JP6826238B2 - Image processing system, image processing method, and information processing equipment - Google Patents

Description

The present disclosure relates to an image processing system, an image processing method, and an information processing apparatus.

Conventionally, an information processing device that generates a schedule table that defines the distribution of development processing executed by each of a plurality of terminal devices has been disclosed based on performance data related to a terminal device that executes development processing of RAW data. See JP-A-2007-142551). This information processing device transmits RAW data and instruction data for development processing to each terminal device based on the generated schedule table.

Further, an imaging device that develops RAW data based on development parameters set in an external device and generates development data for display is disclosed (see JP-A-2015-32890).

Further, a technique for switching whether to perform intra-coding or inter-coding on an original image according to the decoding frequency of a coded image such as lossless compression is disclosed (Japanese Patent Laid-Open No. 2013-). 168809 (see).

JP-A-2007-142551 JP-A-2015-32890 Japanese Unexamined Patent Publication No. 2013-168809

The convenience for the user is often improved by setting the development parameters used in the development processing of the RAW data by using an information processing device such as a personal computer. This is because the display unit included in the information processing device often has a larger screen than the display unit included in the imaging device that generates RAW data, and has high visibility.

On the other hand, when the RAW data development process is executed by the information processing apparatus, it is executed by the software process, so that the development process may take a relatively long time. On the other hand, it is conceivable to reduce the time spent in the development process by causing an image pickup apparatus having an image processing unit realized by hardware dedicated to the development process of the RAW data to execute the development process of the RAW data. ..

When the image processing unit executes the RAW data development process, the RAW data is stored in the processing time of the entire RAW data development process in addition to the processing time of the RAW data development process by the image processing unit. The transfer time from the storage device to the image processing unit is included. This transfer time is determined by, for example, a storage device that stores RAW data, such as a storage device built in a device including an image processing unit and a storage device provided in an information processing device separate from the device including the image processing unit. different. Further, the longer the transfer time, the longer the processing time of the entire RAW data development process.

In JP-A-2007-142551, JP-A-2015-32890, and JP-A-2013-168809, it is not considered in which storage device the RAW data to be developed is stored. It should be noted that this problem can occur not only in the image pickup apparatus but also in the image processing apparatus including the image processing unit.

An object of the present disclosure is to provide an image processing system, an image processing method, and an information processing apparatus capable of reducing the processing time of the entire development processing of RAW data.

The image processing system of the present disclosure includes an image processing apparatus including an image processing unit that executes image processing including development processing of RAW data obtained by imaging, and an acquisition unit that acquires priority information regarding the priority of RAW data. An information processing device including a storage control unit that controls storage of RAW data in any of a plurality of different storage devices according to the priority represented by the priority information acquired by the acquisition unit.

The image processing system of the present disclosure may include a storage device built in the image processing device, an external storage device mounted on the image processing device, and a storage device included in the information processing device. ..

Further, in the image processing system of the present disclosure, the storage control unit processes RAW data in descending order of priority from a storage device built in the image processing device, an external storage device mounted on the image processing device, and information processing. Control may be performed to store in the order of the storage devices provided in the device.

Further, in the image processing system of the present disclosure, the information processing apparatus causes the image processing apparatus to execute image processing including development processing of RAW data stored in any of a plurality of storage devices under the control of the storage control unit. Further units may be provided.

Further, in the image processing system of the present disclosure, information indicating the frequency of use of the RAW data is added to the RAW data as priority information, and the storage control unit raises the priority as the frequency of use increases and controls the above. May be done.

Further, in the image processing system of the present disclosure, the image processing device may be an imaging device including an imaging unit, and the RAW data may be RAW data obtained by imaging by the imaging unit.

The image processing method of the present disclosure is an image processing method using an image processing system including an image processing device including an image processing unit that executes image processing including development processing of RAW data obtained by imaging, and an information processing device. Therefore, priority information regarding the priority of RAW data is acquired, and control is performed to store the RAW data in any of a plurality of different storage devices according to the priority represented by the acquired priority information.

