are executed by commands sent from the digital still camera (control device) to the printer (controlled device), It is necessary to prepare (store) commands corresponding to all the print processing functions of the printer in the digital still camera. If the printer has a special print processing function other than the command print processing function stored in the digital still camera, the printer is controlled by the command base model for such special function. It is not possible.
[0004]
Patent Document 1 describes a digital camera 1 including a WWW server / client unit 102. The WWW server / client unit 102 is connected to a remote data processing apparatus via a wireless unit 101 according to an operator's instruction, and processes digital image data and audio data stored in the storage unit 104 at a remote location. Digital image data and audio data are transmitted to the apparatus or received from a data processing apparatus at a remote location, and stored in the storage unit 104. Even with the WWW server / client system, it is possible to control a data processing apparatus (for example, a printer) in a digital still camera.
[0005]
However, the system of the WWW server / client method is more complicated than the command-based model. For example, the number of transactions is large, so that even a simple print process such as single-frame printing is a large process.
[0006]
[Patent Document 1]
Japanese Patent Laid-Open No. 10-224676
[0007]
DISCLOSURE OF THE INVENTION
In the present invention, functions (processes) that can be controlled by the command base model are controlled by the command base model, and even functions (processes) that cannot be controlled by the command base model. The purpose is to be able to control the controlled device.
[0008]
The present invention provides the above control device used in a system constituted by a control device and a controlled device corresponding to both a command base model and a user interface export model.
[0009]
The control device according to the present invention comprises a first storage means for storing a command for controlling the controlled device according to a command base model, and a control device support representing a command type stored in the first storage means. Second storage means for storing a command script, receiving means for receiving a controlled device support command script that is transmitted from the controlled device and represents a type of command that can be executed by the controlled device, Based on the controlled device support command script received by the receiving means, display control means for displaying on the display device the types of processing that can be executed by the controlled device, and displayed on the display device by the display control means. A selection means for receiving an input for selecting one of the types of processing that can be executed by the controlled device; Based on the control device support command script stored in the second storage means and the controlled device support command script received by the reception means, the process selected by the selection means is a command. A determination means for determining whether or not the process based on the base model is possible; and when the determination means determines that the process selected by the selection means can be processed by the command base model. A command processing control means for causing the controlled apparatus to execute the selected type of process by transmitting a command corresponding to the selected type of process stored in one storage means to the controlled apparatus; and Processing selected by the above selection means cannot be processed by the command-based model by the judgment means If it is determined, the control device and the controlled device are operated by the user interface export model, and the user interface export data corresponding to the selected type of processing is transmitted to the controlled device. By doing so, it is characterized by comprising user interface processing control means for causing the controlled device to execute the selected type of processing.
[0010]
In the command base model, the controlled device is controlled based on a command transmitted from the control device to the controlled device. The controlled device interprets a command transmitted from the control device to the controlled device and executes processing based on the command. In the command-based model, the control device and the controlled device operate according to a definition (arrangement) related to a predetermined command.
[0011]
On the other hand, in the user interface export model, the control device functions as a client and the controlled device functions as a server. The controlled device is controlled based on data (this is called user interface export data) input in the control device (client). In the user interface export model, user interface export data is input in the control device (client) according to a page transmitted from the controlled device (server) to the control device (client). Since the contents of data (user interface export data) transmitted from the control device to the controlled device are based on the page transmitted from the control device to the controlled device, the controlled device is requested by the controlled device. The data to be received can be received (received) from the control device. It is not necessary to define a definition (arrangement) for controlling the controlled device in advance between the control device (client) and the controlled device (server) with respect to user interface export data.
[0012]
The control device includes: a first storage unit that stores a command for controlling the controlled device according to a command base model; and a control device support command that represents a type of the command stored in the first storage unit. A second storage means for storing the script is provided. The control device support command script indicates what type of command is stored in the first storage means of the control device.
[0013]
A controlled device support command script indicating the type of command that can be executed by the controlled device is transmitted from the controlled device to the controlling device and received by the controlling device. An executable command means a command that can be interpreted by the controlled device. When an executable command is received (received), the controlled device executes processing based on the received command.
[0014]
Based on the received controlled device support command script, the type of processing that can be executed by the controlled device is displayed on the display device by the display control means.
[0015]
The operator of the control apparatus selects a desired process type from among the process types that can be executed by the controlled apparatus to be displayed.
[0016]
Whether the selected process can be processed by the command-based model is determined based on the control device support command script and the controlled device support command script.
[0017]
As described above, the control device support command script represents the type of command stored in the first storage means of the control device. The controlled device support command script represents the type of command that can be executed in the controlled device. Of the command types in the control device support command script and the command types in the controlled device support command script, common commands can be sent from the control device to the controlled device. In addition, the controlled device can interpret the command and execute processing based on the command. That is, processing based on a command-based model is possible.
[0018]
When it is determined that the selected process can be performed by the command-based model, a command corresponding to the selected type of process stored in the first storage unit is transmitted to the controlled apparatus. Thus, the selected type of processing is executed in the controlled device.
