JP2005004457A - Image output system, image output device, and terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate an operation for image output by a user in an image output system. <P>SOLUTION: The print client 112 of a digital camera device 2 generates a print job start command for designating a printing condition and an image data file of an image to be printed. The printing job start command generated by the print client 112 is transmitted to a printer 1. The print client 103 of the printer device 1 generates the print job start command for designating the printing condition and the image data file of the image to be printed. In the printer 1, a storage client 102 acquires the image data file designated by the print job start command from the digital camera 2, and a print server 101 controls the printing of the image based on the image data file acquired by the storage client 102 in the printing condition based on the print job start command. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image output system that outputs an image data file from an image supply device and outputs an image based on the image data file, and an image output device and a terminal device used in the image output system.
[0002]
[Prior art]
In recent years, a so-called direct printing system has been developed in which a printer device is directly connected to a digital camera device, and an image taken by the digital camera device is printed without using a terminal device such as a personal computer (for example, Patent Documents). 1). The direct printing system includes a method for transferring an image data file such as a JPEG (Joint Picture Experts Group) method to a printer device, a print control command such as ESC / P generated from image data by a digital camera, and a print control command for the command. There is a method of transferring to a printer device.
[0003]
In the direct printing system, when the digital camera device and the printer device are connected or during the printing process, in addition to the image data and the print control command, the control command, its response, the status of the device and job Various control information such as notification is transmitted and received. For example, the digital camera device transmits the printing conditions designated by the user and the information of the image data file to be printed to the printer device as a print job start command.
[0004]
[Patent Document 1]
JP 2000-299777 A (paragraph 0017 etc.)
[0005]
[Problems to be solved by the invention]
However, in the conventional image output system described above, the user can perform an input operation for designating a printing condition or the like on the digital camera device, but can print on a device other than the digital camera device in the image output system. There is a problem that it is inconvenient in operation because an input operation for specifying a condition or the like cannot be performed.
[0006]
The present invention has been made in view of the above problems, and provides an image output system in which a user can easily perform an operation for image output, and an image output device and a terminal device used in the image output system. Objective.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, an image output system according to the present invention is connected directly to an image supply apparatus having an image data file, and receives the image data file from the image supply apparatus, and the image data And an image output device that outputs an image based on a file. The image supply device and the image output device are as follows. The image supply device is generated by a first image output command unit that generates an image output command that specifies an image output condition and an image data file of an image to be output, and a first image output command unit. Image output command transmission means for transmitting an image output command. The image output device includes an image output command receiving unit that receives the image output command generated by the first image output command unit, an image output condition, and an image output that specifies an image data file of an image to be output. A second image output command means for generating a command; an image data file acquisition means for acquiring an image data file designated by the image output command from the image supply device; and an image data file acquisition means based on the image output command. Image output control means for controlling output of an image based on the acquired image data file.
[0008]
When this image output system is used, since the image output command means is provided in a plurality of devices in the system, the user can perform an operation for image output on any of these devices. Makes it easier to perform operations for image output.
[0009]
An image output system of the present invention includes an image supply device having an image data file, and a terminal device that receives the image data file from the image supply device and generates image output control information for outputting an image based on the image data file And an image output device that receives image output control information generated from the image data file and outputs an image based on the image output control information. The image supply device and the terminal device are as follows: . The image supply device is generated by a first image output command unit that generates an image output command that specifies an image output condition and an image data file of an image to be output, and a first image output command unit. Image output command transmission means for transmitting an image output command. The terminal device includes an image output command receiving unit that receives the image output command generated by the first image output command unit, an image output command that specifies an image output condition, and an image data file of an image that is a target of image output. Second image output command means for generating image data, image data file acquisition means for acquiring an image data file designated by the image output command from the image supply device, and image output control for generating image output control information from the image data file Information generation means, image output control information transmission means for transmitting image output control information generated by the image output control information generation means to the image output device, and image data file acquisition means based on the image output command Control image output based on image data file, image output control information generation means and image output control information transmission And an image output control means for outputting an image to the image output apparatus using the stage.
[0010]
When this image output system is used, since the image output command means is provided in a plurality of devices in the system, the user can perform an operation for image output on any of these devices. Makes it easier to perform operations for image output.
[0011]
An image output apparatus of the present invention is an image output apparatus that is directly connected to an image supply apparatus having an image data file, receives an image data file from the image supply apparatus, and outputs an image based on the image data file, Image output command receiving means for receiving an image output condition and an image output command for designating an image data file of the image to be output from the image supply device, an image output condition, and an image of the image to be output Image output command means for generating an image output command for specifying a data file, image data file acquisition means for acquiring an image data file specified by the image output command from the image supply device, and image data based on the image output command Image output to control image output based on image data file acquired by file acquisition means And a control means.
[0012]
When this image output device is used, an image output command can be generated by the image supply device and the image output device, so that the user can perform an operation for image output on any of these devices. Makes it easier to perform operations for image output.
[0013]
In addition to the image output device of the present invention, the image output device of the present invention further includes connection means for detachably attaching a recording medium for storing the image data file. The image data file acquisition unit acquires the image data file specified by the image output command from the recording medium connected to the connection unit.
[0014]
By using this image output device, the user can handle the image data file on the recording medium connected to the image output device in the same way as the image data file in the image supply device. Makes it easier to perform operations for image output.
[0015]
Furthermore, in addition to any of the image output devices of the present invention, an image output device of the present invention comprises an operation unit that is operated by a user and outputs the operation information, and a display device, and includes an image data file acquisition means, a display device The image output command means is as follows. The image data file acquisition means acquires a list of image data files stored in the image supply device. The display device displays the list of image data files as characters and / or images. The image output command means selects one or more image data files from the list of image data files based on operation information from the operation unit, and selects the selected one or more image data files in the image output command. specify.
[0016]
When this image output device is used, even when the user operates the image output device, the image output device confirms a list of image data files in the image supply device, and the image data file of the image to be output can be easily obtained. This makes it easy for the user to perform an operation for image output.
[0017]
Furthermore, the image output device of the present invention is a device detection device that detects that an image supply device capable of transmitting an image output command interpretable by the image output control means is connected in addition to any of the image output devices of the above invention. Means. Then, the image output control means executes image output based on the image output command only when the connection of the image supply device is detected by the device detection means.
[0018]
When this image output device is used, the image output device can determine whether or not the image output processing based on the image data file in the image supply device can be executed before the image output command is generated.
[0019]
Furthermore, the image output apparatus of the present invention acquires both of the image output instruction received by the image output instruction receiving means and the image output instruction generated by the image output instruction means in addition to any of the image output apparatuses of the above invention. When possible, there is provided selection means for preferentially selecting one of the image output commands.
[0020]
When this image output device is used, the acquisition destination of the image output command can be switched as necessary, and malfunction due to an erroneous operation can be suppressed.
[0021]
The terminal device of the present invention receives an image data file from an image data supply device having an image data file, and outputs image output control information for outputting an image based on the image data file, and an image based on the image output control information. Image output command receiving means for receiving from the image data supply device an image output command for designating an image output condition and an image data file of an image to be output And an image output command means for generating an image output command for specifying an image output condition and an image data file of an image to be output, and an image data file specified by the image output command is acquired from the image data supply device Image data file acquisition means for generating image output control information from the image data of the image data file. Image output control information generating means, image output control information transmitting means for transmitting image output control information generated by the image output control information generating means to the image output device, and image data file acquiring means based on the image output command Image output control means for controlling the output of an image based on the image data file obtained by the above and causing the image output apparatus to output an image using an image output control information generating means and an image output control information transmitting means.
[0022]
When this terminal device is used, an image output command can be generated by the image supply device and the terminal device, so that the user can perform an operation for image output on any of these devices. It becomes easy to perform an operation for output.
[0023]
Furthermore, in addition to the terminal device of the present invention, the terminal device of the present invention includes an operation unit that is operated by a user and outputs the operation information, and a display device, and includes an image data file acquisition unit, a display device, and an image output command unit Is as follows. The image data file acquisition means acquires a list of image data files stored in the image supply device. The display device displays the list of image data files as characters and / or images. The image output command means selects one or more image data files from the list of image data files based on operation information from the operation unit, and selects the selected one or more image data files in the image output command. specify.
[0024]
When this terminal device is used, even when a user operates the terminal device, the terminal device confirms a list of image data files in the image supply device and easily selects an image data file of an image to be output. This makes it easier for the user to perform an operation for image output.
