JP3988597B2 - Image output system, image output device used therefor, image input device, and control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image output system, an image input device used therefor, an image output device, and a control method, and more specifically, an image input device that inputs an image and a plurality of image output devices that output an image in a different output mode. And an image input apparatus, an image output apparatus, and a control method used for the image output system.
[0002]
[Prior art]
Conventionally, USB (Universal Serial Bus) is known as a communication interface for connecting a general-purpose computer and peripheral devices. When a computer and a peripheral device are connected by this USB, the computer normally functions as a host and controls the peripheral device in a dependent manner. Therefore, a computer that supports USB is equipped with a host controller for functioning as a host. In the USB standard, the format of data transmission / reception with a personal computer is defined for each function of a device, and is defined as a device class. Examples of the device class include a storage class, an HID class, an STI class, and a printer class.
[0003]
By the way, the thing which connects a digital camera and a printer directly using such USB connection is proposed (refer patent document 1). In this technology, a mass storage class device driver is provided to control the printer as a host, and the digital camera is controlled as a mass storage class device. The digital camera is controlled by an operation panel provided on the printer. The stored image can be printed by a printer without going through a computer.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-290612 (FIG. 1)
[0005]
[Problems to be solved by the invention]
However, as described above, the USB standard presupposes that a computer has a host function and is connected to a peripheral device. Therefore, when connecting devices other than a computer using USB, The question is whether it is preferable to have the device function as a host. For example, considering that a digital camera and a printer are connected via USB and an image recorded on the digital camera is directly printed by the printer, in consideration of operability, the digital camera can be operated by a digital camera alone. It is preferable to provide a function as a host. However, considering portability, it is not preferable to provide a digital camera with a memory area for storing a large amount of device drivers for controlling devices from the host and a host function that requires a large current supply. The problem regarding which device has such a host function exists as a similar problem as long as one of the devices is a communication system that controls the other device in a dependent manner regardless of the USB connection.
[0006]
In addition, considering USB connection with a digital camera, there is also a request to directly connect a digital camera and a projector so that captured images can be directly displayed on the projector without going through a computer. It becomes a problem whether to make it a host.
[0007]
Furthermore, when the connectable devices have different functions as in the above-described example of the digital camera, the processing on the host side is different. However, since portability is strongly required, the processing on the digital camera side is It is preferable to make many of them common.
[0008]
An object of the image output system of the present invention is to solve such problems and simplify the processing on the image input device side while allowing the image input device to be connected to a plurality of image output devices that output images in different output modes. To do.
[0009]
[Means for solving the problems and their functions and effects]
The image output system, image input apparatus, image output apparatus, and control method of the present invention employ the following means in order to achieve the above-described object.
[0010]
The image output system of the present invention includes:
An image output system in which an image input device that inputs and stores an image and any of a plurality of image output devices that output an image in different output modes are connected via a communication interface of a predetermined communication standard,
(A) The image input device includes:
Image output in a manner independent of the output manner of the connected image output device based on one or more images selected from the stored images and the output conditions selected for the images Job generation means for generating a job;
Job transmission means for transmitting the generated job to the connected image output device via the communication interface;
With
(B) The connected image output device includes:
Job receiving means for receiving a job transmitted by the job transmitting means of the image input device;
Job interpreting means for interpreting the received job based on an output mode of the connected image output device;
Image output executing means for outputting an image based on the interpreted job;
It is a summary to provide.
[0011]
In the image output system of the present invention, an image input device that inputs and stores an image is based on one or more images selected from the stored images and output conditions selected for the images. A job related to image output is generated in a manner independent of the output manner of the connected image output device, and is transmitted to the connected image output device via a communication interface of a predetermined communication standard using the generated job. To do. The image output device connected to the image input device among the plurality of image output devices having different output modes receives the job transmitted by the image input device, and the received job is connected to the image output device connected to the image input device. Based on the output mode, the image is output based on the interpreted job. Accordingly, the image input device only needs to transmit the same job for outputting an image regardless of the connected image output device among the plurality of image output devices having different output modes. This process can be simplified.