[0019]
If it is determined that the selected process cannot be processed by the command-based model, that is, if the command corresponding to the selected process is not stored in the first storage means of the control device, The control device and the controlled device are operated by the user interface export model. The user interface export data corresponding to the selected type of processing is transmitted from the control device to the controlled device, whereby the selected type of processing is executed in the controlled device.
[0020]
For example, if it is determined that the selected process cannot be performed by the command-based model, the control apparatus transmits a page request data to the controlled apparatus, thereby allowing the user interface extract to the controlled apparatus. User interface export data input according to a page based on page data transmitted from the controlled device to the control device is recognized from the control device to the controlled device. Send.
[0021]
According to the present invention, the control device and the controlled device operate according to the command base model for the processing that can be executed by the command, and the processing that cannot be executed by the controlled device by the command base model is controlled. The device and the controlled device operate according to the user interface export model. Even if not all of the commands for controlling the controlled device are stored in the first storage means of the control device, in this case, the controlled device is controlled by the user interface export model. Can be controlled. The functions of the controlled device can be used effectively.
[0022]
For complex processing, it is relatively difficult or complicated to set up a command-based model (definition, protocol) for both the control device and the controlled device. It is realistic to set a command-based model arrangement for both the controlled device and the controlled device. For relatively simple processing, processing is performed by a command-based model. For complex processing, a user interface export model may be employed.
[0023]
The present invention also provides the above-mentioned controlled device used in a system constituted by a control device and a controlled device corresponding to both the command base model and the user interface export model.
[0024]
The controlled device according to the present invention includes command receiving means for receiving a command transmitted from the control device, command processing executing means for executing processing based on the command received by the command receiving means, and transmitted from the control device. Page request data receiving means for receiving page request data, page data transmitting means for transmitting page data to the control device in response to reception of page request data by the page request data receiving means, and the page data User interface export data receiving means for receiving user interface export data transmitted from the control device in accordance with the page based on the user interface, and the user interface received by the user interface export data receiving means. Face extract Characterized in that it comprises a user interface processing execution means for executing a process based on over preparative data. When a command is transmitted from the control device, processing based on the command is executed. When page request data is transmitted from the control device, page data for inputting user interface export data is transmitted to the control device. A process based on user interface export data input and transmitted according to a page based on page data in the control device is executed in the controlled device.
[0025]
The present invention further provides a program for controlling the control device.
[0026]
[Explanation of Examples]
FIG. 1 shows a direct print system.
[0027]
The direct print system includes a digital still camera 1 and a printer 50 that can communicate with each other. The digital still camera 1 and the printer 50 are communicably connected by wireless or wired (USB (Universal Serial Bus) cable 15).
[0028]
On the upper surface of the digital still camera 1, a mode selection dial 2 and a shutter release button 3 are provided on the left side when viewed from the front. A wireless communication antenna 4 is provided on the right side when viewed from the front.
[0029]
In front of the digital still camera 1, an imaging unit 6 including a lens is provided at a substantially central position. A strobe light emitting device 5 is provided in the upper right corner.
[0030]
A wireless communication antenna 51 is provided on the upper surface of the printer 50 in the upper right corner when viewed from the front. A detachable cover 52 is provided at the lower right to cope with a paper jam or the like of the print paper. Further, a mode selection slide switch 53 and various switch groups 54 are provided on the left side of the upper surface of the printer 50.
[0031]
On the front side of the printer 50, a power lamp 58 is provided in the upper left corner. A card slot 59 is provided below the power lamp 58. A memory card 60 can be inserted into the card slot 59. A print paper discharge port 61 is formed on the right side of the front surface of the printer 50. A receiving member 62 that receives the print paper discharged from the print paper discharge port 61 is provided at a position protruding from the print paper discharge port 61 to the front surface of the printer 50.
[0032]
FIG. 2A shows the back side of the digital still camera 1. FIG. 2B is an enlarged plan view of the mode selection dial 2.
[0033]
A display screen (LCD) 7 is provided at the center of the back of the digital still camera 1. On the display screen 7, an image captured by the imaging unit 6, an image represented by image data read from a memory card attached to the digital still camera 1, various settings of the digital still camera 1 are displayed. An image or the like is displayed. The display screen 7 also functions as a touch panel (input device).
[0034]
A power switch 12 is provided on the upper side of the display screen 7. On the right side of the display screen 7, an up / down / left / right key 8, a menu button 9, an execution button 10 and a cancel button 11 used for selecting a frame to be displayed on the display screen 7, various settings, and the like are provided. .
[0035]
The mode selection dial 2 is provided in the digital still camera 1 so as to be rotatable. With the mode selection dial 2, a setup mode (Setup) 2a, a print mode (Print) 2b, a PC mode (PC) 2c, a movie mode (Mov) 2d, a camera (shooting) mode (Cam) 2e, and a playback mode Any one of (Play) 2f is selected. Movie mode (movie) shooting when setup mode 2a is used for initial settings, print mode 2b is used for direct printing, and PC mode 2c is used when data is sent to or received from a personal computer. The movie mode 2d is selected when the camera is performed, the camera mode 2e is selected when the still image (still) shooting is performed, and the playback mode 2f is selected when the moving image or the still image is played back.