[0025]
Further, the terminal device of the present invention includes, in addition to any of the terminal devices of the above invention, device detection means for detecting that an image supply device capable of transmitting an image output command interpretable by the image output control means is connected. Prepare. The image output control means executes image output based on the image output command only when the connection of the image supply device is detected by the device detection means.
[0026]
When this terminal device is used, the terminal device can determine whether or not the image output process based on the image data file in the image supply device can be executed before the image output command is generated.
[0027]
Furthermore, the terminal device of the present invention can acquire both the image output command received by the image output command receiving means and the image output command generated by the image output command means in addition to any of the terminal devices of the above invention. In this case, a selection unit that preferentially selects any one of the image output commands is provided.
[0028]
When this terminal device is used, the acquisition destination of the image output command can be switched as necessary, and malfunction due to an erroneous operation can be suppressed.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0030]
Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of an image output system according to Embodiment 1 of the present invention. This image output system is a kind of so-called direct printing system, and includes a printer device 1 having a direct printing function and a digital camera device 2 capable of communication and processing according to a direct printing protocol adopted by the printer device 1.
[0031]
In FIG. 1, a printer apparatus 1 is an embodiment of an image output apparatus of the present invention, and is an apparatus that receives an image data file and prints an image based on the image data of the image data file. The digital camera device 2 is an image supply device that stores captured images as image data files in a predetermined recording medium and outputs the image data files as necessary.
[0032]
The communication path 3 is a wired transmission medium that connects the printer device 1 and the digital camera device 2. The communication path 3 is not limited to a wired communication path, and a wireless communication path may be used. In the first embodiment, a USB (Universal Serial Bus) cable is used for the communication path 3. When the communication path 3 is a wired communication path, the printer apparatus 1 and the digital camera apparatus 2 are provided with connectors (not shown), the connectors at both ends of the cable of the communication path 3 and the connectors of both apparatuses 1 and 2. Are connected to each other.
[0033]
In the printer apparatus 1 shown in FIG. 1, the communication circuit 11 is a circuit that transmits and receives various types of information as electrical signals via the communication path 3. The communication control unit 12 is a circuit or device that controls the communication circuit 11 and transmits / receives control information (control command, response to the device, job status notification, and the like) and an image data file according to various protocols. .
[0034]
The print control unit 13 performs data processing for generating a print control command (image output control information) such as ESC / P from the image data of the image data file, and controls and monitors the print mechanism 14 to perform print processing. Circuit or device for controlling The printing mechanism 14 is a mechanical and / or electrical component that outputs an image. The printing mechanism 14 of the printer apparatus 1 corresponds to a printing mechanism, a paper feeding mechanism, or the like. The print control unit 13 and the printing mechanism 14 constitute a printing unit that prints an image based on the image data file.
[0035]
The operation unit 15 is a circuit or device that is operated by a user and outputs a signal including the operation information. As the operation unit 15, various switches, a touch panel, and the like are used as appropriate. The display device 16 is a device that displays various types of information. As the display device 16, various indicators, a liquid crystal display, and the like are used as appropriate. The power supply circuit 17 is a circuit that is connected to, for example, a commercial power supply or an AC / DC converter and supplies supplied power to an internal circuit.
[0036]
In the digital camera device 2 shown in FIG. 1, the communication circuit 21 is a circuit that transmits and receives various types of information as electrical signals via the communication path 3. The communication control unit 22 is a circuit or device that controls the communication circuit 21 and transmits / receives information to / from a communication partner according to various protocols. The central control unit 23 is a circuit or device that executes various processes while exchanging various information with a circuit or device having various functions such as the communication control unit 22 and the recording medium 24.
[0037]
The recording medium 24 is a device that stores one or a plurality of image data files 31 including image data. The image data file 31 is a file including image data taken by a digital camera, for example, and other image data. The format of the image data is, for example, a JPEG (Joint Photographic Experts Group) format, an EXIF (EXchangeable Image File) format, or the like.
[0038]
As the recording medium 24, a semiconductor memory, a memory card using a semiconductor memory, a magnetic recording medium, an optical recording medium, a magneto-optical recording medium, or the like may be used, and may be fixed inside the digital camera device 2. The digital camera device 2 may be detachable.
[0039]
The operation unit 25 is a circuit or device that is operated by a user and outputs a signal including the operation information. As the operation unit 25, various switches, a touch panel, and the like are used as appropriate. The display device 26 is a device that displays various information such as an image based on image data. As the display device 26, various indicators, a liquid crystal display, and the like are appropriately used.
[0040]
The photographing unit 27 is a mechanism or device that has an optical system such as a lens, an image pickup device such as a CCD (Charge Coupled Device), and the like, takes a picture of a subject, and outputs image data corresponding to the taken image.
[0041]
The battery 28 is a battery that supplies power to the internal circuit of the digital camera device 2. In addition, as the battery 28, a storage battery, a disposable battery, etc. are used. When the digital camera device 2 is a device that requires portability, a battery 28 is provided as a power source. However, when the digital camera device 2 is a device that does not require portability, a printer device as a power source. Alternatively, a power supply circuit such as one power supply circuit 17 may be provided instead, or power may be supplied from the printer apparatus 1 via the communication path 3.
[0042]
FIG. 2 is a block diagram illustrating a hardware configuration example of the printer apparatus 1 in the image output system according to the first embodiment of the present invention. In FIG. 2, a CPU 41 is an arithmetic device that executes a program and executes processing described in the program. The ROM 42 is a memory that stores programs and data in advance. The ROM 42 stores in advance information on selectable options for setting various functions supported by the printer apparatus 1. The RAM 43 is a memory that temporarily stores the program and data when the program is executed.
[0043]
As a program executed by the CPU 41, a program for performing image processing such as color conversion and halftoning on the image data of the image data file, and print control such as control data for printing (ESC / P, etc.) from the image data. Command), control information related to direct printing, and a program for performing processing in accordance with a protocol for transferring image data are stored in the ROM 42, the nonvolatile memory 46, or other recording medium (not shown). ing.
[0044]
The print engine 44 is a circuit or device that controls the printing mechanism 14 based on the printing control data supplied from the CPU 41 to execute printing processing. That is, the print control unit 13 is realized by the CPU 41 and the print engine 44 that execute the program.
[0045]
The USB host-side interface 45 corresponds to the communication circuit 11 in FIG. 1 and is a host-side interface circuit defined by USB.
[0046]
The non-volatile memory 46 is a non-volatile semiconductor memory that stores various settings and their history. Instead of the nonvolatile memory 46, another recording medium such as a magnetic recording medium may be used.
[0047]
The bus 47 is a signal path that interconnects the CPU 41, ROM 42, RAM 43, print engine 44, USB host-side interface 45, nonvolatile memory 46, operation unit 15, and display device 16. The number of buses 47 and the topology of connections to the buses 47 such as the CPU 41 and the print engine 44 are not limited to those shown in FIG. The operation unit 15 and the display device 16 in FIG. 2 are the same as those in FIG.
[0048]
FIG. 3 is a block diagram illustrating a hardware configuration example of the digital camera device 2 in the image output system according to Embodiment 1 of the present invention. In FIG. 3, a CPU 61 is an arithmetic unit that executes a program and executes processing described in the program. The ROM 62 is a memory that stores programs and data in advance. The RAM 63 is a memory that temporarily stores the program and data when the program is executed.
[0049]
As a program executed by the CPU 61, a program for controlling each unit at the time of shooting or data transfer, a program for performing processing in accordance with a protocol for transfer of control information and image data related to direct printing, A program for managing the image data file is stored in the ROM 62 or other recording medium (not shown).
[0050]
The memory card 65 corresponds to the recording medium 24 in FIG. 1 and is a recording medium that stores image data obtained by photographing. Instead of the memory card 65, a semiconductor memory fixed in the device, a magnetic recording device, or the like may be used.
[0051]
The USB device side interface 66 corresponds to the communication circuit 21 in FIG. 1 and is a device side interface circuit defined by USB.
[0052]
The bus 67 is a signal path that connects the CPU 61, ROM 62, RAM 63, memory card 65, USB device-side interface 66, operation unit 25, display device 26, and photographing unit 27 to each other. The number of buses 67 and the topology of connections to the bus 67 such as the CPU 61 are not limited to those shown in FIG. Note that the operation unit 25, the display device 26, and the photographing unit 27 in FIG. 3 are the same as those in FIG.