[0012]
In the image output system of the present invention, the plurality of image output devices include a printing device that prints an image as one of the image output devices, and the connected image output device is the printing device. The job interpretation means may be means for interpreting the received job output condition as a print condition for printing an image. In this way, when the image output device connected to the image input device is a printing device that prints an image, the print device is generated in a manner independent of the output mode of the connected image output device, and the image input is performed. The job output condition transmitted from the apparatus can be interpreted as a print condition for printing an image, and the image can be printed under the print condition.
[0013]
In the image output system of the present invention, the plurality of image output devices include a display device that displays an image as one of the image output devices, and the connected image output device is the display device. The job interpreting means may be means for interpreting the output condition of the received job as a display condition for displaying an image. In this way, when the image output device connected to the image input device is a display device that displays an image, the display device is generated in a manner independent of the output mode of the connected image output device, and the image input is performed. It is possible to interpret the output condition of the job transmitted from the apparatus as the display condition for displaying the image and display the image under the display condition.
[0014]
Alternatively, in the image output system of the present invention, the plurality of image output devices include at least a printing device that prints an image and a display device that displays the image as the image output device, and the output condition selection means of the image input device includes: , Means for selecting a printing condition as the output condition, and the job generation means of the image input device is a means for generating a job corresponding to the selected printing condition regardless of the connected image output device. And the job interpreting means when the connected image output apparatus is the display apparatus may be means for interpreting the print condition of the job as a display condition for displaying an image. . By doing so, it is possible to instruct the display apparatus to display an image by a job instructing the printing apparatus to print an image, so that the processing of the image input apparatus can be simplified.
[0015]
Further, in the image output system of the present invention, the job interpretation unit of the connected image output apparatus is configured to output the image output apparatus among the output conditions of the job transmitted by the job transmission unit of the image input apparatus. It may be a means for interpreting only a corresponding condition as an output condition for the image output apparatus. In this way, the image output apparatus connected to the transmission of the same job from the image input apparatus can appropriately interpret the output condition as its own job.
[0016]
In the image output system of the present invention, the predetermined communication standard is a communication standard in which one of connected devices controls the other in a dependent manner, and the image input device is dependent on the predetermined communication standard. The image output apparatus may include non-subordinate communication means on the subordinately controlled side according to the predetermined communication standard. Since communication between the image input device and the image output device is performed by using the image output device as a host, the image input device and the image output device can be directly connected without using a general-purpose computer, and the image input device can be downsized. Can be achieved. In this aspect of the image output system of the present invention, the communication interface of the predetermined communication standard may be a USB interface.
[0017]
In the image output system of the present invention, the image input device may be an imaging device that inputs an image by imaging.
[0018]
The image input device of the present invention includes:
Image input apparatus in an image output system in which an image input apparatus that inputs and stores an image and any of a plurality of image output apparatuses that output an image in different output modes are connected via a communication interface of a predetermined communication standard Because
The present invention relates to output of an image in a mode independent of the output mode of the connected image output device based on one or a plurality of images selected from the stored images and an output condition selected for the image Job generation means for generating a job;
Job transmitting means for transmitting the generated job to the connected image output apparatus via the communication interface;
It is a summary to provide.
[0019]
In the image input device of the present invention, the output mode of the image output device connected based on one or more images selected from the stored images and the output conditions selected for the images is used. A job relating to image output is generated in an unrelated manner, and the generated job is transmitted to an image output apparatus connected via a communication interface. This simplifies the processing of the image input device because it is only necessary to transmit the same job relating to image output when any of the image output devices of different output modes is connected. Can do.
[0020]
The image output apparatus of the present invention includes:
An image output apparatus in an image output system in which an image input apparatus that inputs and stores an image and any one of a plurality of image output apparatuses that output an image in different output modes are connected via a communication interface of a predetermined communication standard Because
In an aspect independent of the output aspect of the image output apparatus connected based on one or more images selected from the images stored in the image input apparatus and the output conditions selected for the image Job receiving means for receiving a job relating to output of the generated and transmitted image via the communication interface;
Job interpreting means for interpreting the received job based on an output mode of the image output device;
Image output executing means for outputting an image based on the interpreted job;
It is a summary to provide.
