JP2020000280A - Image storage device - Google Patents

Abstract

To achieve further power saving in an image storage device for storing an endoscopic image.SOLUTION: An image storage device includes: an image acquisition unit for acquiring an endoscopic image; a first storage unit for storing the endoscopic image; a storage control unit for processing first storage control for causing the first storage unit to store the endoscopic image; a second storage unit for storing the endoscopic image; a central control unit for processing second storage control for causing the second storage unit to store the endoscopic image and arithmetic control for executing arithmetic processing different from the storage control; and a power supply unit capable of supplying power to the storage control unit and the central control unit, which limits power supply to the central control unit when a capacity of the endoscopic image stored in the first storage unit is smaller than a predetermined capacity.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an image storage device that stores an endoscope image.

2. Description of the Related Art Conventionally, as an image storage device that stores an image, an image storage device that enables power saving has been known.
For example, Patent Literature 1 proposes an image recording apparatus capable of saving power while increasing security. In this patent document 1, image data stored in a main memory connected to a main CPU is transferred to an image processing work memory connected to an image processing CPU and converted into driving data, and authentication information related to secure printing is transmitted. Before the sleep mode is started, the drive data stored in the image processing work memory is evacuated to the main memory before the sleep mode is started, and the power supplied to the image processing CPU and the image processing work memory is cut off. It is disclosed that when the mode is released, the drive data saved in the main memory is returned to the image processing work memory.

  As an image storage device that stores an endoscope image, there is known an image storage device capable of saving power by lowering the operating frequency of a CPU circuit that performs central control inside the device.

JP 2014-61709 A

  In an image storage device that stores an endoscope image, although it is possible to save power by lowering the operating frequency of the CPU circuit, it is necessary to store an externally input endoscope image without loss. In addition, power must always be supplied to the CPU circuit, and sufficient power saving cannot be realized.

  The present invention has been made in view of the above circumstances, and has as its object to provide an image storage device that stores an endoscope image and that can realize further power saving.

  A first aspect of the present invention is an image storage device, comprising: an image acquisition unit that acquires an endoscope image; a first storage unit that can store the endoscope image; A storage control unit capable of processing first storage control stored in the first storage unit, a second storage unit capable of storing the endoscope image, and a second storage unit configured to store the endoscope image in the second storage unit. A central control unit capable of processing a second storage control to be stored in the storage unit and an arithmetic control for performing an arithmetic process different from the storage control, and power can be supplied to the storage control unit and the central control unit And a power supply unit for restricting supply of power to the central control unit when the capacity of the endoscope image stored in the first storage unit is less than a predetermined capacity. It is characterized by.

  According to a second aspect of the present invention, in the first aspect, the endoscope image stored in the first storage unit in the first storage control is the endoscope output from the image acquisition unit. The endoscope image stored in the second storage unit in the second storage control is the endoscope image output from the first storage unit, and the storage control unit Monitoring the capacity of the endoscope image stored in the first storage unit, and when the capacity is less than the predetermined capacity, storing the endoscope image in the first storage unit. Continuously, when the capacity is equal to or more than the predetermined capacity, the endoscope image stored in the first storage unit is output to the central control unit.

  A third aspect of the present invention, in the second aspect, further comprises a power control unit for controlling the power supply unit, wherein the storage control unit is configured to store the endoscope stored in the first storage unit. Notifying the power control unit of information on the capacity of the image, and when the capacity is less than the predetermined capacity, the power control unit controls the power supply to limit the supply of power to the central control unit. And controlling the power supply unit to release the restriction when the capacity is equal to or greater than the predetermined capacity.

  According to a fourth aspect of the present invention, in the third aspect, the control for limiting the supply of power to the central control unit is a control for stopping the supply of power to the central control unit, The control for releasing the restriction is a control for starting supply of power to the central control unit.

  According to a fifth aspect of the present invention, in the third aspect, further provided is a state holding unit capable of holding information on a processing state of the central control unit, wherein the central control unit is restricted from supplying power. Is notified, the information on the processing state is output to the state holding unit and held, and when it is notified that the restriction is released, the information on the processing state held in the state holding unit is output. And acquiring and restoring the processing state of the central control unit.

  A sixth aspect of the present invention, in the third aspect, further comprises a state holding unit capable of holding information on a processing state of the central control unit, wherein the state holding unit supplies power to the central control unit. When it is notified that the supply is to be restricted, the information on the processing state of the central control unit is obtained and held from the central control unit, and when the notification that the restriction is released is received, the held processing is performed. Outputting information on a state to the central control unit.