The information processing apparatus of the present disclosure has priority information regarding the priority of RAW data to be developed by an image processing apparatus including an image processing unit that executes image processing including development processing of RAW data obtained by imaging. A storage control unit that controls to store RAW data in any of a plurality of different storage devices according to the priority represented by the priority information acquired by the acquisition unit. ..

The information processing apparatus of the present disclosure includes a memory for storing instructions to be executed by a computer and a processor configured to execute the stored instructions, and the processor develops RAW data obtained by imaging. The priority information regarding the priority of the RAW data to be developed by the image processing unit provided with the image processing unit for executing the image processing including the above is acquired, and the RAW is according to the priority represented by the acquired priority information. A process for controlling storage of data in any of a plurality of different storage devices is executed.

According to the present disclosure, it is possible to reduce the processing time of the entire developing process of RAW data.

It is a block diagram which shows an example of the structure of the image processing system which concerns on embodiment. It is a block diagram which shows an example of the hardware composition of the image pickup apparatus which concerns on embodiment. It is a block diagram which shows an example of the hardware composition of the information processing apparatus which concerns on embodiment. It is a figure which shows an example of the transfer time table which concerns on embodiment. It is a block diagram which shows an example of the functional structure of the information processing apparatus which concerns on embodiment. It is a figure for demonstrating the change of the storage destination of the RAW data which concerns on embodiment. It is a figure for demonstrating the change of the storage destination of the RAW data which concerns on a modification. It is a flowchart which shows an example of the memory control processing which concerns on embodiment. It is a flowchart which shows an example of the development process which concerns on embodiment.

Hereinafter, examples of embodiments for carrying out the present disclosure will be described in detail with reference to the drawings.

First, the configuration of the image processing system 10 according to the present embodiment will be described with reference to FIG. As shown in FIG. 1, the image processing system 10 includes an image pickup device 12 and an information processing device 14. The image pickup device 12 is connected to the information processing device 14 by at least one of wired communication and wireless communication. An example of the image pickup apparatus 12 is a digital camera, and an example of the information processing apparatus 14 is a personal computer. The image pickup device 12 is an example of an image processing device.

Next, the hardware configuration of the image pickup apparatus 12 according to the present embodiment will be described with reference to FIG. As shown in FIG. 2, the image pickup device 12 is a non-volatile storage built in the image pickup device 12 such as a CPU (Central Processing Unit) 20, a memory 21 as a temporary storage area, and a flash memory, which is an example of a hardware processor. It includes a device 22, an imaging unit 23, and an image processing unit 24. Further, the image pickup device 12 includes a display unit 25 such as a liquid crystal display, an input unit 26 such as a dial, a release button, a cross key, a menu key, and a touch panel, and an external I / F (InterFace) connected to the information processing device 14. ) 27 and is included. Further, the imaging device 12 includes a mounting unit 28 such as a memory card slot, and the mounting unit 28 is equipped with a storage device 29 which is an example of an external storage device such as a memory card. The CPU 20, the memory 21, the storage device 22, the imaging unit 23, the image processing unit 24, the display unit 25, the input unit 26, the external I / F 27, and the storage device 29 are connected to the bus 30.

The image pickup unit 23 includes an image pickup element such as a CCD (Charge Coupled Device) or a CMOS (Complementary Metal Oxide Semiconductor) image sensor, and outputs RAW data obtained by imaging. The RAW data represents data that has not undergone image processing for conversion into image data such as JPEG (Joint Photographic Experts Group) format or TIFF (Tagged Image File Format) format.

The image processing unit 24 executes image processing including development processing of RAW data obtained by imaging by the imaging unit 23. The image processing unit 24 according to the present embodiment is realized by hardware such as a semiconductor integrated circuit designed exclusively for image processing. The image processing unit 24 generates image data by executing image processing including development processing on the RAW data, and stores the generated image data in the storage device 22.