[0021]
In the image output device of the present invention, the image output device connected based on one or more images selected from the images stored in the image input device and the output conditions selected for the image A job related to the output of an image generated and transmitted in a manner independent of the output mode of the image is received via the communication interface, the received job is interpreted based on the output mode of the image output device, and based on the interpreted job Control to output an image. Thereby, even if it is a different output mode, it can connect to the same image input device, can receive a job about the output of an image from an image input device, and can output an image in its own output mode.
[0022]
The control method of the present invention includes:
The image output in an image output system in which an image input device that inputs and stores an image and any of a plurality of image output devices that output images in different output modes are connected via a communication interface of a predetermined communication standard. A control method for controlling image output of a device, comprising:
The image input device does not depend on the output mode of the connected image output device based on one or more images selected from the stored images and the output conditions selected for the images A job related to image output is generated in an aspect, and the generated job is controlled to be transmitted to the connected image output device via the communication interface;
The connected image output device is received as a job transmitted by the image input device, and the received job is interpreted based on the output mode of the connected image output device. To control the output of the image based on
This is the gist.
[0023]
In the control method of the present invention, an image input device that inputs and stores an image is based on one or a plurality of images selected from the stored images and output conditions selected for the images. Control is performed so that a job related to image output is generated in a manner independent of the output manner of the connected image output apparatus, and the generated job is transmitted to the connected image output apparatus via the communication interface. An image output device connected to the image input device among a plurality of image output devices having different output modes is received by the job transmitted by the image input device, and the received job is connected to the image output device. Control is performed so that image output is executed based on the interpreted job. Accordingly, the image input device only needs to transmit the same command for outputting an image regardless of the connected image output device among the plurality of image output devices having different output modes. This process can be simplified.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described using examples. FIG. 1 is a configuration diagram showing an outline of a configuration of an image output system 20 according to an embodiment of the present invention. As shown in the figure, the image output system 20 of the embodiment is configured by connecting a digital camera 30 as an image input device and an image output device 40 by a USB communication interface cable 50.
[0025]
The digital camera 30 is configured around a camera controller 31 that receives inputs from various operation buttons including a shutter button (not shown) and controls each unit, and displays a subject and displays necessary for various operations. A color liquid crystal display panel 32, a photographing device 33 for photographing a subject and converting it into an electrical signal, a memory 34 for storing an image file created by the camera controller 31 based on the electrical signal from the photographing device 33, and a USB host A USB device controller 35 of a mass storage class in the USB standard for communicating with the USB device.
[0026]
The image output device 40 is mainly configured by an image output controller 41 that controls each unit, and includes an image output unit 42 that outputs an image and a USB host controller 45 that communicates with a USB device. The image output device 40 can be configured as a printing device such as a printer or a display device such as a projector. When the image output device 40 is configured as a printing device, the image output controller 41 is configured as a print controller 41a for printing an image, and the image output unit 42 is an image as illustrated in the printing device 40a of FIG. Is configured as a print output unit 42a that executes printing such as a print engine and a print head incorporated in a printing apparatus. When the image output device 40 is configured as a display device, the image output controller 41 is configured as an image display controller 41b for displaying and outputting an image, as illustrated in the display device 40b of FIG. The unit 42 is configured as an image display unit 42b for displaying and outputting an image.
[0027]
Next, communication in the image output system 20 of the embodiment, that is, communication between the digital camera 30 and the image output apparatus 40 will be described. Communication between the digital camera 30 and the image output apparatus 40 according to the embodiment is performed using a USB device controller 35 and a USB host controller 45. As shown in FIG. 4, the communication between the USB device controller 35 and the USB host controller 45 includes a control pipe 51 used for transmitting various commands, a bulk pipe 52 used for transmitting data such as an image file, and an interrupt. This is performed using three logical pipes (communication channels) of the pipe 53. Among these pipes, the interrupt pipe 53 is not stipulated for communication in the mass storage class in the USB standard. In the image output system 20 of the embodiment, by using the interrupt pipe 53, the image output apparatus 40 is operated by operating the digital camera 30 even though the image output apparatus 40 is a USB host.