[0053]
FIG. 4 is a diagram showing an example of a protocol used between the printer device 1 and the digital camera device 2 in the image output system according to Embodiment 1 of the present invention.
[0054]
In the first embodiment, first, as the physical layer 81, the communication path 3 which is a USB cable, and a signal transmission / reception circuit (not shown) in the USB host side interface 45 and the USB device side interface 66 are used. In the printer device 1 and the digital camera device 2 according to the first embodiment, there are USB layers 82a and 82b realized by the USB host side interface 45 and the USB device side interface 66 as layers for controlling the physical layer. Still image capture device class (SICD) is used as the USB class. Thereby, a data transmission path is realized. The USB standard currently exists such as USB 1.1, USB 2.0, etc., but may be a version proposed after the next version or a communication standard equivalent to USB may be used instead. When the USB is used for the communication path 3, the printer device 1 is a USB host and the digital camera device 2 is a USB device.
[0055]
At the higher level, an image transfer protocol (PTP) that defines control from outside the digital still image device (DSPD) and image data transfer to the outside of the digital still image device (DSPD) is used. The PTP layers 83a and 83b perform file transfer processing according to PTP. As a standard for PTP, there is “PIMA 15740: 2000” of PHOTOGRAPHIC AND IMAGEING MANUFACTURERS ASSOCIATION, INC. PTP is a protocol that provides a communication method for exchanging image data between DSPDs. In PTP, objects (image data files, etc.) in storage are specified by object IDs (object handles) instead of paths. Is done.
[0056]
In the first embodiment, direct data which is a protocol for printing by supplying image data stored in the digital camera device 2 directly to the printer device 1 via the communication path 3 above the PTP described above. A print protocol (hereinafter referred to as DPDP protocol) is used. The DPDP protocol layers 84a and 84b control image output by the DPDP protocol. In the DPDP protocol, control information related to print processing is communicated between the printer apparatus 1 and the digital camera apparatus 2 as a series of scripts (text data) described in a markup language (here, XML; eXtensible Markup Language). It is sent and received via the road 3. The control information related to the printing process includes various commands in the printing process, a response to the command, and notification of the status of the apparatus and the print job. Further, this script includes only control information and does not include the image data file itself to be printed. That is, information such as the storage location of the image data file is included in this script, but the image data itself is not included.
[0057]
Of the above-described protocols, in this embodiment, the physical layer 81 is realized by the communication circuit 11, the communication path 3, and the communication circuit 21, and the USB layers 82a and 82b are realized by the communication circuit 11 and the communication circuit 21. The PTP layers 83 a and 83 b and the DPDP protocol layers 84 a and 84 b are realized by the communication control unit 12 and the communication control unit 22.
[0058]
FIG. 5 is a diagram showing details of the DPDP protocol layer 84a mounted on the printer apparatus 1 in the image output system according to Embodiment 1 of the present invention. FIG. 6 is a diagram showing details of the DPDP protocol layer 84b implemented in the digital camera device 2 in the image output system according to Embodiment 1 of the present invention.
[0059]
As shown in FIG. 5 and FIG. 6, in the DPDP protocol layers 84a and 84b, in order to obtain consistency between the DPDP protocol layers 84a and 84b and a plurality of types of lower layers, the DPDP protocol layers 84a and 84b are arranged at the lowest layers of the DPDP protocol layers 84a and 84b. Transport layers 91a and 91b for transferring control information corresponding to the lower layer I / O format (command set, response format) are provided. Therefore, the lower layers of the DPDP protocol layers 84a and 84b are not limited to the PTP layers 83a and 83b, and the transport layers 91a and 91b may be changed according to the lower layers.
[0060]
In the DPDP protocol layers 84a and 84b, XML processing layers 92a and 92b for generating and interpreting XML scripts including control information are provided above the transport layers 91a and 91b, respectively. Application layers 93a and 93b that send and receive control information and advance direct printing processing are provided above 92b.
[0061]
Then, as shown in FIG. 5, in the application layer 93a of the printer apparatus 1, it is acquired by the storage client 102 based on the image output command (print job start command in the first embodiment) generated by the print clients 103 and 112. A print server 101 that controls output of an image based on the image data file, a storage client 102 that acquires from the digital camera device 2 an image data file specified by an image output command generated by the print clients 103 and 112, and an image A print client 103 that generates an output condition and an image output command that specifies an image data file of an image to be output is realized.
[0062]
On the other hand, as shown in FIG. 6, the application layer 93 b of the digital camera device 2 manages files such as image data files recorded on the recording medium 24, and the files and files are stored based on instructions from the storage client 102. A storage server 111 that outputs attached information (file capacity, file type, etc.), and a print client 112 that generates an image output condition and an image output command that specifies an image data file of an image to be output are realized. .
[0063]
FIG. 7 is a block diagram showing the relationship among the print clients 103 and 112, the print server 101, the storage client 102, and the storage server 111 in the image output system according to the first embodiment of the present invention.
[0064]
As shown in FIG. 7, in the printer device 1, the print client 103 acquires operation information from the operation unit 15 via the print control unit 13, and generates an image output command according to the operation information. The print server 101 controls print processing while exchanging control information with the print control unit 13. The print server 101 accepts an image output command from the print client 112 of the digital camera device 2 and accepts an image output command from the print client 103 of the printer device 1. In the digital camera device 2, the print client 112 acquires operation information from the operation unit 25 via the central control unit 23, generates an image output command according to the operation information, and the storage server 111 includes the central control unit 23 manages the recording medium 24 and receives a command from the storage client 102.
[0065]
In the digital camera device 2, the print client 112 of the DPDP protocol layer 84b in the communication control unit 22 functions as a first image output command unit that generates an image output command (a print job start command in the first embodiment). To do. Specifically, the print client 112 is realized by the CPU 61 executing a predetermined program.
[0066]
Further, the communication circuit 21 and the communication control unit 22 function as an image output command transmission unit that transmits an image output command. In the first embodiment, the USB device side interface 66 is used as the communication circuit 21.
[0067]
In the printer apparatus 1, the print client 103 of the DPDP protocol layer 84a in the communication control unit 12 functions as a second image output command unit that generates an image output command (a print job start command in the first embodiment). . Specifically, the print client 103 is realized by the CPU 41 executing a predetermined program.
[0068]
The communication circuit 11 and the communication control unit 12 function as an image output command receiving unit that receives an image output command. In the first embodiment, the USB host side interface 45 is used as the communication circuit 11.
[0069]
Further, the print server 101 of the DPDP protocol layer 84a in the communication control unit 12 functions as an image output control unit that controls processing of image output (printing in the first embodiment), and the DPDP protocol layer 84a in the communication control unit 12 The storage client 102 functions as an image data file acquisition unit that acquires the image data file specified by the image output command.
[0070]
Next, the operation of each device in the system will be described.
[0071]
First, a case where the user operates the operation unit 25 of the digital camera device 2 and uses the print client 112 of the digital camera device 2 to generate a print job start command that is an image output command will be described.
[0072]
FIG. 8 shows the DPDP protocol level when the print client 112 of the digital camera device 2 is used to generate a print job start command that is an image output command in the image output system according to the first embodiment of the present invention. It is a figure explaining the direct printing process of.
[0073]
In the printer device 1 and the digital camera device 2, after startup, the CPUs 41 and 61 execute various programs stored in advance in the ROMs 42 and 62. Thereby, in the printer device 1 and the digital camera device 2, the communication control units 12 and 22, the print control unit 13, and the central control unit 23 are realized.
[0074]
Thereafter, when the printer apparatus 1 and the digital camera apparatus 2 are physically connected by the communication path 3 by the user, first, the data transmission path based on the SICD class between the USB layers 82a and 82b by the entity (communication main body). Is established. When the USB transmission path is established, the entities of the PTP layers 83a and 83b that use the data transmission path are activated above the USB layers 82a and 82b. The entities of the protocol layers above the USB layers 82a and 82b and the USB layers 82a and 82b are realized by the communication control units 12 and 22.
[0075]
The printer device 1 and the digital camera device 2 each store a file having a predetermined name (or pretend to be virtually stored), and the communication control units 12 and 22 perform the processing based on PTP. When a file is detected, it is detected that a device that supports the DPDP protocol is connected as a communication partner. This discovery process ensures that the communication partner is using the same protocol (in this case, the DPDP protocol) used by itself.