  According to a seventh aspect of the present invention, in the first aspect, the power supply unit has a battery in which electricity is stored, and the storage control unit and the central control unit depend on power supplied from the battery. Driving.

  According to an eighth aspect of the present invention, in the first aspect, the arithmetic processing different from the storage control includes image processing on the endoscope image, and the first storage unit stores the image processing in the first storage control. The endoscope image to be stored is the endoscope image output from the image acquisition unit, and the endoscope image stored in the second storage unit in the second storage control is the endoscope image. The endoscope image output from the first storage unit, or the endoscope image after the image processing is performed on the endoscope image output from the first storage unit, The storage control unit monitors a capacity of the endoscope image stored in the first storage unit, and when the capacity is smaller than the predetermined capacity, the endoscope image to the first storage unit is monitored. When the storage of the mirror image is continued and the capacity is equal to or more than the predetermined capacity, the first The endoscopic image stored in 憶部 is output to the central control unit, characterized in that.

  ADVANTAGE OF THE INVENTION According to this invention, it is effective in the image storage device which stores an endoscope image which can implement | achieve further power saving.

FIG. 2 is a diagram illustrating a configuration example of an image storage device according to an embodiment. 6 is a flowchart illustrating an example of a process executed when notification of information on the capacity of an endoscope image stored in a buffer memory is performed in the image storage device according to the embodiment;

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram illustrating a configuration example of an image storage device according to an embodiment.
The image storage device 1 shown in FIG. 1 is an image storage device used in the medical field, and stores an endoscope image.

  As shown in FIG. 1, the image storage device 1 includes an input interface circuit 2, a buffer memory 3, a buffer circuit 4, an HDD (Hard Disk Drive) 5, an LCD (Liquid Crystal Display) panel 6, a communication interface circuit 7, a CPU ( Central Processing Unit) circuit 8, power supply control circuit 9, power supply circuit 10, and CPU state holding circuit 11.

  The input interface circuit 2 is a circuit that acquires an endoscope image input from outside the image storage device 1. Here, the endoscope image input from outside the image storage device 1 is, for example, wireless or wired from an endoscope including an imaging unit, such as a capsule endoscope, a flexible endoscope, or a hard endoscope. Is an endoscope image that is input according to

The buffer memory 3 is a memory that can store an endoscope image. The buffer memory 3 is, for example, a RAM (Random Access Memory).
The buffer circuit 4 is a storage control circuit capable of processing storage control for storing the endoscope image acquired by the input interface circuit 2 in the buffer memory 3. Further, the buffer circuit 4 monitors the capacity of the endoscope image stored in the buffer memory 3, and when the capacity is less than the predetermined capacity, continues storing the endoscope image in the buffer memory 3. When the capacity is equal to or larger than the predetermined capacity, the CPU outputs the endoscope image stored in the buffer memory 3 to the CPU circuit 8. Further, the buffer circuit 4 notifies the power control circuit 9 of information on the capacity of the endoscope image stored in the buffer memory 3. For example, when the capacity of the endoscope image stored in the buffer memory 3 has changed from less than a predetermined capacity to a certain capacity or more, or when the capacity of the endoscopic image stored in the buffer memory 3 has changed from a certain capacity or more to less than a certain capacity. Then, information about the changed capacity at that time is notified.

  The above-mentioned predetermined capacity and the predetermined capacity described below are the same capacity, and are at least smaller than the storage capacity of the buffer memory 3. For example, the predetermined capacity is one or more endoscope image capacities larger than the storage capacity of the buffer memory 3 from the viewpoint of avoiding a situation in which the free space of the buffer memory 3 is insufficient and the endoscope image cannot be stored. Only a small capacity.

The HDD 5 is a storage device that can store an endoscope image. Instead of the HDD 5, a flash memory such as an SSD (Solid State Drive) may be employed.
The LCD panel 6 is a display device capable of displaying an endoscope image.