[0036]
FIG. 3 is a block diagram showing an electrical configuration of the digital still camera 1.
[0037]
The overall operation of the digital still camera 1 is controlled by the CPU 20. Power is supplied from the battery 43 to the CPU 20 and other various circuits and devices included in the digital still camera 1.
[0038]
The digital still camera 1 includes a system memory 34 and a nonvolatile memory 35. The system memory 34 stores a program and data for controlling the operation of the digital still camera 1. The non-volatile memory 35 stores a browser (described later), an image selection program (described later), a command set (described later), a capability script (described later), and other programs and data. The timer 36 is used to measure the elapsed time during self-timer shooting. The date and time are measured (timed) by the calendar and the clock 37.
[0039]
From the above-described mode selection dial 2, shutter release button 3, display screen (touch panel) 7, up / down / left / right key 8, menu button 9, execution button 10, cancel button 11, etc. (indicated by reference numeral 39 in FIG. 3) The output signal is input to the CPU 20 via an I / O (Input / Output) unit 38. When the digital still camera 1 is provided with a light emitting element (LED), a light emission signal is output to the light emitting element via the I / O unit 38.
[0040]
The strobe light emitting device 5 is controlled to emit light by the strobe control device 24.
[0041]
When the camera mode 2 e is selected by the mode selection dial 2, the subject is imaged by the CCD included in the imaging circuit 21. A video signal representing the subject image is output from the imaging circuit 21 to the signal processing circuit 22, and predetermined signal processing is executed in the signal processing circuit 22. The video signal output from the signal processing circuit 22 is converted into digital image data by the analog / digital conversion circuit 23.
[0042]
The digital image data is input to the LCD control circuit 31 via the frame memory 29 and converted into data suitable for LCD display by the LCD control circuit 31. Output data from the LCD control circuit 31 is given to the liquid crystal display device 32. An image is displayed on the display screen 7.
[0043]
An on-screen signal is also input to the LCD control circuit 31 from an OSD (On Screen Device) 30. A character representing a date and time represented by an on-screen signal, an image representing a character, or the like can be superimposed on the captured image and displayed on the liquid crystal display device 32 (display screen 7).
[0044]
As described above, the liquid crystal display device 32 (display screen 7) also functions as a touch panel. An output signal from the display screen (touch panel) 7 is input to the CPU 20 via the touch panel control circuit 33.
[0045]
When the shutter release button 3 is pressed while the camera mode 2e is selected by the mode selection dial 2, the image data obtained as described above is temporarily stored in the frame memory 29. . Image data is read from the frame memory 29 and compressed by the compression / expansion circuit 25. The compressed image data is recorded on the memory card 42 installed in the memory card slot 41 via the card interface 40.
[0046]
When the reproduction mode 2 f is selected, the image data recorded on the memory card 42 is read and supplied to the compression / decompression circuit 25 via the card interface 40. The decompression process is performed in the compression / decompression circuit 25, and the decompressed image data is input to the LCD control circuit 31 via the frame memory 29. An image represented by the image data recorded on the memory card 42 is displayed on the liquid crystal display device 32 (display screen 7).
[0047]
As described above, the digital still camera 1 includes the antenna 4 for wireless communication with the printer 50. A radio interface 26 is connected to the antenna 4. Data is transmitted and received between the digital still camera 1 and the printer 50 via the antenna 4. The digital still camera 1 includes a USB interface 27 and a connector 28 connected to the USB interface 27. By connecting one end of the USB cable 15 to the connector 28 and connecting the other end to the printer 50, the digital still camera 1 and the printer 50 are communicably connected by the USB cable 15.
[0048]
FIG. 4 shows a file structure (directory structure) of an image file (data) recorded on the memory card 42.
[0049]
The image file recorded on the memory card 42 is recorded so as to belong to the directory.
[0050]
In this embodiment, one or more directories (referred to as image directories) are created below a root directory, and one or more image files are associated with the image directory. A directory name including a directory number is assigned to the image directory. For example, “001” in the directory name “001 Vacation” is a directory number.
[0051]
An image file associated with the image directory is given a file name including a file number. For example, among the file names “DSCF0001.JPG”, “0001” is the file number.
[0052]
A frame number is a combination of a directory number and a file number. For example, the frame number of the image file “DSCF0001.JPG” associated with the image directory “001 Vacion” is represented by “001-0001”.
[0053]
The printer 50 will be described with reference to FIGS. 1, 5, and 6. FIG. 5 is an enlarged plan view of the mode selection slide switch 53 of the printer 50, and FIG. 6 is a block diagram showing the electrical configuration of the printer 50.