[0076]
When a device compatible with the DPDP protocol is connected as a communication partner by this discovery processing, the communication control units 12 and 22 of the printer device 1 and the digital camera device 2 start processing according to the DPDP protocol.
[0077]
When the printer process 1 corresponding to the DPDP protocol is detected as a communication partner by the discovery process, the communication control unit 22 of the digital camera apparatus 2 displays the DPDP protocol version information, the vendor name of the digital camera apparatus 2, and the digital camera apparatus. 2 is notified to the printer apparatus 1 of environment information including version information unique to the vendor 2, product name of the digital camera apparatus 2, serial number of the digital camera apparatus 2, and the like (step S1).
[0078]
When the communication control unit 12 of the printer apparatus 1 receives the environmental information, the communication control unit 12 determines whether or not direct printing according to the DPDP protocol can be executed in cooperation with the digital camera apparatus 2 and follows the DPDP protocol. Information indicating whether direct printing is accepted, DPDP protocol version information, vendor name of the printer apparatus 1, vendor-specific version information regarding the printer apparatus 1, product name of the printer apparatus 1, serial number of the printer apparatus 1, and the like A response having the environmental information is transmitted to the digital camera device 2 (step S1). The communication control unit 22 of the digital camera device 2 receives a response including the environment information of the printer device 1 (step S1).
[0079]
At this time, the communication control unit 22 of the digital camera device 2 generates and transmits a control command described by an XML script “Authentication” in accordance with the DPDP protocol. When the communication control unit 22 generates and transmits a control command, control command information (command type, etc.) is passed from the print application layer 93b to the XML processing layer 92b, and the XML processing layer 92b is based on the information. The XML script is generated, and the transport layer 91b supplies the transfer instruction of the XML script to the lower protocol layer (here, the PTP layer 83b).
[0080]
On the other hand, when receiving the control command, the communication control unit 12 of the printer apparatus 1 generates and transmits an XML script as a response including its own environment information according to the DPDP protocol. When the communication control unit 12 receives a control command, the control command is passed as data from the lower protocol layer (here, the PTP layer 83a) to the transport layer 91a, and the XML processing layer 92a receives the XML of the control command. The control command information is extracted from the script, and the application layer 93a executes a process designated based on the control command information.
[0081]
After receiving the response that the communication control unit 22 of the digital camera device 2 can execute direct printing, the central control unit 23 of the digital camera device 2 uses the communication control unit 22 and the communication circuit 21 to Option information (information on settable values) for each of the setting items of a plurality of functions provided in the apparatus 1 is acquired from the printer apparatus 1 (step S2).
[0082]
Items of a plurality of functions that may be provided in the printer apparatus 1 include print quality setting, paper size setting, paper type setting, image data file format setting, date printing setting, and file name. There are print settings, image optimization process settings, print layout settings, fixed size print settings, and cropping settings.
[0083]
In the digital camera device 2, the print client 112 generates a control command ReqPrinterCapability for acquiring option information. An XML script corresponding to the control command is generated by the XML processing layer 92b. FIG. 9 is a diagram illustrating an example of an XML script corresponding to the control command ReqPrinterCapability by the print client 112 of the digital camera device 2 in the image output system according to the first embodiment of the present invention.
[0084]
The XML script shown in FIG. 9A is a control command ReqPrinterCapability when a function setting item “date printing setting” is designated. In the XML script shown in FIG. 9A, first, a ReqPrinterCapability tag indicating the type of the control command is arranged. The Request tag placed in the upper nest of the ReqPrinterCapability tag is a tag indicating that this XML script is a control command. In FIG. 9A, a DatePrint tag indicating a setting item of the function “date printing setting” is arranged in a lower nest of the ReqPrinterCapability tag. The setting item is expressed by one XML element, and the XML element is an empty element. Note that in the case of an xx tag, it refers to both the <xx> tag and the </ xx> tag (hereinafter the same).
[0085]
Also, the XML script shown in FIG. 9B is a control command ReqPrinterCapability when the setting item of the function “paper type setting” is designated. In the XML script shown in FIG. 9B, a PaperType tag indicating a setting item of the function “paper type setting” is arranged in a lower nest of the ReqPrinterCapability tag. Note that information on paper type options may be acquired after limiting the types of paper sizes. In this case, for example, a character string indicating a specific paper size type may be added to the PaperType tag as a constraint. With regard to the two functions related to each other such as the paper type setting and the paper size setting, when obtaining option information for one setting item, it is possible to attach a constraint condition for the other setting item. The Accordingly, when receiving a control command with such a constraint condition, the printer apparatus 1 includes only options satisfying the constraint condition in the response.
[0086]
Also, the XML script shown in FIG. 9C is a control command ReqPrinterCapability when the setting item of the function “print layout setting” is designated. In the XML script shown in FIG. 9C, a Layout tag indicating a setting item of a function “print layout setting” is arranged in a lower nest of the ReqPrinterCapability tag. Note that, for example, a character string indicating a specific paper size type may be added as a restriction condition to the Layout tag to limit the paper size type, and information on print layout options may be acquired. Since the print layout setting and the paper size setting are two functions that are related to each other, similarly to the above-described case, it is possible to attach a constraint condition for setting items of related functions.
[0087]
In addition to the above, it is possible to acquire file format option information that can be handled by the printer apparatus 1. At this time, if the file format of the DPOF job designation file is obtained as an option, the digital camera device 2 determines that the print job can be designated by the DPOF.
[0088]
On the other hand, upon receiving the above-described control command, the communication control unit 12 of the printer apparatus 1 lists one or more values (options) that can be selected in the printer apparatus 1 as option information for the setting items of the designated function. A response including a character string indicating option information is generated as an XML script and transmitted to the digital camera device 2. At this time, in the printer apparatus 1, the default setting value of the printer apparatus 1 is one of the options at a minimum. However, when the function itself cannot be used and there is no selectable value, a response including no option (that is, the option is empty) may be transmitted. When the print control unit 13 manages option information, the communication control unit 12 acquires option information from the print control unit 13.
[0089]
In the printer apparatus 1, the print server 101 generates a response to the control command ReqPrinterCapability for acquiring option information. An XML script corresponding to the response is generated by the XML processing layer 92a. FIG. 10 is a diagram illustrating an example of an XML script corresponding to a response to the control command ReqPrinterCapability by the print server 101 of the printer apparatus 1 in the image output system according to the first embodiment of the present invention.
[0090]
The XML script shown in FIG. 10A is an example of a response to the control command shown in FIG. That is, the XML script shown in FIG. 10A is a response corresponding to the control command ReqPrinterCapability when the function setting item “date printing setting” is designated. In the XML script shown in FIG. 10A, a ReqPrinterCapability tag that is a tag indicating the type of control command that is the basis of this response is arranged. Note that the Response tag arranged in the upper nest of the ReqPrinterCapability tag is a tag indicating that this XML script is a response to the control command. In FIG. 10A, the DatePrint tag indicating the setting item of the function “date printing setting” is arranged in the lower nest of the ReqPrinterCapability tag, and selectable values (here, “on” and “off”). )) Is specified. Note that the value “on” (character string) indicates the use of date printing that is set as default in the printer apparatus 1, and the value “off” indicates that the date printing process is not used. That is, in this case, for the date printing function in the printer apparatus 1, it is possible to select the default date printing process by the printer apparatus 1 and the nonuse of the date printing process.
[0091]
Further, the XML script shown in FIG. 10B is an example of a response to the control command shown in FIG. That is, the XML script shown in FIG. 10B is a response to the control command ReqPrinterCapability when the function setting item “paper type setting” is designated. In the XML script shown in FIG. 10B, a PaperType tag indicating a setting item of the function “paper type setting” is arranged in a lower nest of the ReqPrinterCapability tag. This PaperType tag specifies selectable values (here, “DefaultSetting”, “PlainPaper”, “GlossyPaper”, “PhotoPaper”, and “MatterPaper”). Note that the value “DefaultSetting” represents the default paper type of the printer apparatus 1, the value “PlainPaper” represents plain paper, the value “GlossyPaper” represents glossy paper, and the value “PhotoPaper”. Represents photographic printing paper, and the value “MatterPaper” represents matte paper. That is, in this case, the default setting, plain paper, glossy paper, photographic printing paper, and matte paper can be selected as the paper type setting in the printer apparatus 1.