The communication interface circuit 7 is a circuit that is connected to a network by wire or wirelessly and performs communication with an external device connected to the network.
The CPU circuit 8 is a central control circuit capable of processing storage control for storing the endoscope image output from the buffer memory 3 in the HDD 5 and arithmetic control for performing arithmetic processing different from the storage control. Here, as the storage control, the endoscope image output from the buffer memory 3 or the endoscope image after the image processing is performed on the endoscope image output from the buffer memory 3 is stored in the HDD 5. May be performed. The arithmetic processing different from the storage control includes, for example, image processing performed on the endoscope image output from the buffer memory 3, processing for displaying the endoscope image on the LCD panel 6, and communication of the endoscope image. This includes a process of transmitting data from the interface circuit 7 to an external device. Further, when the power supply control circuit 9 notifies that the supply of power to the CPU circuit 8 is to be restricted, information relating to the processing state of the CPU circuit 8 is output to the CPU state holding circuit 11 and stored therein. When it is notified from the power supply control circuit 9 that the restriction on the supply of power to the circuit 8 is released, information on the processing state of the CPU circuit 8 is obtained from the CPU state holding circuit 11 and the processing state of the CPU circuit 8 is changed. It also includes restoration processing. Here, the information on the processing state of the CPU circuit 8 is, for example, what number of the endoscope image in the series of a plurality of endoscope images that the endoscope image being processed by the CPU circuit 8 is, Etc. is information on the processing state.

  The power supply control circuit 9 controls the power supply circuit 10. When the information regarding the capacity of the endoscope image stored in the buffer memory 3 is notified from the buffer circuit 4, the power control circuit 9 determines whether the capacity is smaller than a predetermined capacity, and Perform processing and notification. When the capacity of the endoscope image stored in the buffer memory 3 is less than the predetermined capacity, the CPU circuit 8 is notified that power supply is restricted, and the power supply to the CPU circuit 8 is restricted. Is performed for the power supply circuit 10. Here, the control for limiting the supply of power to the CPU circuit 8 may be, for example, a control for stopping the supply of power to the CPU circuit 8 or a control of the voltage of the power supplied to the CPU circuit 8 in a normal manner. This is a control for lowering the voltage as compared with the case in which the voltage is lower than the normal time. On the other hand, when the capacity of the endoscope image stored in the buffer memory 3 is not less than the predetermined capacity, that is, when the capacity is equal to or more than the predetermined capacity, the restriction of the power supply to the CPU circuit 8 is released. Is performed on the power supply circuit 10 and the CPU circuit 8 is notified that the restriction on the supply of power to the CPU circuit 8 is released.

  The power supply circuit 10 is a circuit that can supply power to each unit in the image storage device 1 such as the buffer circuit 4 and the CPU circuit 8. The power supply circuit 10 includes a battery 10a in which electricity is stored, and each unit in the image storage device 1 such as the buffer circuit 4 and the CPU circuit 8 is driven by power supplied from the battery 10a. Under the control of the power supply control circuit 9, for example, when the capacity of the endoscope image stored in the buffer memory 3 is less than a predetermined capacity, the power supply circuit 10 restricts the supply of power to the CPU circuit 8. When the capacity is equal to or larger than the predetermined capacity, the restriction on the supply of power to the CPU circuit 8 is released.

The CPU state holding circuit 11 includes a memory (not shown), and holds information regarding the processing state of the CPU circuit 8 output from the CPU circuit 8.
Next, processing executed in the image storage device 1 will be described.

In the processing described here, it is assumed that the power supply control circuit 9 performs control for stopping supply of power to the CPU circuit 8 as control for limiting supply of power to the CPU circuit 8.
In the image storage device 1, when the input interface circuit 2 acquires an endoscope image input from the outside, the buffer circuit 4 stores the endoscope image in the buffer memory 3.

  Further, the buffer circuit 4 monitors the capacity of the endoscope image stored in the buffer memory 3, and when the capacity is smaller than a predetermined capacity, the storage of the endoscope image in the buffer memory 3 described above. The endoscope image stored in the buffer memory 3 is output to the CPU circuit 8 when the capacity is equal to or larger than the predetermined capacity. However, this output is performed after the supply of power to the CPU circuit 8 is started according to a process described later.

  Further, the buffer circuit 4 notifies the power control circuit 9 of information on the capacity of the endoscope image stored in the buffer memory 3. Here, when the capacity of the endoscope image stored in the buffer memory 3 changes from less than a predetermined capacity to more than a predetermined capacity, or when the capacity changes from more than a predetermined capacity to less than a predetermined capacity, the change at that time is performed. Information about the later capacity shall be notified.

In response to this notification, the image storage device 1 executes the processing shown in FIG.
FIG. 2 is a flowchart illustrating an example of a process executed when notification of information on the capacity of an endoscope image stored in the buffer memory is performed in the image storage device according to the embodiment.

  As shown in FIG. 2, when this processing starts, first, the power supply control circuit 9 to which information about the capacity of the endoscope image stored in the buffer memory 3 has been notified is smaller than the predetermined capacity. It is determined whether or not it is (S201).