[0054]
The mode selection slide switch 53 is slidably provided on the printer 50. By sliding the mode selection slide switch 53, a card mode (Card) 53a, a wireless PC communication mode (Wireless PC) 53b, a wireless camera communication mode (Wireless Cam) 53c, a USB PC communication mode (USB PC) 53d, And the USB camera communication mode (USB Cam) 53e are selected. The card mode 53a is selected when printing an image represented by image data recorded on the memory card 60 mounted in the card slot 59. The wireless PC communication mode 53b is selected when data is transmitted / received wirelessly to / from a personal computer (not shown) via the antenna 51 and an image represented by image data transmitted from the personal computer is printed. When wirelessly transmitting / receiving data to / from the digital still camera 1 via the antenna 51 and printing an image represented by the image data transmitted from the digital still camera 1, the wireless camera communication mode 53c is selected. The In the USB PC communication mode 53d and the USB camera communication mode 53e, data is transmitted to and received from the personal computer or the digital still camera 1 using the USB cable 15, and from the personal computer or the digital still camera 1 is transmitted. This is selected when printing an image represented by transmitted image data.
[0055]
The printer 50 includes a CPU 70. The CPU 70 controls the overall operation of the printer 50.
[0056]
The printer 50 includes a nonvolatile memory 71. The nonvolatile memory 71 stores a command set (described later), HTML data, a printer model name, a capability script (described later), and other programs and data. The system memory 72 stores a program and data for controlling the operation of the printer 50.
[0057]
The print engine 73 is for performing profile setting and other processing. The print engine 73 is connected to the print unit 85. When image data output from the print engine 73 is given to the print unit 85, the print unit 85 prints an image (including characters) on a print sheet (prints). ) The print paper on which the image is printed is discharged from the discharge port 62 to the outside of the printer 50.
[0058]
Output signals from the above-described mode selection slide switch 53 and switch group 54 (collectively referred to as operation switch group 77) are input to the CPU 70 via the I / O unit 75. A display signal is output to the display group 76 including the power lamp 58 via the I / O unit 75.
[0059]
When the card mode 53a is selected by the mode selection slide switch 53, an image represented by the image data recorded in the memory card 60 mounted in the card slot 59 is printed. Image data read from the memory card 60 in the card slot 59 is temporarily stored in the frame memory 80 via the card interface 74. The image data read from the frame memory 80 is input to the print engine 73. The image data is input from the print engine 73 to the printing unit 85, and printing (printing) is performed on the printing paper in the printing unit 85.
[0060]
The image data stored in the frame memory 80 can be provided to the external monitor 82 provided in the printer 50 or connected to the printer 50 via the display controller 81. An image represented by the image data is displayed on the display monitor 82.
[0061]
As described above, the printer 50 includes the antenna 51 for communicating with the digital still camera 1, and the wireless interface 79 is connected to the antenna 51. Data is transmitted and received between the printer 50 and the digital still camera 1 via the antenna 51. The printer 50 includes a USB interface 78 and a connector 79 connected to the USB interface 78. By connecting one end of the USB cable 15 to the connector 79 and connecting the other end to the digital still camera 1, the digital still camera 1 and the printer 50 are communicably connected via the USB cable 15.
[0062]
FIG. 7 shows an example of the corresponding print type and the corresponding paper size for each of the digital still camera 1 and the printer (product name: NC-100) 50 constituting the direct print system.
[0063]
As will be described below, the digital still camera 1 and the printer 50 constituting the direct print system of this embodiment can perform printing based on a command base model and printing based on a user interface export model. It corresponds to two.
[0064]
The command-based model is to prepare (store) a command set in advance for both the control device and the controlled device, and control the controlled device from the control device using the commands included in the command set. It is such a system. The command stored in the control device is a command for controlling the controlled device, and the command stored in the controlled device is for interpreting the command transmitted from the control device and executing processing based on the command. Therefore, it goes without saying that the command stored in the control device and the command stored in the controlled device are not necessarily the same. The digital still camera 1 and the printer 50 are a command-based model printing system. The printer 50 is controlled based on a command transmitted from the digital still camera 1 to the printer 50. It can be performed.
[0065]
A user interface export model is such a system in which a controlled device operates as a server and a control device operates as a client. As described above, the digital still camera 1 and the printer 50 are a command-based model print system and a user interface export model print system. The digital still camera 1 operates as a client and the printer 50 operates as a server. User interface data is transmitted from the printer 50 (server) to the digital still camera 1 (client), and the user interface data is received by the digital still camera 1. In the digital still camera 1, instruction data is input based on the received user interface data. The instruction data input in the digital still camera 1 is transmitted to the printer 50. The printer 50 is controlled based on the instruction data to perform printing. As will be described later, in the user interface export model, a browser stored in the non-volatile memory 35 of the digital still camera 1 is used to transmit and receive data in the digital still camera 1. The printer 50 is controlled by instruction data input using a browser.
[0066]
In general, a command set provided by a control device and a controlled device that is assumed to be used in a command-based model is the same as the command set of both the control device and the controlled device, or all commands provided by the control device are received. The control device is provided. The controlled device is controlled based on a command provided in the control device.