[0092]
Also, the XML script shown in FIG. 10C is an example of a response to the control command shown in FIG. That is, the XML script shown in FIG. 10C is a response to the control command ReqPrinterCapability when the setting item of the function “print layout setting” is designated. In the XML script shown in FIG. 10C, a Layout tag indicating a setting item of the function “setting of print layout” is arranged in a lower nest of the ReqPrinterCapability tag. Then, selectable values (here, “DefaultSetting”, “1-up”, “2-up”, “4-up”, and “Borderless”) are designated by this Layout tag. Note that the value “DefaultSetting” represents the default print layout in the printer apparatus 1, and the value “1-up” represents the print layout of 1 up (one image per print sheet). The value “up” represents a 2-up (two images per print sheet) print layout, and the value “4-up” represents a 4-up (4 images per print sheet) print layout. , “Borderless” represents a print layout such as borderless printing with 1 up. That is, in this case, borderless printing can be selected for 1-up, 2-up, 4-up, and 1-up for setting the print layout in the printer apparatus 1.
[0093]
Thus, each option in the option information acquired for the setting item of each function is used as a menu item in a menu displayed to the user, for example. In this case, the menu item selected by the user is used as a setting value in a print job start command described later.
[0094]
For example, the central control unit 23 of the digital camera device 2 displays the menu on the display device 26 and selects a menu item according to a user operation on the operation unit 25. In this way, the printing conditions are set in the digital camera device 2.
[0095]
Returning to FIG. 8, the central control unit 23 of the digital camera device 2 displays the list of image data files 31 stored in the recording medium 24 on the display device 26 as characters and / or images (normal images or thumbnail images). One or a plurality of image data files 31 are selected in accordance with a user operation on the operation unit 25 (step S3).
[0096]
Thereafter, for example, when a predetermined operation is performed on the operation unit 25, the print client 112 corresponds to the printing condition and the image (image data file 31) selected by the user in the DPDP protocol layer 84b of the digital camera device 2. The XML processing layer 92b generates an XML script corresponding to the print job start command, and the transport layer 91b uses the lower layer to generate the XML script. Then, the data is transmitted to the printer device 1 via the communication path 3 (step S4).
[0097]
At this time, the setting value of each function is determined within the range of options for the acquired setting item of each function, and the XML script of the print job start command StartPrint is generated.
[0098]
The print job start command StartPrint includes the next job condition setting information (image output condition information) and print information (information of the image data file 31 of the image to be output).
[0099]
As job condition setting information, quality information for setting the print quality in this job, paper type information in the print job, paper size information in the print job, image format information, image optimization setting information, page layout information, etc. are required. Included depending on.
[0100]
The print information includes cropping area information for designating an area for cropping, an object ID of a job designation file such as an image data file or a DPOF file, and the number of times of repeated supply of each image data file (that is, the same image data Information indicating how many times the printer device 1 is continuously supplied) is included as necessary.
[0101]
FIG. 11 is a diagram showing an example of an XML script of the print job start command StartPrint used in this embodiment. In FIG. 11, a PrintJob tag is a tag indicating that this XML script is a print job start command. A tag for designating job condition setting information and a tag for designating print information are arranged below the PrintJob tag.
[0102]
In the script shown in FIG. 11, as a tag for specifying job condition setting information, a PrintQuality tag, a PaperSize tag, a PaperType tag, a DatePrint tag, and an ImageEnhancement tag are arranged below the PrintJob tag.
[0103]
The PrintQuality tag is a tag for designating quality information such as standard, draft, fine, and best. The PaperSize tag is a tag for designating paper size information in this job such as A4 size, and the paper size is designated by a predetermined value (for example, L). The PaperType tag is a tag for designating paper type information in this job, such as plain paper or photo printing paper, and a paper size is designated by a predetermined value (for example, PhotoPaper).
[0104]
Further, the DatePrint tag is a tag for designating whether or not date information designated by the Date tag is printed. The ImageEnhance tag is a tag for designating image optimization setting information indicating whether or not to perform image optimization.
[0105]
In the script shown in FIG. 11, an ImageFileID tag and a Date tag are arranged as tags for designating print information. The ImageFileID tag is a tag for designating the object ID of the image data file to be printed. The Date tag is a tag for designating the date printed on the side of the image.
[0106]
Note that any of the values (options) obtained from the response of the control command ReqPrinterCapability is used as the value of the job condition setting information specified by these tags.
[0107]
In the script shown in FIG. 11, there is only one ImageFileID tag. However, when printing a plurality of types of images, the object ID of the image data file is set for each image of the plurality of images by the ImageFileID tag. Is specified. Further, when the same image is continuously output a plurality of times, a Copy tag may be arranged after the ImageFileID tag of the image, and the number of times of repeated supply may be specified.
[0108]
On the DPDP protocol, the print client 112 of the digital camera device 2 logically transmits a print job start command as described above. The XML script of the print job start command is handled and transferred as one file which is transmission data of the image transfer protocol layer 83b which is a lower layer of the DPDP protocol layer 84b.
[0109]
In the printer apparatus 1, the communication control unit 12 receives the file according to the image transfer protocol and passes it to the DPDP protocol layer 84a. In the DPDP protocol layer 84a, the transport layer 91a receives the XML script file of the command StartPrint from the lower layer, and the XML processing layer 92a interprets the acquired print job start command XML script (step S5). The contents of the command are notified to the print server 101.
[0110]
The print server 101 acquires the image data file to be printed designated by the command from the digital camera device 2 using the storage client 102 (step S6).
[0111]
At that time, in the printer apparatus 1, the storage client 102 issues the file acquisition command GetObject by specifying the image data file 31 with the object ID (corresponding to the object ID in PTP) specified by the command StartPrint according to the DPDP protocol. In the digital camera device 2, the storage server 111 reads the image data file 31 specified by the file acquisition command GetObject. The image data file 31 is transferred to the printer apparatus 1 by PTP.
[0112]
Further, instead of the file acquisition command GetObject for acquiring the entire file, a file partial acquisition command GetPartialObject for acquiring a part of the file by a predetermined data amount may be transmitted a plurality of times to acquire the entire file.
[0113]
When the print server 101 of the printer apparatus 1 acquires the image data file 31, the print control unit 13 appropriately performs image processing such as color conversion and halftoning on the image data included in the image data file. Then, a print control command is generated from the image-processed data, and printing is performed according to the print control command (step S7).
[0114]
Next, a case where the user operates the operation unit 15 of the printer apparatus 1 and uses the print client 103 of the printer apparatus 1 to generate a print job start command that is an image output command will be described.
[0115]
FIG. 12 shows the DPDP protocol level when the print client 103 of the printer apparatus 1 is used to generate a print job start command that is an image output command in the image output system according to the first embodiment of the present invention. It is a figure explaining a direct printing process.
[0116]
Even in this case, the processing after the activation of the printer device 1 and the digital camera device 2 and the discovery processing at the time of connection between both are performed in the same manner as described above. Through this discovery process, the printer apparatus 1 can determine that the storage server 111 exists in the digital camera apparatus 2.
[0117]
In this case, mutual notification of environment information (step S1) and acquisition of option information by the digital camera device 2 (step S2) may be omitted. For example, when the print client 103 of the printer device 1 is used and the print client 112 of the digital camera device 2 is set not to be used at the time of starting both, the digital camera device 2 notifies the environment information to each other. (Step S1) and acquisition of option information (Step S2) by the digital camera device 2 may be omitted. On the other hand, if it is not specified which print client 103 or 112 is used to generate an image output command when both are activated, mutual notification of environmental information (step S1) and options by the digital camera device 2 Information is acquired (step S2).
[0118]
In this case, in the printer device 1, each option in the option information regarding the setting item of each function of the printer device 1 is used as, for example, a menu item in a menu displayed to the user. In this case, the menu item selected by the user is used as a print condition setting value in a print job start command described later.
[0119]
In addition, the printer device 1 causes the display device 26 to display a list of image data files 31 stored in the recording medium 24 of the digital camera device 2 on the display device 26 as characters and / or images (normal images or thumbnail images). One or a plurality of image data files 31 are selected according to a user operation on the unit 25 (step S3).
[0120]
At that time, as shown in FIG. 12, the storage client 102 of the printer apparatus 1 generates a control command GetObjectList for acquiring list information of the image data file 31 stored in the recording medium 24 of the digital camera apparatus 2. . Then, the XML processing layer 92a generates an XML script of the control command, and the transport layer 91a transmits the XML script to the digital camera device 2 using a lower layer.