[0028]
Specifically, first, a command for inquiring a request on the digital camera 30 side every extremely short time (for example, every 1 msec) with respect to the time required for human operation from the image output device 40 using the interrupt pipe 53 (in the embodiment, , Interrupt-in command [Interrupt In command]) is transmitted to the digital camera 30 side, and every time this interrupt-in command is received from the digital camera 30, no request is made. Meaning “NAK” is transmitted as a response, and if there is any request, a control command corresponding to the request is transmitted as a response. When the image output device 40 receives a control command from the digital camera 30 as a response to the interrupt-in command, the image output controller 41 of the image output device 40 analyzes the control command and executes an operation corresponding to the control command. To do.
[0029]
For example, when the operator causes the image output device 40 to output an image using the color liquid crystal display panel 32 of the digital camera 30, the following operation is performed. First, when the operator selects an image to be output by the image output device 40 using the color liquid crystal display panel 32 of the digital camera 30 and selects and instructs the output condition of the selected image, the camera controller 31 of the digital camera 30 The control command corresponding to the output of the image is set based on the selected image and the selected output condition, and the set control command is transmitted to the image output device 40 as a response to the interrupt-in command. The image output device 40 acquires the operation as a result of the analysis of the control command, that is, the information such as the file name of the image selected from the digital camera 30 and the information of the selected output condition, and uses the USB as the storage class. The selected image is read from the memory 34 of the connected digital camera 30 and output based on the acquired output condition. At this time, if the image output device 40 is the printing device 40a, the read image is printed out under the acquired output conditions. If the image output device 40 is the display device 40b, the output obtained by acquiring the read image. It will be displayed and output under conditions. When the operator displays the state of the image output device 40 using the color liquid crystal display panel 32 of the digital camera 30, the following operation is performed. First, by instructing display of the state of the image output device 40, a control command corresponding to the display of the state of the image output device 40 set by the camera controller 31 is transmitted to the image output device 40 as a response to the interrupt-in command. To do. In the image output device 40, the operation as a result of the analysis of the control command, that is, the status information of the image output device 40 (for example, information related to the status such as “image output in progress” or “output ready”) is displayed on the digital camera 30. The operation to send to is executed. Then, the camera controller 31 of the digital camera 30 displays the state information received from the image output device 40 on the color liquid crystal display panel 32.
[0030]
Next, the state of communication between the digital camera 30 and the image output device 40 will be described in more detail. FIG. 5 is a sequence diagram illustrating an example of a communication procedure when a USB communication connection is established between the digital camera 30 and the image output device 40. The digital camera 30 and the image output device 40 are connected by the USB communication interface cable 50 while the power is turned on, or the digital camera 30 and the image output device 40 are connected by the USB communication interface cable 50. As shown in the sequence illustrated in FIG. 5, first, a USB communication connection is established, and the USB host controller 45 of the image output device 40 is changed from the USB device controller 35 of the digital camera 30 as a USB device. A device descriptor that describes the configuration of is acquired (S100). The device descriptor includes an interface descriptor including a string descriptor that enumerates USB end points used by the digital camera 30 and that the digital camera 30 is a mass storage class device. In the embodiment, an “Interruput In” endpoint is described as an additional endpoint in the string descriptor listing the endpoints. As a result, the USB host controller 45 of the image output apparatus 40 in the embodiment determines that the digital camera 30 is a mass storage class device from the interface descriptor and the string descriptor, and an interrupt-in command (a command for inquiring a request on the USB device side). ) Can be recognized. Note that when the digital camera 30 is connected to a normal computer USB port, a device descriptor is sent to the computer as well, but the USB host controller incorporated in the computer ignores the additional “Interruput In” endpoint, The digital camera 30 operates as a normal mass storage class device for the computer.
[0031]
When the USB communication connection is established between the digital camera 30 and the image output device 40 in this way, the image output device 40 uses the interrupt pipe 53 to send an interrupt-in command at an extremely short time interval (for example, 1 msec interval). Then, a process of transmitting to the digital camera 30 is started (S102 and S108), and a "Confirmation" command for confirming the protocol is transmitted within a predetermined time after the communication connection is established (S106). By transmitting this command, the image output device 40 notifies the use of a communication protocol of the type that uses the interrupt-in command, the protocol version, and the like.