[0067]
In the digital still camera 1 constituting the direct print system in this embodiment shown in FIG. 7, the corresponding print types are “standard print”, “multi-print 2 UP” and “multi-print 4 UP”. The corresponding paper size cannot be specified. That is, the digital still camera 1 includes commands for “standard print”, “multi-print 2 UP”, and “multi-print 4 UP”.
[0068]
On the other hand, in the printer (NC-100) 50 constituting the direct print system in this embodiment shown in FIG. 7, the corresponding print types are “standard print”, “multi-print 2 UP”, “multi-print 4 UP”. , “Multi print 9UP”, “Multi print 16UP”, and “Index print”, and the corresponding paper sizes are “L size” and “2L size”. In other words, the printer 50 (NC-100) includes “standard print”, “multi-print 4 UP”, “multi-print 9 UP”, “multi-print 16 UP”, “index print”, “L size” and Each “2L size” has a command.
[0069]
For “standard print” and “multi-print 4UP”, both the digital still camera 1 and the printer 50 have common commands. Therefore, “standard print” and “multi-print 4UP” can be printed by the command base model. Furthermore, since the digital still camera 1 and the printer 50 in this embodiment can also print using the user interface export model as described above, the printer 50 cannot print using the command base model. Possible print types ("multi-print 9UP", "multi-print 16UP" and "index print") can be printed by the user interface export model.
[0070]
Hereinafter, referring to FIGS. 8 to 20, the operation of the direct print system constituted by the digital still camera 1 and the printer 50, in particular, printing by the command base model and the user interface export. -Focus on printing by model and explain its operation.
[0071]
FIG. 8 to FIG. 11 are flowcharts showing the operation flow of the direct print system. The operation flow of the digital still camera 1 is shown on the left side, and the operation flow of the printer 50 is shown on the right side. .
[0072]
When the mode selection dial 2 of the digital still camera 1 is set to the print 2b, the printer model name of the printer 50 that can be connected to the digital still camera 1 is displayed on the display screen 7 of the digital still camera 1. (Step 91) (FIG. 12; printer model selection screen W1). The printer that can be connected to the digital still camera 1 is a printer that is placed in a distance range where wireless communication with the digital still camera 1 is possible, and a printer mode selection slide switch 53 (see FIG. 5) is provided. It is connected to the digital still camera 1 by the printer set to the wireless camera communication mode (Cam Wireless) 53c or the USB cable 15, and the mode selection slide switch 53 is set to the USB camera communication mode (Cam USB) 53e. Means a printer.
[0073]
The printer model name is stored in advance in the nonvolatile memory 55 of the printer 50, and the printer model name stored in the nonvolatile memory 55 of the printer 50 is transmitted to the digital still camera 1 to select the printer model. A screen W1 is configured. When a plurality of printers 50 can be connected to the digital still camera 1, as shown in FIG. 12, a plurality of printer model names (XXXXX NC-100, XXXXX NC-50 And xxxxxx IJ-30) are displayed on the printer model selection screen W1 in a list. The character string in parentheses following the printer model name is the MAC address of each printer. The MAC address does not necessarily have to be displayed.
[0074]
The printer 50 to be used for printing is selected by the user (step 92). Selection of the printer 50 is performed by touching the upper triangle or the lower triangle on the printer model selection screen W1 or by pressing the upper key or the lower key of the up / down / left / right key 8. The model name of the selected printer is highlighted. When the execution button 10 is pressed, the printer whose printer model name is highlighted is determined as the printer 50 to be used for printing.
[0075]
When the printer 50 to be used for printing is selected, connection request data is transmitted from the digital still camera 1 to the selected printer 50. When the printer 50 receives connection request data from the digital still camera 1, the printer 50 returns reception completion data to the digital still camera 1. A connection between the digital still camera 1 and the printer 50 is established.
[0076]
When the digital still camera 1 receives the connection completion data, it requests the capability from the printer 50. Upon receiving the capability request, the printer 50 reads the capability script stored in the nonvolatile memory 71 and transmits it to the digital still camera 1.
[0077]
FIG. 13 shows an example of a description of a capability script stored in the nonvolatile memory 71 of the printer 50 and transmitted from the printer 50 to the digital still camera 1. In the capability script shown in FIG. 13, the portion written in Western characters on the left side is the description of the capability script. The text on the right side describes the description of the capability script and does not constitute the capability script.
[0078]
The capability script includes a description of the printer manufacturer name, printer model name, print type supported by the printer (having commands), and print paper type supported by the printer (having commands). In the capability script shown in FIG. 13, the printer is “standard print” (Standard-print), “multi-print 4 UP” (multi-print N-up = “4”), “multi-print 9 UP” (multi-print). -Print N-up = "9"), "multi-print 16UP" (multi-print N-up = "16") and "index print" (index-print) are described. Yes. It also describes that “L size” (L) and “2L size” (2L) printing paper is supported. The printer 50 stores commands in the nonvolatile memory 71 for the print types supported by the printer 50 described in the capability script and the types of print papers supported.