[0121]
In the digital camera device 2, the transport layer 91b receives the XML script, the XML processing layer 92b interprets the XML script, and supplies the control command information to the storage server 111. When the control command is received, a list of object IDs of the image data file 31 is returned as the list information of the image data file 31 stored in the recording medium 24. The XML processing layer 92b generates an XML script including a list of the object IDs, and the transport layer 91b transmits the response XML script to the printer apparatus 1 using the lower layer. The storage client 102 of the printer apparatus 1 receives a list of object IDs as a response.
[0122]
Then, for example, the storage client 102 of the printer apparatus 1 generates a control command “Get Thumbnail” for acquiring a thumbnail image data file corresponding to the object ID for each object ID. When the storage server 111 of the digital camera device 2 receives the control command, it transmits the designated thumbnail image data file to the printer device 1 using the lower layer. In this way, the printer device 1 acquires thumbnail image data files (not shown) corresponding to all the image data files 31 stored in the recording medium 24 of the digital camera device 2. Based on the image data of these thumbnail image data files, the display device 16 displays a list of thumbnail images.
[0123]
The printer device 1 may acquire the file name of each object ID instead of the thumbnail image data file, and the display device 16 may display a list of characters of the file name.
[0124]
After the printing conditions and the image data file 31 of the image to be printed are selected, for example, when a predetermined operation is performed on the operation unit 25, the print client 103 in the DPDP protocol layer 84a of the printer apparatus 1 A print job start command as an output command is generated and supplied to the print server 101 (step S4). At this time, the command need not be an XML script, but the XML processing unit 92a may once generate an XML script and interpret the XML script.
[0125]
In the same manner as described above, the print server 101 acquires the image data file 31 to be printed designated by the command from the digital camera device 2 using the storage client 102 (step S6).
[0126]
When the print server 101 of the printer apparatus 1 acquires the image data file 31 in the same manner as described above, the print control unit 13 performs color conversion, half-processing on the image data included in the image data file. Image processing such as toning is appropriately performed, a print control command is generated from the image-processed data, and printing is performed in accordance with the print control command (step S7).
[0127]
As described above, in the image output system according to the first embodiment, the digital camera device 2 generates the print job start command for specifying the print condition and the image data file 31 of the image to be printed. And a communication circuit 21 and a communication control unit 22 for transmitting a print job start command generated by the print client 112. On the other hand, the printer apparatus 1 receives the print job start command generated by the print client 112, the communication circuit 11 and the communication control unit 12, the print condition, and the print job specifying the image data file 31 of the image to be printed. The print client 103 that generates the start command, the storage client 102 that acquires the image data file specified by the print job start command from the digital camera device 2, and the storage client 102 that has the print conditions based on the print job start command. A print server 101 that controls printing of an image based on the image data file.
[0128]
Accordingly, since the print clients 103 and 112 are provided in a plurality of devices in the system, the user can perform an operation for printing an image on any of these devices, and the user can It becomes easy to perform an operation for printing. That is, since the print job start command can be generated by the digital camera device 2 and the printer device 1, the user can perform an operation for outputting an image on any of these devices, and the user can print an image. It becomes easy to perform the operation for.
[0129]
Further, according to the first embodiment, in the printer device 1, the storage client 102 acquires a list of image data files 31 stored in the digital camera device 2, and the display device 16 receives the image data file 31. Display a list of text and / or images. The print client 103 selects one or more image data files 31 from the list of image data files based on the operation information from the operation unit 15 and prints the selected one or more image data files 31. Specify in the job start command.
[0130]
As a result, even when the user operates the printer apparatus 1, the printer apparatus 1 checks the list of image data files 31 in the digital camera apparatus 2 and easily selects the image data file 31 of the image to be printed. This makes it easier for the user to perform an operation for printing an image.
[0131]
In the first embodiment, the print server 101 may accept a print job start command and allow execution of image printing only when an appropriate device is connected as a connection partner in the discovery process. . That is, even if a print job start command is supplied from the printer client 103 of the printer apparatus 1, image printing based on the command may not be executed. Accordingly, the communication control unit 12 that performs the discovery process is connected to the digital camera device 2 that can transmit the print job start command interpretable by the print server 101 (that is, the digital camera device 2 that can support the DPDP protocol). It will function as a device detection means for detecting. In such a case, before the print job start command is generated, the printer device 1 can determine whether or not the digital camera device 2 can execute the image printing process based on the image data file.
[0132]
In the first embodiment, the communication control unit 12 of the printer apparatus 1 uses both the print job start command received by the communication circuit 11 and the communication control unit 12 and the print job start command generated by the print client 103. If it can be acquired, it may function as a selection unit that preferentially selects one of the print job start commands. In such a case, the acquisition destination of the print job start command can be switched as necessary, and malfunction due to an erroneous operation can be suppressed. In this case, the communication control unit 12 may set which print client 103 or 112 is prioritized in accordance with a user operation on the operation unit 15.
[0133]
Embodiment 2. FIG.
The image output system according to the second embodiment of the present invention is provided with a memory card slot 201 in which the memory card 301 can be attached and detached in the printer device 1 in addition to the image output system according to the first embodiment described above. A storage server 121 for managing the memory card 301 is added to 84a.
[0134]
FIG. 13 is a block diagram illustrating a hardware configuration example of the printer apparatus 1A in the image output system according to the second embodiment of the present invention. In FIG. 13, a memory card slot 201 functions as a connecting means that allows a memory card 301, which is one of portable recording media for storing image data files, to be attached and detached.
[0135]
FIG. 14 is a block diagram showing the relationship among the print clients 103 and 112, the print server 101, the storage client 102, and the storage servers 111 and 121 in the image output system according to the second embodiment of the present invention.
[0136]
As shown in FIG. 14, in the printer apparatus 1A, the print client 103 acquires operation information from the operation unit 15 via the print control unit 13 and generates an image output command according to the operation information. The printing process is controlled while exchanging control information with the printing control unit 13. The print server 101 accepts an image output command from the print client 112 of the digital camera device 2 and accepts an image output command from the print client 103 of the printer device 1A.
[0137]
Further, in the printer apparatus 1A, the storage client 102 can transmit a command regarding the image data file or its attached information to the two storage servers 111 and 121 in response to the image output command received by the print server 101. is there. The storage server 121 manages files such as image data files stored in the memory card 301 and accepts commands from the storage client 102.
[0138]
Note that other configurations of each device in the image output system according to the second embodiment of the present invention are the same as those in the first embodiment, and thus the description thereof is omitted.
[0139]
Next, the operation of each device in the system will be described. The operation of each device when printing an image based on the image data file stored in the recording medium 24 of the digital camera device 2 using the print clients 103 and 112 and the storage server 111 is the same as that of the first embodiment. Since this is the same as the case, the description thereof is omitted.
[0140]
When printing an image based on the image data file stored in the memory card 301 connected to the printer apparatus 1A, the print client 103 of the printer apparatus 1A specifies an image output command specifying the image data file stored in the memory card 301. Is generated and supplied to the print server 101. At that time, a list of image data files stored in the memory card 301 in advance is displayed on the display device 16 as characters and / or images, and the image data of the image to be printed according to a user operation on the operation unit 15. A file may be selected.
[0141]
The storage client 102 acquires the image data file in the memory card 301 specified by the print job start command from the storage server 121, and the print server 101 uses the print control unit 13 and the printing mechanism 14 to obtain the image data file. Print an image based on the data file.
[0142]
As described above, according to the second embodiment, the printer device 1 further includes the memory card slot 201 into which the memory card 301 for storing the image data file can be attached and detached. Then, the storage client 102 acquires the image data file designated by the print job start command from the memory card 301.
[0143]
Accordingly, when the user performs the same operation, the image data file on the memory card 301 connected to the printer apparatus 1 can be handled in the same manner as the image data file 31 in the digital camera apparatus 2, and the user can It becomes easy to perform an operation for printing.
[0144]
Embodiment 3 FIG.
FIG. 15 is a block diagram showing a configuration of an image output system according to Embodiment 3 of the present invention. 15A, a personal computer 401 has a CPU, ROM, RAM, hard disk drive (HDD), etc., and is a terminal device that can execute an operating system and various application programs. And a terminal device to which various peripheral devices such as a digital camera device can be connected. Note that the digital camera device 2 can be connected to the personal computer 401 via the communication path 3, and the PC printer 402 can be connected via the communication path 403. In the third embodiment, the communication path 403 is a USB cable.