Priority information regarding the priority of the RAW data is added to the RAW data according to the present embodiment. In the present embodiment, as priority information, information indicating the frequency of use of the RAW data is added to the RAW data. Specifically, as information indicating the frequency of use of RAW data, software for adjusting development parameters used for development processing of RAW data (hereinafter referred to as "development software") executed on the information processing apparatus 14 is used. The number of previews of RAW data is added to the RAW data. The number of times the RAW data has been developed may be added to the RAW data as information indicating the frequency of use.

Next, the hardware configuration of the information processing apparatus 14 according to the present embodiment will be described with reference to FIG. As shown in FIG. 3, the information processing device 14 includes a CPU 40, a memory 41 as a temporary storage area, and a non-volatile storage device 42. Further, the information processing device 14 includes a display unit 43 such as a liquid crystal display, an input unit 44 such as a keyboard and a mouse, an external I / F 45 to which the image pickup device 12 is connected, and a network I / F 46 connected to a network. The CPU 40, the memory 41, the storage device 42, the display unit 43, the input unit 44, the external I / F45, and the network I / F46 are connected to the bus 47.

The storage device 42 is realized by an HDD (Hard Disk Drive), an SSD (Solid State Drive), a flash memory, or the like. The information processing program 50 is stored in the storage device 42 as a storage medium. The CPU 40 reads the information processing program 50 from the storage device 42, expands it into the memory 41, and executes the expanded information processing program 50.

Further, the transfer time table 52 is stored in the storage device 42. FIG. 4 shows an example of the transfer time table 52. As shown in FIG. 4, the transfer time table 52 according to the present embodiment stores information representing the data transfer time from the storage device to the image processing unit 24 for each type of storage device. In the present embodiment, as information indicating the transfer time, information indicating the order of the transfer time of each storage device is stored in the transfer time table 52. In the example of FIG. 4, the storage device 22 built in the image pickup device 12 (denoted as “built-in image pickup device” in FIG. 4) has the shortest transfer time, and the storage device 42 included in the information processing device 14 (in FIG. 4). , "Built-in information processing device") indicates that the transfer time is the longest. Further, in the example of FIG. 4, the transfer time of the storage device 29 (denoted as “outside the image pickup device” in FIG. 4) mounted on the mounting unit 28 outside the image pickup device 12 is the second shortest. ..

The information representing the transfer time to the image processing unit 24 is not limited to the example of FIG. 4, and may be any information as long as the length of the data transfer time from each storage device to the image processing unit 24 can be determined. In this case, a mode is exemplified in which the transfer time of data from each storage device to the image processing unit 24 is actually measured, and the transfer time obtained by the actual measurement is stored in the transfer time table 52.

Next, the functional configuration of the information processing apparatus 14 according to the present embodiment will be described with reference to FIG. As shown in FIG. 5, the information processing apparatus 14 includes an acquisition unit 60, a storage control unit 62, an execution unit 64, and a display control unit 66.

The acquisition unit 60 acquires priority information added to the RAW data stored in the storage device 22, the storage device 29, and the storage device 42. Further, the acquisition unit 60 acquires image data obtained by executing image processing including development processing by the image processing unit 24 of the image pickup device 12 from the image pickup device 12 via an external I / F 45.

The storage control unit 62 controls to store RAW data in any of a plurality of different storage devices 22, a storage device 29, and a storage device 42 according to the priority represented by the priority information acquired by the acquisition unit 60. Do. In the present embodiment, the storage control unit 62 refers to the transfer time table 52, and controls the RAW data having a higher priority to be stored in the storage device having a shorter transfer time to the image processing unit 24. That is, in the present embodiment, the storage control unit 62 controls to store the RAW data in the order of the storage device 22, the storage device 29, and the storage device 42 in descending order of priority. At this time, the storage control unit 62 performs the above control with a higher priority as the frequency of use of the RAW data increases.