[0079]
When the digital still camera 1 receives the capability script from the printer 50, the digital still camera 1 capability script (not shown) stored in the non-volatile memory 35 of the digital still camera 1; The received capability script of the printer 50 is compared (step 93).
[0080]
As described above, the capability script of the printer 50 describes the type of print and the type of print paper that the printer 50 supports (having commands), and the capability script of the digital still camera 1 includes the digital script. The print types supported by the still camera 1 are described. By comparing the capability scripts, the digital still camera 1 and the printer 50 can grasp (detect) the print types that can be printed by the command base model and the print types that cannot be printed by the command base model. The
[0081]
A print type selection screen W2 is displayed on the display screen 7 of the digital still camera 1 (step 94, FIG. 14). The print type selection screen W2 shown in FIG. 14 includes print type names ("standard print", "multi-print-2 frames", and "multi-print-" supported by the digital still camera 1 (having commands). "4 frames") and "Other prints" are displayed. Among the print type names supported by the digital still camera 1, the print type names supported by the printer 50 ("Standard Print" (Standard Print) and "Multi Print-4 frames" (Multi Print-4up)) The normal character display is performed. Of the print type names supported by the digital still camera 1, the print type names that are not supported by the printer 50 ("Multi-Print-2up") are thin characters (gray characters). (In FIG. 14, it is enclosed by a chain line). Which of the print types supported by the digital still camera 1 is supported by the printer 50 based on the characters displayed on the print type selection screen W2 (that is, the command base model). It is possible to determine whether the printer 50 is capable of printing) and which print type is not supported by the printer 50.
[0082]
First, a print type supported by both the digital still camera 1 and the printer 50 (both have commands), here, a case where “standard print” is selected will be described.
[0083]
When the print type “standard print” is selected in the digital still camera 1 (step 95), that is, the selected print type is supported by both the digital still camera 1 and the printer 50, and the command If the print type is a print type that can be printed by the base model (“corresponding” in step 96), a command representing the selected print type is transmitted from the digital still camera 1 to the printer 50. When the printer 50 receives a print type command from the digital still camera 1, the printer 50 returns a response indicating that the reception has been performed normally to the digital still camera 1.
[0084]
When the digital still camera 1 receives from the printer 50 that the command related to the print type has been normally received, the digital still camera 1 executes the image selection program stored in the nonvolatile memory 35. A screen for selecting an image to be printed (print image selection screen W3) is displayed on the display screen 7 of the digital still camera 1 (step 97, FIG. 15). On the print image selection screen W3, an image based on the image data recorded on the memory card 42 attached to the digital still camera 1 is displayed, and a frame selection arrow, print type name, and print execution are displayed on this image. Buttons, shooting date, and frame number are superimposed and displayed. When the frame selection arrow is touched, the image of the next frame (or the image of the previous frame) is displayed on the print image selection screen W3.
[0085]
When the print execution button is touched, the image displayed on the print image selection screen W3 is determined as an image to be printed. Image data representing the determined image is transmitted to the printer 50 via, for example, the wireless interface 26 of the digital still camera 1 and the antenna 4.
[0086]
The image data transmitted to the printer 50 is received by the antenna 51 of the printer 50 and stored in the frame memory 80 via the wireless interface 79. The printer 50 returns to the digital still camera 1 that the reception of the image data has been normally completed. Image data stored in the frame memory 80 is read out and applied to the print engine 73. An image based on the image data is printed on the printing paper from the printing unit 85 connected to the print engine 73 and discharged (step 99).
[0087]
In the above example, since the command regarding the type of print paper is not stored in the nonvolatile memory 35 of the digital still camera 1, the print paper (L size paper or An image is printed on a 2L size paper.
[0088]
When further printing is performed for another image, the above-described processing is repeated (NO in step 98).
[0089]
When the mode selection dial 2 of the digital still camera 1 is switched from the print 2b to another mode, a disconnection request is transmitted from the digital still camera 1 to the printer 50. When the printer 50 receives the disconnection request, it returns disconnection completion data to the digital still camera 1 and ends the connection.
[0090]
Next, a case where a print type that is not supported by the digital still camera 1 is selected will be described.
[0091]
For example, a case where “other print” is selected on the print type selection screen W2 (FIG. 14) will be described. In this case, printing by the user interface export model is performed instead of printing by the command base model.
[0092]
When “other print” is selected (FIG. 8: step 95, FIG. 9: “not supported” in step 96), the digital still camera 1 starts the browser stored in the nonvolatile memory 35 (see FIG. 8). FIG. 10: Step 101).
[0093]
A first page request is transmitted from the digital still camera 1 to the printer 50. When the printer 50 receives the first page request, the printer 50 recognizes that printing is performed by the user interface export model. The printer 50 reads data representing the first page (for example, HTML data) from the nonvolatile memory 55 and transmits it to the digital still camera 1.
[0094]
On the display screen 7 of the digital still camera 1, an image (first page W4) based on the data representing the first page transmitted from the printer 50 is displayed (step 102, FIG. 16).
[0095]
The first page W4 has three types of prints supported by the printer 50, that is, “standard print” (Standard Print), “multi-print” (Multi Print), and “index print” (Index Print). Contains selectable images to represent.