[0032]
Each time the digital camera 30 receives an interrupt-in command, the digital camera 30 checks whether any control command is generated at that time. If no control command is generated, the digital camera 30 sets “NAK” indicating no request to When the control command is generated, the generated control command is transmitted to the image output device 40 using the control pipe 51 as a response to the interrupt-in command. In the example of FIG. 5, “StatusReq”, which is a control command as a request for acquiring the state of the image output device 40 by the digital camera 30 in response to the interrupt-in command of S108, outputs an image from the digital camera 30 as a response. It is transmitted to the device 40 (S110). The image output device 40 checks the status of the device in response to this control command, and when the device is ready to accept an output request, the control pipe 51 sends “SEND_STATUS” which is a command for notifying the transmission of the status of the device. Is transmitted to the digital camera 30 (S112), and “OUTPUT_OK”, which is a code in which the apparatus can accept an output request, is written into a predetermined area in the memory 34 of the digital camera 30 using the bulk pipe 52. (S114). The digital camera 30 displays on the color liquid crystal display panel 32 the state of the image output device 40 thus obtained (a state in which an image output request can be accepted).
[0033]
FIG. 6 is a sequence diagram illustrating an example of a communication procedure when an image output request is made from the digital camera 30 and image output is executed by the image output device 40. This sequence is performed when the operator selects an image using the color liquid crystal display panel 32 of the digital camera 30, sets the output condition of the selected image, and operates “decision” for instructing image output. . For example, when the image output device 40 connected to the digital camera 30 is the printing device 40a, the image output conditions are output conditions such as the number of printed images, paper type, paper size, layout, date printing, and print quality. When the image output device 40 connected to the digital camera 30 is the display device 40b, it means output conditions such as image display time, date display, display resolution, and zoom magnification. The output conditions may be set on the digital camera 30 side only for a part of the above conditions, and the remaining condition settings may be set on the image display device 40 side. In the digital camera 30, a control command “OutputReq”, which is a request for notifying that an image output request has been generated by processing of the camera controller 31 by an operation such as “decision”, is generated. This control command is transmitted from the digital camera 30 to the image output device 40 using the control pipe 51 as a response to the interrupt-in command (S200) transmitted from the image output device 40 (S202). The image output device 40 transmits “GET_OUTPUTREQ”, which is a command for acquiring an image output request in response to the received “OutputReq” command, to the digital camera 30 using the control pipe 51 (S204). The output job such as the image data selected by the operator and the set output conditions stored in the memory 34 is read out via the bulk pipe 52 (S206).
[0034]
FIG. 7 is a diagram illustrating an example of a table for interpreting an output job read when the image output device 40 is the printing device 40a. FIG. 8 illustrates the image output device 40 as the display device 40b. It is a figure which shows an example of the table at the time of interpreting the output job read at the time. As shown in FIGS. 7 and 8, the output job parameters are the same when the connected image output device 40 is the printing device 40a and the display device 40b. The interpretation differs between when the image output device 40 is the printing device 40a and when it is the display device 40b. For example, as shown in FIGS. 7 and 8, the parameter with the offset “0” and the value “0002h” indicates that the number of printed sheets of the image (the image designated by the image file designation) is two for the printing apparatus 40a. Although interpreted, the display device 40b interprets that the image display time is 2 seconds. As described above, since the image output device 40 interprets the parameters of the output job received from the digital camera 30 based on the output mode, the image output device 40 can perform image processing regardless of the type of the image output device 40 connected to the digital camera 30 via USB. The parameters of the output job transmitted to output the image to the output device 40 can be the same. Note that specific parameters are assigned to operations specific to the printing device 40a and the display device 40b (such as the paper type in the printing device 40a and the zoom magnification in the display device 40b), and an image corresponding to the parameter is assigned. The output device 40 interprets the parameter and performs an image output operation. However, the parameter is ignored for the image output device 40 that is not compatible.
[0035]
In response to the interrupt-in command transmitted from the image output apparatus 40 after accepting the output request in this way (S208), the response “StatusReq”, which is a request control command for acquiring the apparatus status from the digital camera 30, is the response. The image output device 40 transmits “SEND_STATUS”, which is a command for notifying the device status transmission notification, to the digital camera 30 using the control pipe 51 (S212), and the command is normally received. “CMDACPT”, which is a code indicating that it has been transmitted, is transmitted to the digital camera 30 using the control pipe 51 (S214). Note that “id01” immediately after the code “CMDACPT” in the drawing is an id number for identifying the output job on the digital camera 30 side. The same applies to “id01” immediately after other codes.