Specifically, as shown in FIG. 6, the storage control unit 62 uses two predetermined threshold values TH1 and TH2 (TH1 <TH2) as an example, and prioritizes RAW data whose frequency of use is less than the threshold value TH1. Is "low". Further, the storage control unit 62 sets the priority of the RAW data whose usage frequency is the threshold TH1 or more and less than the threshold TH2 to "medium", and sets the priority of the RAW data whose usage frequency is the threshold TH2 or more to "high".

Then, the storage control unit 62 controls to store the RAW data having the “high” priority in the storage device 22 having the shortest transfer time to the image processing unit 24 among the storage devices. Further, the storage control unit 62 controls to store the RAW data having a priority of “medium” in the storage device 29 having the second shortest transfer time to the image processing unit 24 among the storage devices. Further, the storage control unit 62 controls to store the RAW data having a priority of "low" in the storage device 42 having the longest transfer time to the image processing unit 24 among the storage devices.

As an example, as shown in FIG. 7, the storage control unit 62 shortens the transfer time to the image processing unit 24 in order from the RAW data having the highest priority until the remaining capacity of each storage device becomes less than a predetermined value. Control of storing in the storage device 22, the storage device 29, and the storage device 42 may be performed in this order. FIG. 7 shows an example in which the smaller the priority value, the higher the priority of the RAW data. Further, FIG. 7 shows an example in which the remaining capacity of the storage device 22 is less than a predetermined value when four RAW data are stored in the storage device 22 in descending order of priority. Further, FIG. 7 shows an example in which the remaining two RAW data are stored in the storage device 29 having the shortest transfer time to the image processing unit 24 next to the storage device 22. Further, in the example of FIG. 7, RAW data is not stored in the storage device 42 having the longest transfer time to the image processing unit 24.

The execution unit 64 causes the image pickup device 12 to perform image processing including development processing of RAW data stored in the storage device 22, the storage device 29, and the storage device 42 under the control of the storage control unit 62. In the present embodiment, the execution unit 64 causes the image pickup apparatus 12 to execute image processing including development processing of RAW data selected by the user by operating the development software with the set development parameters. Specifically, when the selected RAW data is stored in the storage device 22 or the storage device 29, the execution unit 64 externally outputs the identification information of the selected RAW data, the development parameters, and the execution instruction of the image processing. It is transmitted to the image pickup apparatus 12 via / F45. As a result, the execution unit 64 causes the image pickup apparatus 12 to perform image processing including development processing of RAW data.

On the other hand, when the selected RAW data is stored in the storage device 42, the execution unit 64 sends the selected RAW data, development parameters, and image processing execution instructions to the image pickup device 12 via the external I / F 45. Send. As a result, the execution unit 64 causes the image pickup apparatus 12 to perform image processing including development processing of RAW data.

The display control unit 66 controls the display unit 43 to display the image indicated by the image data obtained by executing the image processing including the development process by the image processing unit 24 of the image pickup apparatus 12 acquired by the acquisition unit 60. Do. For example, the display control unit 66 controls to display a list of images indicated by the image data on the display unit 43 by controlling the thumbnail images corresponding to the image data to be displayed side by side on the display unit 43.

Next, the operation of the image processing system 10 and the image processing method according to the present embodiment will be described with reference to FIGS. 8 and 9. When the CPU 40 of the information processing apparatus 14 executes the information processing program 50, the memory control process shown in FIG. 8 and the development process shown in FIG. 9 are executed. The memory control process shown in FIG. 8 is executed, for example, when the image pickup device 12 is connected to the information processing device 14 and the development software is started on the information processing device 14. Further, the development process shown in FIG. 9 is executed, for example, when the RAW data to be the target of the development process is selected by the user on the development software, the development parameters are input, and the execution instruction of the development process is input. Will be done. The development parameters include, for example, parameters related to image quality such as dynamic range, white balance, and sharpness, and the format of image data after development processing such as JPEG and TIFF.