[0145]
The PC printer 402 is an image output device that receives a print control command (image output control information) generated from an image data file and prints (outputs) an image based on the print control command.
[0146]
Since the digital camera device 2 is the same as that in the first and second embodiments, the description thereof is omitted.
[0147]
FIG. 16 is a block diagram illustrating a hardware configuration example of the personal computer 401 in the image output system according to the third embodiment of the present invention. In FIG. 16, a CPU 421 is an arithmetic unit that executes a program such as an operating system, an application program, a device driver, and the like, and executes processing described in the program. The ROM 422 is a memory that stores programs and data in advance. The RAM 423 is a memory that temporarily stores the program and data when the program is executed.
[0148]
As a program executed by the CPU 421, a program for performing image processing such as color conversion and halftoning on the image data of the image data file, and print control such as control data for printing (ESC / P, etc.) from the image data. Command), USB host device driver program, control information related to direct printing, and a program for processing according to a protocol for transferring image data, ROM 422, HDD 424, or other recording not shown Stored on media.
[0149]
The USB host-side interface 425 is a host-side interface circuit defined by USB. The USB host side interface 425 is connected to one or a plurality of USB devices such as the digital camera device 2, the PC printer 402, an input device (operation unit) such as a keyboard and a mouse (not shown).
[0150]
The image processing circuit 426 is a circuit mounted as a graphic card or the like that is supplied with image data and supplies an image signal corresponding to the image data to a display device such as a display (not shown) or a projection device such as a projector. .
[0151]
FIG. 17 is a diagram hierarchically showing processing units realized by the personal computer 401 executing various programs in the image output system according to Embodiment 3 of the present invention.
[0152]
In FIG. 17, a physical layer 441 is a communication circuit realized by a USB host side interface 425. The USB host control layer 442 is a processing unit that controls the physical layer 441, and the USB bus class layer 443 is a processing unit that manages bus connections with peripheral devices connected to the physical layer 441. The printer class layer 444 is a processing unit that manages communication with the PC printer 402 via USB based on a printer class that is one of USB device classes. The spooler 445 is a processing unit that temporarily holds a plurality of print jobs as a queue and sequentially outputs them. The printer driver 446 is a processing unit that generates a print control command from image data after image processing, and notifies the spooler 445 of a series of print control commands for one image as one print job. The image processing module 447 is a processing unit that performs image processing such as color conversion processing and halftoning processing on the image data of the image data file.
[0153]
These physical layers 441 to image processing module 447 are installed in a normal personal computer 401. Among them, the USB host control layer 442 to the printer class layer 444 correspond to the USB host controller equipped as the physical layer 441, and the spooler 445 to the image processing module 447 are PCs connected to the personal computer 401. This corresponds to the printer 402 for the printer, and is normally prepared by the vendor of the printer 402 for the PC.
[0154]
The personal computer 401 further includes processing units such as a still image capture device class layer 451, an image transfer protocol layer 452, and a DPDP protocol layer 453 shown in FIG. The still image capture device class layer 451 is a processing unit that implements a USB transmission path according to the still image capture device class, which is one of the USB device classes, and the PTP layer 452 is an image data file according to an image transfer protocol. The DPDP protocol layer 453 is a processing unit that transmits and receives control information according to the DPDP protocol described in the first embodiment.
[0155]
The still image capture device class layer 451, the image transfer protocol layer 452, and the DPDP protocol layer 453 have the same functions as those of the DPDP protocol layer 84a, the PTP layer 83a, and the USB layer 82a of the printer apparatus 1 according to the first embodiment. Have That is, the DPDP protocol layer 453 has the structure shown in FIG. 5 and includes the printer server 101, the storage client 102, and the print client 103. However, the DPDP protocol layer 453 supplies an image data file to the image processing module 447 instead of the print control unit 13 and causes an image to be printed based on the image data file.
[0156]
In the third embodiment, the USB host-side interface 425 functions as an image output command receiving unit that receives an image output command from the digital camera device 2, and the image output control information (embodiment) is transmitted to the PC printer 402. 3 functions as image output control information transmission means for transmitting a print control command). In addition, the printer driver 446 and the image processing module 447 function as image output control information generation means for generating image output control information from the image data of the image data file.
[0157]
Next, the operation of each device in the system will be described.
[0158]
In the image output system according to the third embodiment, the personal computer 401 and the PC printer 402 function in the same manner as the printer device 1 according to the first embodiment. That is, the personal computer 401 acquires the image data file 31 specified in the print job start command that is an image output command from the digital camera device 2, generates a print control command from the image data of the image data file 31, and uses the PC The image is supplied to the printer 402 and printed.
[0159]
The other operations, that is, the transfer of control information between the printer server 101, the storage client 102, the print clients 103 and 112, and the storage servers 111 and 121, the control of the printing process, etc. are the same as those in the first embodiment. Since this is the same, the description thereof is omitted.
[0160]
Similarly to the first embodiment, in the personal computer 401 in the image output system according to the third embodiment, the device detection unit and the selection unit are realized by the CPU 421 executing a predetermined program.
[0161]
15B includes a relay device 501 in which the personal computer 401 in the image output system shown in FIG. 15A is configured by integrating an operation unit 511, a display unit 512, and a control unit 513. It is a thing. In this relay apparatus 501, the control unit 513 has the same configuration as the internal configuration of the personal computer 401 shown in FIG. 16, and a display unit 512 such as a liquid crystal display is connected to the image processing circuit 526, and the switch An operation unit 511 such as a touch panel is connected to the CPU 421 via an interface (not shown). And these operation part 511, the display part 512, and the control part 513 are installed in the same housing | casing. The operation of the relay device 501 is the same as that of the personal computer 401 described above, but a user interface function by the operation unit 511 and the display unit 512 is added to the relay device 501.
[0162]
As described above, in the image output system according to the third embodiment, the personal computer 401 in which the DPDP protocol layer 453 and the like are installed and the existing PC printer 402 are the printer device 1 for direct printing in the first embodiment. Used in the same way as As a result, the printing process similar to the direct printing can be realized only by installing the direct printing program in the personal computer 401 connected to the PC printer 402 without preparing the printer apparatus 1 for direct printing. The same effects as those of the first embodiment can be obtained.
[0163]
Each embodiment described above is a preferred example of the present invention, but the present invention is not limited to these, and various modifications and changes can be made without departing from the scope of the present invention. It is.
[0164]
For example, in each of the above-described embodiments, the printer apparatus 1 is cited as an embodiment of the image output apparatus of the present invention. However, the embodiment of the image output apparatus of the present invention is not limited to the printer apparatus 1. A device that records an image on various materials, a display device that displays an image, a projection device that projects an image, and the like can also be used.
[0165]
Further, instead of the PC printer 402 in the third embodiment, a display device or a projection device may be used. In that case, an analog image signal or a digital image signal supplied to these devices is used as image output control information.
[0166]
In each of the above-described embodiments, the digital camera device 2 is cited as one embodiment of the image supply device of the present invention. It can be set as the various electronic devices incorporating the imaging device which images. Further, the embodiment of the image supply device of the present invention can be an electronic apparatus that can incorporate a recording medium for storing an image data file without incorporating an imaging device. Examples of such electronic devices include a mobile phone, a PDA, a music player, a television receiver, a video recording / playback device, a television phone, and a television vision conference device. The digital camera device 2 may be a portable device or a device that is not very portable.
[0167]
In each of the above-described embodiments, control information is described using XML, which is one of the markup languages. However, other markup languages such as SGML (Standard Generalized Markup Language) are used. You may make it describe.
[0168]
In each of the above-described embodiments, PTP and USB are used in layers below the DPDP protocol. However, other protocols such as TCP / IP (Transmission Control Protocol / Internet Protocol) may be used. Good. In addition, IEEE 1394, IrDA, wired LAN, Bluetooth, wireless LAN, or the like may be used as a transmission medium at that time.
[0169]
Further, the command name and tag name of the DPDP protocol used in each of the above embodiments are not limited to those described above, and other names may be used. Further, regarding the DPDP protocol command, other commands having the same function or a combination thereof may be used.
[0170]
In each of the above-described embodiments, a DPOF job designation file or the like is designated as the print job start file, and the printer apparatus 1 acquires the job designation file from the digital camera apparatus 2 and analyzes the job designation file. The print job may be executed.