[0036]
When the image output request is accepted, the digital camera 30 continues to transmit “StatusReq” to the image output device 40 as a control command corresponding to the interrupt-in command until the image output is completed (S218, S232). In response to this “StatusReq” command, the image output device 40 transmits a “SEND_STATUS” command to the digital camera 30 (S 220), and uses the control pipe 51 to output “OUTPUT”, which is a code indicating the image output status. The data is transmitted to the digital camera 30 (S222). When the image output is completed, the image output device 40 sends a “SEND_STATUS” command to the digital camera 30 in response to the “StatusReq” command transmitted from the digital camera 30 in response to the immediately subsequent interrupt-in command (S232). Is transmitted to the digital camera 30 using the control pipe 51 (S236), and the completion of the image output is notified to the digital camera 30 (S234). The digital camera 30 displays the completion of the image output on the color liquid crystal display panel 32 or the like to notify the operator of the completion of the image output.
[0037]
An example of commands and codes used in communication between the digital camera 30 and the image output device 40 is shown in FIG. FIG. 10 is an explanatory diagram for explaining an example of a table used when the print controller 41a interprets the commands and codes shown in FIG. 9 as printing the image when the image output device 40 is the printing device 40a. FIG. 11 is an explanatory diagram for explaining an example of a table used when the image display controller 41b interprets the commands and codes shown in FIG. 9 to display and output an image when the image output device 40 is the display device 40b. . As shown in FIGS. 10 and 11, the image output device 40 interprets commands and codes transmitted from the digital camera 30 based on the output form (print output, display output, etc.) and transmits the status of the device. Since operations such as image output are executed, it is necessary to change the type of command transmitted to operate the image output device 40 from the digital camera 30 in accordance with the type of the image output device 40 connected to the digital camera 30 via USB. Absent. That is, regardless of the image output device 40 connected to the digital camera 30 by USB, the image output device 40 can be operated by transmitting the same command or code from the digital camera 30.
[0038]
According to the image output system 20 of the embodiment described above, the image output controller 41 of the image output device 40 interprets the output job related to the output of the image transmitted from the digital camera 30 based on the output mode. Accordingly, it is possible to set the same job parameters for outputting an image from the digital camera 30 from the image output device 40 such as the printing device 40a or the display device 40b having different output modes. As a result, the types of parameters generated in the digital camera 30 can be reduced, and the processing in the digital camera 30 can be simplified. Moreover, since the image output device 40 is a USB host and the digital camera 30 is a USB device, the hardware configuration mounted on the digital camera 30 can be simplified. Further, since the digital camera 30 uses the USB standard mass storage class and performs processing using the interrupt-in command only when the USB connection with the image output apparatus 40 is performed, the digital camera 30 can be used as a normal mass storage. It can be connected to a computer as a class USB device.
[0039]
Here, in the image output system 20 of the embodiment, the digital camera 30 corresponds to an image input device capable of inputting and storing an image, and the image output device 40 such as the printing device 40a and the display device 40b outputs different images. And one of the devices connected to the USB interface corresponds to a communication interface of a predetermined communication standard in which the other is controlled in a subordinate manner. In addition, the USB device controller 35 of the digital camera 30 corresponds to a slave-side communication means that is controlled in a subordinate manner in a predetermined communication standard, and an image selected by the camera controller 31 based on an operator's operation or this image The job generation means for generating a job related to image output in a manner not related to the image output device 40 connected based on the output condition selected for the image, and the generated job via a communication interface of a predetermined communication standard This corresponds to job transmission means for transmitting to the image output device 40. Further, the USB host controller 45 of the image output device 40 corresponds to a non-subordinate communication means on the side that is dependently controlled in a predetermined communication standard, and the image output controller 41 is sent from the image input device via the non-subordinate communication means. It corresponds to a job receiving means for receiving a job, a job interpreting means for interpreting the received job based on its output form, and an image output executing means for executing image output based on the interpreted job.