In step S10 of FIG. 8, the acquisition unit 60 acquires the priority information added to the RAW data stored in the storage device 22, the storage device 29, and the storage device 42. In step S12, as described above, the storage control unit 62 stores the RAW data in the plurality of storage devices 22, the storage devices 29, and the storage devices, which are different from each other, according to the priority represented by the priority information acquired in the process of step S10. Control is performed to store in any of the devices 42. When the process of step S12 is completed, the memory control process is completed.

In step S20 of FIG. 9, as described above, the execution unit 64 captures image processing including development processing of RAW data stored in the storage device 22, the storage device 29, and the storage device 42 by the storage control process. Let 12 do it.

In step S22, the acquisition unit 60 obtains image data obtained by performing image processing including development processing by the image processing unit 24 of the image pickup device 12 by the process of step S20, via the external I / F 45. Get from. In step S24, as described above, the display control unit 66 shows the image data obtained by executing the image processing including the development process by the image processing unit 24 of the image pickup apparatus 12 acquired by the process of step S22. Control is performed to display an image on the display unit 43. When the process of step S24 is completed, the development process is completed.

As described above, according to the present embodiment, the higher the priority of RAW data, the shorter the transfer time to the image processing unit 24 is stored in the storage device. In addition, the higher the priority for the user, the higher the possibility that the development process will be performed. Therefore, as a result of reducing the transfer time of the RAW data, the processing time of the entire RAW data development process can be reduced.

In the above embodiment, the case where the imaging device is applied as the image processing device that executes the image processing including the development processing of the RAW data has been described, but the present invention is not limited to this. As an image processing device that executes image processing including development processing of RAW data, a device other than the image pickup device having the image processing unit 24 may be applied.

Further, in the above embodiment, the case where the information indicating the frequency of use of the RAW data is applied as the priority information regarding the priority of the RAW data has been described, but the present invention is not limited to this. For example, the shooting date and time of the RAW data may be applied as the priority information. In this case, the closer the shooting date and time is to the present, the higher the priority is given. Further, the priority of the RAW data may be given by the user.

Further, the execution timing of the memory control process in the above embodiment may be after the execution of the development process. In this case, when the development process is executed next time, the transfer time of the RAW data is reduced, and as a result, the processing time of the entire RAW data development process can be reduced.

Further, in the above embodiment, a plurality of image pickup devices 12 may be connected to the information processing device 14. In this case, for example, for a storage device having the same transfer time to the image processing unit 24, the RAW data is stored in descending order of priority from the storage device of the image pickup device 12 having the highest processing performance of image processing including development processing. The form to be used is exemplified.

Further, in the above embodiment, the information processing device 14 may include a plurality of storage devices such as a built-in SSD, a built-in HDD, and an external HDD. In this case, for example, a form in which RAW data having higher priority is stored in the order of the internal SSD, the internal HDD, and the external HDD, which are in the order of highest transfer speed, is exemplified.

Further, in the above embodiment, for example, the hardware structure of the processing unit that executes various processes such as the acquisition unit 60, the storage control unit 62, the execution unit 64, and the display control unit 66 is as follows. Various processors shown in the above can be used. As described above, the various processors include a CPU, which is a general-purpose processor that executes software (program) and functions as various processing units, and a circuit after manufacturing an FPGA (Field Programmable Gate Array) or the like. Dedicated electricity, which is a processor with a circuit configuration specially designed to execute specific processing such as Programmable Logic Device (PLD), which is a processor whose configuration can be changed, and ASIC (Application Specific Integrated Circuit). Circuits and the like are included.