[0096]
Hereinafter, a case where “multi-print” is selected from “standard print”, “multi-print”, and “index print” will be described.
[0097]
When multi-print is selected (step 103), an acquisition request for a page linked to the multi-print image (referred to as an N-up selection page) is transmitted from the digital still camera 1 to the printer 50. The The printer 50 recognizes the print type (step 121) and transmits data representing the N-up selection page to the digital still camera 1. An N-up selection page is displayed on the display screen 7 of the digital still camera 1 (step 104). FIG. 17 shows an example of an image (print number selection page W5) displayed on the display screen 7 instead of the first page W4 when multi-print is selected. The print number selection page W5 allows the user to select whether to print four (4-up), nine (9-up), or sixteen (16-up) images on one print sheet. Includes images for. Of course, it goes without saying that the print type displayed on the print number selection page W5 is a print type that the printer 50 can print.
[0098]
A case where 9 (9up) is selected will be described. When 9 (9up) are selected (UP number selection, step 105), a request for acquiring a page linked to the 9up image is transmitted from the digital still camera 1 to the printer 50. The printer 50 recognizes that 9up has been selected (step 122) and transmits data representing the paper size selection page to the digital still camera 1. FIG. 18 shows an example of an image (paper size selection page W6) displayed on the display screen 7 instead of the print number selection page W5 when 9 (9up) is selected on the print number selection page W5. This is shown (step 106).
[0099]
The paper size selection page W6 is displayed so that two paper sizes of L size or 2L size can be selected. When any paper size is selected (FIG. 11: step 107), data representing the selected paper size is transmitted from the digital still camera 1 to the printer 50. The printer 50 recognizes the paper size (L or 2L) to be used for printing (step 123).
[0100]
An execution confirmation page is transmitted from the printer 50 to the digital still camera 1 and displayed on the display screen 7 (step 108, FIG. 19).
[0101]
The execution confirmation page W7 includes a continue button (Continue). When the continue button is clicked, the image selection program stored in the non-volatile memory 35 of the digital still camera 1 is read and executed.
[0102]
An image represented by the image data recorded on the memory card 31 is displayed on the display screen 7 of the digital still camera 1 (step 109: FIG. 20: print image selection screen W8). 15 is different from the print image selection screen W3 shown in FIG. 15 in that the number of remaining frames is shown in the upper right corner of the screen. For example, when 9up is selected, nine pieces of image data are transmitted from the digital still camera 1 to the printer 50. The remaining number of frames indicates how many frames of 9 image data are to be transmitted.
[0103]
When the execution button 10 is clicked, image data representing an image displayed on the print image selection screen W8 is transmitted from the digital still camera 1 to the printer 50. The remaining number of frames is decremented.
[0104]
When the transmission of the nine pieces of image data is completed, the printer 50 prints (prints) an image based on the image data transmitted from the digital still camera 1 and outputs it (step 124).
[0105]
On the display screen 7 of the digital still camera 1, the execution confirmation page W7 is again displayed on the display screen (step 110, FIG. 19). When the continue button (Continue) is touched, the first page W4 is displayed again on the display screen 7 (step 102). When the cancel button 11 is pressed, the browser is terminated in the digital still camera 1 (step 112), and the print type selection page W2 (FIG. 14) is displayed again on the display screen 7 (in step 98). NO, step 94). When the mode selection dial 2 is changed from the print 2 b to another mode, a disconnection request is transmitted from the digital still camera 1 to the printer 50. When the printer 50 receives the disconnection request, it returns disconnection completion data to the digital still camera 1 and ends the connection. Of course, the digital still camera 1 and the printer 50 may be disconnected by pressing the cancel button 11, and the printer selection screen W1 shown in FIG.
[0106]
The direct print system described above supports both the command base model and the user interface export model. For the print types that can be printed by the command base model, printing is performed by the command base model. For the print types that cannot be printed by the command base model, the user interface export model is used. Can print.
[0107]
In the command-based model, the number of data transmission / reception (number of transactions) between the control device (digital still camera 1) and the controlled device (printer 50) is small. The control device can be controlled.
[0108]
On the other hand, the user interface export model requires more data transmission / reception (transactions) than the command-based model, and the control device also requires the execution of programs such as browsers. It is more complicated than the command-based model. However, since the control of the controlled device is not restricted by commands, the functions of the controlled device can be fully utilized.
[0109]
The direct print system described above has the advantages of both a command-based model and a user interface export model.
[0110]
In this embodiment, a direct print system including a digital still camera 1 and a printer 50 is taken as an example to switch (select) a command base model and a user interface export model. As described above, it goes without saying that the switching (selection) between the command base model and the user interface export model is not limited to the relationship between the digital still camera 1 and the printer 50. Applicable to mobile phones and home appliances (refrigerators, washing machines, air conditioners, etc.), digital still cameras and storage devices that store image data, and relationships between digital still cameras and display devices (television devices). Can do.