[0040]
In the image output system 20 of the embodiment, the parameters of the job requesting the image output from the digital camera 30 to the image output device 40 are adapted to the image output device 40 so as not to be restricted by the output form. It is assumed that the device corresponds to the device 40a, and that the job is processed by the image display controller 41b of the display device 40b so that the print output is interpreted as the display output. In this case, the job parameters used for the USB connection between the digital camera 30 and the printing apparatus 40a can be used as they are for the USB connection between the digital camera 30 and the image output apparatus of another output form. As a result, the time required for development can be shortened.
[0041]
In the image output system 20 of the embodiment, USB is used as a predetermined communication standard in which one of the connected devices controls the other in a dependent manner, but the communication standard in which the image output device 40 controls the digital camera 30 in a dependent manner. Any communication standard can be used.
[0042]
In the image output system 20 of the embodiment, the printing apparatus 40a and the display apparatus 40b are described as examples of the image output apparatus 40 having different output forms. However, any apparatus capable of outputting some image may be used. The present invention is not limited and may be applied to any device.
[0043]
In the image output system 20 of the embodiment, the digital camera 30 has been described as an example of the image input device. However, any device may be used as long as it can input and store a plurality of images. However, this system is particularly effective when a portable image input device is used.
[0044]
In the embodiments, the present invention has been described as the image output system 20. However, the present invention is not limited to the form of the system, and may be in the form of an image input device such as a digital camera 30 used in the image output system 20. The form of the image output device 40 to be used may be used. Further, it may be a form of a control method for controlling the digital camera 30 and the image output apparatus 40 constituting the image output system 20.
[0045]
The embodiments of the present invention have been described using the embodiments. However, the present invention is not limited to these embodiments, and can be implemented in various forms without departing from the gist of the present invention. Of course you get.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an outline of a configuration of an image output system 20 according to an embodiment.
FIG. 2 is a configuration diagram showing an outline of the configuration of a printing apparatus 40a.
FIG. 3 is a configuration diagram showing an outline of the configuration of a display device 40b.
FIG. 4 is an explanatory diagram illustrating a logical pipe used for command transmission or the like.
FIG. 5 is a sequence diagram illustrating an example of a communication procedure when a communication connection is established.
FIG. 6 is a sequence diagram illustrating an example of a communication procedure when image output is executed.
FIG. 7 is a diagram illustrating job interpretation by the printing apparatus 40a.
FIG. 8 is a diagram illustrating job interpretation by the display device 40b.
FIG. 9 is an explanatory diagram showing an example of commands used for communication.
FIG. 10 is an explanatory diagram illustrating interpretation of commands and the like by the printing apparatus 40a.
FIG. 11 is an explanatory diagram illustrating interpretation of commands and the like by the display device 40b.
[Explanation of symbols]
20 image output system, 30 digital camera, 31 camera controller, 32 color liquid crystal display panel, 33 photographing device, 34 memory, 35 USB device controller, 40 image output device, 40a printing device, 40b display device, 41 image output controller, 41a Print controller, 41b Image display controller, 42 Image output unit, 42a Print output unit, 42b Image display unit, 45 USB host controller, 50 USB communication interface cable, 51 Control pipe, 52 Bulk pipe, 53 Interrupt pipe

Claims (9)

A communication interface of a predetermined communication standard in which an image input device that inputs and stores an image and any of a plurality of image output devices that output an image in different output modes are controlled by the image output device in a dependent manner. An image output system connected via
(A) The image input device includes:
Subordinate side communication means that is subordinately controlled according to the predetermined communication standard;
The connected image output device is one of the plurality of image output devices based on one or more images selected from the stored images and an output condition selected for the images. A job generation means for generating a job related to image output and generating an image output request so as to have the same parameters that can be interpreted based on the output mode;
When an inquiry command for inquiring the presence / absence of a request is received from the connected image output device via the slave communication means at a very short time with respect to the time required for human operation, the image output request is generated. The image output request is transmitted to the connected image output apparatus as a response corresponding to the inquiry command, and the image output request is transmitted via the slave communication means after the transmission. Input device side transmission / reception control means for transmitting the job to the connected image output apparatus via the slave communication means when an acquisition command for acquiring the image is received from the connected image output apparatus; ,
With
(B) The connected image output device includes:
Non-subordinate communication means on the subordinately controlling side according to the predetermined communication standard;