[0171]
【The invention's effect】
According to the present invention, it is possible to obtain an image output system in which a user can easily perform an operation for image output, and an image output device and a terminal device used in the image output system.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an image output system according to Embodiment 1 of the present invention.
FIG. 2 is a block diagram illustrating a hardware configuration example of a printer apparatus in the image output system according to the first embodiment of the present invention.
FIG. 3 is a block diagram illustrating a hardware configuration example of a digital camera device in the image output system according to the first embodiment of the present invention.
FIG. 4 is a diagram illustrating an example of a protocol used between a printer device and a digital camera device in the image output system according to the first embodiment of the present invention.
FIG. 5 is a diagram showing details of a DPDP protocol layer implemented in the printer apparatus in the image output system according to the first embodiment of the present invention.
FIG. 6 is a diagram showing details of a DPDP protocol layer implemented in the digital camera device in the image output system according to Embodiment 1 of the present invention.
FIG. 7 is a block diagram illustrating a relationship among a print client, a print server, a storage client, and a storage server in the image output system according to the first embodiment of the present invention.
FIG. 8 is a diagram illustrating a DPDP protocol in a case where a print job start command as an image output command is generated using a print client of a digital camera device in the image output system according to the first embodiment of the present invention. It is a figure explaining the direct printing process in a level.
FIG. 9 is a diagram illustrating an example of an XML script corresponding to a control command ReqPrinterCapability by a print client of the digital camera device in the image output system according to the first embodiment of the present invention.
FIG. 10 is a diagram illustrating an example of an XML script corresponding to a response to a control command ReqPrinterCapability by the print server of the printer device in the image output system according to the first embodiment of the present invention.
FIG. 11 is a diagram showing an example of an XML script of a print job start command StartPrint used in the image output system according to the first embodiment of the present invention.
FIG. 12 shows a DPDP protocol level when a print job start command that is an image output command is generated using the print client of the printer device in the image output system according to the first embodiment of the present invention; It is a figure explaining the direct printing process in FIG.
FIG. 13 is a block diagram illustrating a hardware configuration example of a printer device in an image output system according to a second embodiment of the present invention.
FIG. 14 is a block diagram illustrating a relationship among a print client, a print server, a storage client, and a storage server in the image output system according to the second embodiment of the present invention.
FIG. 15 is a block diagram showing a configuration of an image output system according to Embodiment 3 of the present invention.
FIG. 16 is a block diagram illustrating a hardware configuration example of a personal computer in the image output system according to the third embodiment of the present invention.
FIG. 17 is a diagram hierarchically showing processing units realized by a personal computer executing various programs in the image output system according to Embodiment 3 of the present invention.
[Explanation of symbols]
1 Printer device (image output device)
2 Digital camera device (image supply device)
11 Communication circuit (image output command receiving means)
12 Communication control unit (image output command receiving means, second image output command means, image data file acquisition means, image output control means, device detection means, selection means)
15 Operation unit
16 Display device
21 Communication circuit (image output command transmission means)
22 Communication control unit (first image output command means, image output command transmission means)
31 Image data file
45 USB host interface (image output command receiving means)
66 USB device side interface (image output command transmission means)
101 Print server (image output control means)
102 Storage client (image data file acquisition means)
103 Print client (second image output command means)
112 Print client (first image output command means)
201 Memory card slot (connection means)
301 Memory card (recording medium)
401 Personal computer (terminal device)
402 Printer for PC (image output device)
425 USB host side interface (image output command receiving means, image output control information transmitting means)
446 Printer Driver (Image Output Control Information Generation Unit)
447 Image processing module (image output control information generating means)

Claims (11)

An image output device comprising: an image supply device having an image data file; and an image output device directly connected to the image supply device, receiving the image data file from the image supply device, and outputting an image based on the image data file In the system,
The image supply device includes: a first image output command unit that generates an image output command specifying an image output condition and the image data file of an image to be output; and the first image output command unit. Image output command transmission means for transmitting the generated image output command,
The image output device includes an image output command receiving unit that receives the image output command generated by the first image output command unit, an image output condition, and the image data file of an image to be output. Based on the second image output command means for generating an image output command to be specified, an image data file acquisition means for acquiring the image data file specified by the image output command from the image supply device, and the image output command Image output control means for controlling output of an image based on the image data file acquired by the image data file acquisition means,
An image output system characterized by An image supply device having an image data file, a terminal device that receives the image data file from the image supply device and generates image output control information for outputting an image based on the image data file, and the image data file In an image output system comprising: an image output device that receives the generated image output control information and outputs an image based on the image output control information;
The image supply device includes: a first image output command unit that generates an image output command specifying an image output condition and the image data file of an image to be output; and the first image output command unit. Image output command transmission means for transmitting the generated image output command,
The terminal device designates an image output command receiving unit that receives the image output command generated by the first image output command unit, an image output condition, and the image data file of an image to be output. Second image output command means for generating an image output command to be performed, image data file acquisition means for acquiring an image data file designated by the image output command from the image supply device, and image output control from the image data file Based on the image output control information generating means for generating information, the image output control information transmitting means for transmitting the image output control information generated by the image output control information generating means to the image output device, and the image output command Controlling output of an image based on the image data file acquired by the image data file acquisition means, and Having an image output control means for outputting an image to the image output device using the output control information generating means and the image output control information transmitting unit,
An image output system characterized by In an image output apparatus that is directly connected to an image supply apparatus having an image data file, receives the image data file from the image supply apparatus, and outputs an image based on the image data file.
Image output command receiving means for receiving an image output condition and an image output command for designating the image data file of the image to be output from the image supply device;
Image output command means for generating an image output command for specifying the image output condition and the image data file of the image to be output; and
Image data file acquisition means for acquiring the image data file designated by the image output command from the image supply device;
Image output control means for controlling the output of an image based on the image data file acquired by the image data file acquisition means based on the image output command;
An image output apparatus comprising: A connection means for detaching a recording medium for storing the image data file;
The image data file acquisition means acquires an image data file designated by the image output command from a recording medium connected to the connection means;
The image output apparatus according to claim 3. An operation unit that is operated by the user and outputs the operation information, and a display device;
The image data file acquisition means acquires a list of image data files stored in the image supply device,
The display device displays a list of the image data files as characters and / or images,
The image output command means selects one or more image data files from a list of image data files based on operation information from the operation unit, and outputs the selected one or more image data files to the image output. Specified in the directive,
The image output apparatus according to claim 3. Device detection means for detecting that the image supply device capable of transmitting an image output command interpretable by the image output control means is connected;
The image output control means executes image output based on the image output command only when connection of the image supply device is detected by the device detection means,
The image output apparatus according to claim 3. Selection means for preferentially selecting one of the image output commands when both the image output command received by the image output command receiving unit and the image output command generated by the image output command unit can be acquired. The image output apparatus according to any one of claims 3 to 6, further comprising: An image output apparatus that receives the image data file from an image data supply apparatus having an image data file, and outputs image output control information for outputting an image based on the image data file, based on the image output control information In the terminal device that transmits to
Image output command receiving means for receiving from the image data supply device an image output command for designating the image output condition and the image data file of the image to be output;
Image output command means for generating an image output command for specifying the image output condition and the image data file of the image to be output; and
Image data file acquisition means for acquiring an image data file designated by the image output command from the image data supply device;
Image output control information generating means for generating image output control information from the image data of the image data file;
Image output control information transmitting means for transmitting the image output control information generated by the image output control information generating means to the image output device;
Based on the image output command, controls output of an image based on the image data file acquired by the image data file acquisition unit, and uses the image output control information generation unit and the image output control information transmission unit to Image output control means for causing the image output apparatus to output an image;
A terminal device comprising: An operation unit that is operated by the user and outputs the operation information, and a display device;
The image data file acquisition means acquires a list of image data files stored in the image supply device,
The display device displays a list of the image data files as characters and / or images,
The image output command means selects one or more image data files from a list of image data files based on operation information from the operation unit, and outputs the selected one or more image data files to the image output. Specified in the directive,
The terminal device according to claim 8. Device detection means for detecting that the image supply device capable of transmitting an image output command interpretable by the image output control means is connected;
The image output control means executes image output based on the image output command only when connection of the image supply device is detected by the device detection means,
The terminal device according to claim 8. Selection means for preferentially selecting one of the image output commands when both the image output command received by the image output command receiving unit and the image output command generated by the image output command unit can be acquired. The terminal device according to claim 8, comprising: a terminal device according to claim 8.

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