One processing unit may be composed of one of these various processors, or a combination of two or more processors of the same type or different types (for example, a combination of a plurality of FPGAs or a combination of a CPU and an FPGA). It may be composed of a combination). Further, a plurality of processing units may be configured by one processor.
As an example of configuring a plurality of processing units with one processor, first, one processor is configured by a combination of one or more CPUs and software, as represented by a computer such as a client and a server. There is a form in which the processor functions as a plurality of processing units. Secondly, as typified by System On Chip (SoC), there is a form in which a processor that realizes the functions of the entire system including a plurality of processing units with one IC (Integrated Circuit) chip is used. is there. As described above, the various processing units are configured by using one or more of the various processors as a hardware structure.

Further, as the hardware structure of these various processors, more specifically, an electric circuit (circuitry) in which circuit elements such as semiconductor elements are combined can be used.

Further, in the above embodiment, the mode in which the information processing program 50 is stored (installed) in the storage device 42 in advance has been described, but the present invention is not limited to this. The information processing program 50 is recorded on a non-temporary recording medium such as a CD-ROM (Compact Disk Read Only Memory), a DVD-ROM (Digital Versatile Disk Read Only Memory), and a USB (Universal Serial Bus) memory. May be provided. Further, the information processing program 50 may be downloaded from an external device via a network.

This application claims the priority of Japanese Application No. 2018-125132 filed on June 29, 2018, the full text of which is incorporated herein by reference.

Claims (6)

An image processing device provided with an image processing unit that executes image processing including development processing of RAW data obtained by imaging, an acquisition unit that acquires priority information regarding the priority of the RAW data, and an acquisition unit.
A storage control unit that controls storage of the RAW data in a plurality of storage devices in descending order of priority represented by the priority acquired by the acquisition unit, in order of increasing transfer speed of the storage device.
Including information processing equipment equipped with
The plurality of storage devices include a storage device built in the image processing device, an external storage device mounted on the image processing device, and a storage device included in the information processing device.
The transfer speed is faster in the order of the storage device built in the image processing device, the external storage device mounted on the image processing device, and the storage device included in the information processing device.
Image processing system. The information processing device further includes an execution unit that causes the image processing device to execute image processing including the development processing of RAW data stored in any of the plurality of storage devices under the control of the storage control unit. The image processing system according to claim 1. Information indicating the frequency of use of the RAW data is added to the RAW data as the priority information.
The image processing system according to claim 1 or 4, wherein the memory control unit performs the control by increasing the priority as the frequency of use increases. The image processing device is an image pickup device provided with an image pickup unit.
The image processing system according to any one of claims 1, 4, and 5, wherein the RAW data is RAW data obtained by imaging by the imaging unit. An image processing method using an image processing system including an image processing device including an image processing unit that executes image processing including development processing of RAW data obtained by imaging, and an information processing device.
Acquire priority information regarding the priority of the RAW data,
Control is performed to store the RAW data in a plurality of storage devices in descending order of priority represented by the acquired priority, in order of increasing transfer speed of the storage device.
The plurality of storage devices include a storage device built in the image processing device, an external storage device mounted on the image processing device, and a storage device included in the information processing device.
The transfer speed is faster in the order of the storage device built in the image processing device, the external storage device mounted on the image processing device, and the storage device included in the information processing device.
Image processing method. An acquisition unit that acquires priority information regarding the priority of RAW data to be developed by an image processing apparatus provided with an image processing unit that executes image processing including development processing of RAW data obtained by imaging.
A storage control unit that controls storage of the RAW data in a plurality of storage devices in descending order of priority represented by the priority acquired by the acquisition unit, in order of increasing transfer speed of the storage device.
It is an information processing device equipped with
The plurality of storage devices include a storage device built in the image processing device, an external storage device mounted on the image processing device, and a storage device included in the information processing device.
The transfer speed is faster in the order of the storage device built in the image processing device, the external storage device mounted on the image processing device, and the storage device included in the information processing device.
Information processing device.