The inquiry command is transmitted to the image input device via the non-subordinate communication means every very short time, and the image input device transmits the inquiry via the non-subordinate communication means as a response corresponding to the inquiry command. When an image output request is received, the acquisition command is transmitted to the image input device via the non-subordinate communication means, and then transmitted from the image input device via the non-subordinate communication means. Output device side transmission / reception control means for receiving a job;
Job interpretation means for interpreting parameters of the received job based on an output mode of the connected image output device;
Image output executing means for outputting an image based on the interpreted job;
An image output system comprising: The image output system according to claim 1,
The plurality of image output devices include a printing device that prints an image as one of the image output devices,
The image output system, wherein the job interpreting means when the connected image output apparatus is the printing apparatus is means for interpreting the output condition of the received job as a print condition for printing an image. The image output system according to claim 1 or 2,
The plurality of image output devices include a display device that displays an image as one of the image output devices,
The image output system, wherein the job interpreting means when the connected image output apparatus is the display apparatus interprets the output condition of the received job as a display condition for displaying an image. The image output system according to claim 1,
The plurality of image output devices include, as image output devices, at least a printing device that prints an image and a display device that displays an image,
The output condition selection means of the image input device is means for selecting a printing condition as the output condition,
The job generation means of the image input device is means for generating a job corresponding to the selected printing condition regardless of whether the connected image output device is the plurality of image output devices,
The image output system, wherein the job interpreting means when the connected image output apparatus is the display apparatus interprets the print conditions of the job as display conditions for displaying an image. The image output system according to any one of claims 1 to 4,
The job interpretation unit of the connected image output apparatus outputs only the condition corresponding to the output mode of the image output apparatus among the output conditions of the job transmitted by the job transmission unit of the image input apparatus to the image output apparatus. An image output system that is a means of interpreting output conditions. The image output system according to any one of claims 1 to 5,
The image output system, wherein the communication interface of the predetermined communication standard is a USB interface. The image output system according to any one of claims 1 to 6,
The image input apparatus is an image output apparatus that inputs an image by imaging. A communication interface of a predetermined communication standard in which an image input device that inputs and stores an image and any of a plurality of image output devices that output an image in different output modes are controlled by the image output device in a dependent manner. An image input device in an image output system connected via
Subordinate side communication means that is subordinately controlled according to the predetermined communication standard;
The connected image output device is one of the plurality of image output devices based on one or more images selected from the stored images and an output condition selected for the images. A job generation means for generating a job related to image output and generating an image output request so as to have the same parameters that can be interpreted based on the output mode;
When an inquiry command for inquiring the presence / absence of a request is received from the connected image output device via the slave communication means at a very short time with respect to the time required for human operation, the image output request is generated. The image output request is transmitted to the connected image output apparatus as a response corresponding to the inquiry command, and the image output request is transmitted via the slave communication means after the transmission. Input device side transmission / reception control means for transmitting the job to the connected image output apparatus via the slave communication means when an acquisition command for acquiring the image is received from the connected image output apparatus; ,
An image input device comprising: A communication interface of a predetermined communication standard in which an image input device that inputs and stores an image and any of a plurality of image output devices that output an image in different output modes are controlled by the image output device in a dependent manner. An image output device in an image output system connected via
Non-subordinate communication means on the subordinately controlling side according to the predetermined communication standard;
The inquiry command is transmitted to the image input device via the non-subordinate communication means every very short time, and the image input device transmits the inquiry via the non-subordinate communication means as a response corresponding to the inquiry command. When an image output request is received, the acquisition command is transmitted to the image input device via the non-subordinate communication means, and then transmitted from the image input device via the non-subordinate communication means. Based on the image selected by the image input device and the output conditions for the image, the image output device has the same parameters that can be interpreted based on the output mode regardless of any of the plurality of image output devices. Output device side transmission / reception control means for receiving a job related to output of the generated image;
Job interpretation means for interpreting the parameters of the received job based on the output mode of the image output device;
Image output executing means for outputting an image based on the interpreted job;
An image output apparatus comprising:

Images