[Brief description of the drawings]
FIG. 1 shows an overview of a direct print system.
2A is a rear view of the digital still camera 1, and FIG. 2B is a mode selection dial.
FIG. 3 is a block diagram showing an electrical configuration of a digital still camera.
FIG. 4 shows a directory structure of an image file.
FIG. 5 shows a mode selection slide switch.
FIG. 6 is a block diagram illustrating an electrical configuration of the printer.
FIG. 7 shows a corresponding print type and a corresponding paper size for each of a digital still camera and a printer.
FIG. 8 is a flowchart showing a processing procedure of a digital still camera and a printer.
FIG. 9 is a flowchart illustrating a processing procedure of the digital still camera and the printer.
FIG. 10 is a flowchart illustrating a processing procedure of a digital still camera and a printer.
FIG. 11 is a flowchart illustrating a processing procedure of a digital still camera and a printer.
FIG. 12 shows an example of a printer model selection screen.
FIG. 13 shows an example of a capability script.
FIG. 14 shows an example of a print type selection screen.
FIG. 15 shows an example of a print image selection screen.
FIG. 16 shows an example of the first page.
FIG. 17 shows an example of an N-up selection page.
FIG. 18 shows an example of a paper size selection page.
FIG. 19 shows an example of an execution confirmation page.
FIG. 20 shows an example of a print image selection screen.
[Explanation of symbols]
1 Digital still camera
4,51 antenna
15 USB cable
20,70 CPU
26,79 wireless interface
27, 78 USB interface
28,79 connector
35,71 Non-volatile memory
50 printers

Claims (4)

The control device used in a system constituted by a control device and a controlled device corresponding to both a command base model and a user interface export model,
First storage means for storing a command for controlling the controlled device by a command base model;
Second storage means for storing a control device support command script representing the type of command stored in the first storage means;
Receiving means for receiving a controlled device support command script that is transmitted from the controlled device and represents a type of command that can be executed by the controlled device;
Display control means for displaying on the display device the types of processing that can be executed by the controlled device based on the controlled device support command script received by the receiving means;
Selecting means for accepting an input for selecting one of the types of processes that can be executed by the controlled device displayed on the display device by the display control means;
Based on the control device support command script stored in the second storage means and the controlled device support command script received by the receiving means, the process selected by the selection means is a command. -Judgment means for judging whether or not processing based on the base model is possible,
When the determination means determines that the process selected by the selection means can be processed by the command base model, it corresponds to the selected type of process stored in the first storage means. The command selected by the selection means by the command processing control means for causing the controlled apparatus to execute the selected type of process by transmitting a command to the controlled apparatus, and the determination means selects the process selected by the selection means. When it is determined that the processing by the user is impossible, the control device and the controlled device are operated by the user interface export model, and the user interface export data corresponding to the selected type of processing is obtained. User-instructed to cause the controlled device to execute the selected type of process by sending it to the controlled device. Face processing control unit, and has a control device which comprises a. The user interface processing control means is
By sending page request data from the control device to the controlled device, causing the controlled device to recognize that processing by a user interface export model is to be performed,
By transmitting user interface export data input in accordance with a page based on page data transmitted from the controlled device to the controlling device, the selected type of processing is performed by the controlled device. Is what you want to run,
The control device according to claim 1. The controlled device used in a system constituted by a control device and a controlled device corresponding to both the command base model and the user interface export model,
Command receiving means for receiving a command transmitted from the control device;
Command processing execution means for executing processing based on the command received by the command receiving means;
Page request data receiving means for receiving page request data transmitted from the control device;
Page data transmitting means for transmitting page data to the control device in response to reception of page request data by the page request data receiving means;
User interface export data receiving means for receiving user interface export data transmitted from the control device according to a page based on the page data, and user interface export data receiving means User interface processing execution means for executing processing based on the received user interface export data;
A controlled device comprising: The above control device used in a system constituted by a control device and a controlled device corresponding to both the command base model and the user interface export model,
First storage means for storing a command for controlling the controlled device by a command base model;
Second storage means for storing a control device support command script representing the type of command stored in the first storage means;
Receiving means for receiving a controlled device support command script that is transmitted from the controlled device and represents a type of command that can be executed by the controlled device;
Display control means for displaying on the display device the types of processing that can be executed by the controlled device based on the controlled device support command script received by the receiving means;
A selection means for accepting an input for selecting one of the types of processing that can be executed by the controlled device displayed on the display device;
Based on the control device support command script stored in the second storage means and the controlled device support command script received by the receiving means, the process selected by the selection means is a command. -Judgment means for judging whether or not processing based on the base model is possible,
When the determination unit determines that the selected process can be performed by the command-based model, the command corresponding to the selected process stored in the first storage unit is transmitted to the controlled device. To the command processing control means for causing the controlled device to execute the selected process, and when the selected process is determined to be impossible by the command-based model, Operate the control device and controlled device according to the user interface export model, and send the selected processing to the controlled device by the user interface export data, thereby controlling the selected processing. User interface processing control means to be executed by the apparatus;
Program to function as.

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