  If the determination result in S201 is YES, the power supply control circuit 9 notifies the CPU circuit 8 that the supply of power is stopped (S202). The CPU circuit 8 that has received the notification outputs the information on the processing state of the CPU circuit 8 to the CPU state holding circuit 11 and holds the information (S203). Next, the power supply control circuit 9 controls the power supply circuit 10 to stop supplying power to the CPU circuit 8 (S204). As a result, the supply of power to the CPU circuit 8 is stopped.

  On the other hand, if the determination result in S201 is NO, the power supply control circuit 9 controls the power supply circuit 10 to start supplying power to the CPU circuit 8 (S205). Accordingly, power supply to the CPU circuit 8 starts. Next, the power supply control circuit 9 notifies the CPU circuit 8 that the supply of power to the CPU circuit 8 is started (S206). The CPU circuit 8 that has received the notification acquires information about the processing state of the CPU circuit 8 from the CPU state holding circuit 11 and restores the processing state of the CPU circuit 8 (S207). As a result, the processing state of the CPU circuit 8 returns to the state before the supply of power to the CPU circuit 8 was stopped.

Then, after S204 or S207, the present process ends.
According to the processing shown in FIG. 2, when the capacity of the endoscope image stored in the buffer memory 3 is smaller than the predetermined capacity, the supply of power to the CPU circuit 8 is stopped, and the capacity is reduced to the predetermined capacity. When the capacity is equal to or larger than the capacity, supply of power to the CPU circuit 8 is started.

  The CPU circuit 8 to which the power supply is started stores the endoscope image output from the buffer memory 3 by the buffer circuit 4 in the HDD 5. Alternatively, image processing is performed on the endoscope image output from the buffer memory 3 by the buffer circuit 4, and the processed endoscope image is stored in the HDD 5.

  According to the above-described processing executed in the image storage device 1, when the capacity of the endoscope image stored in the buffer memory 3 is less than the predetermined capacity, the buffer memory of the endoscope image input from the outside is 3 and the supply of power to the CPU circuit 8 is stopped. At this time, since the output of the endoscope image from the buffer memory 3 to the CPU circuit 8 is not performed, the endoscope image is not lost even if the supply of power to the CPU circuit 8 is stopped. On the other hand, when the capacity of the endoscope image stored in the buffer memory 3 is equal to or larger than the predetermined capacity, the supply of power to the CPU circuit 8 is started and the endoscope from the buffer memory 3 to the CPU circuit 8 is started. An image is output. At this time, since power is supplied to the CPU circuit 8, the CPU circuit 8 can store the endoscope image in the HDD 5 without losing the endoscope image.

As described above, according to the present embodiment, in the image storage device 1 that stores an endoscope image, further power saving can be realized without losing the endoscope image.
In the present embodiment, various modifications are possible.

  For example, the power supply control circuit 9 notifies the CPU state holding circuit 11 instead of notifying the CPU circuit 8 of the notification that the power supply is restricted or the release of the power supply restriction. You may go. When notified that the power supply is to be restricted, the CPU state holding circuit 11 acquires and retains information on the processing state of the CPU circuit 8 from the CPU circuit 8, and releases the restriction of the power supply. When notified that the processing is performed, the information on the processing state of the CPU circuit 8 held may be output to the CPU circuit 8.

  Further, for example, the power supply circuit 10 is connected to a power outlet provided on a wall surface or the like of a room by a power cable, and the power supplied by the power supply circuit 10 to each unit in the image storage device 1 is replaced by the battery 10a. It is good also as a structure supplied from a power outlet.

  As described above, the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements in the implementation stage without departing from the scope of the invention. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the above embodiments. For example, some components of all the components shown in the embodiment may be deleted. Further, components of different embodiments may be appropriately combined.

Reference Signs List 1 image storage device 2 input interface circuit 3 buffer memory 4 buffer circuit 5 HDD
6 LCD panel 7 Communication interface circuit 8 CPU circuit 9 Power supply control circuit 10 Power supply circuit 10a Battery 11 CPU state holding circuit

Claims (8)

An image acquisition unit that acquires an endoscope image,
A first storage unit capable of storing the endoscope image,
A first storage control for storing the endoscope image in the first storage unit, a storage control unit capable of processing,
A second storage unit capable of storing the endoscope image,
A second storage control that stores the endoscope image in the second storage unit, and a central control unit that can process an arithmetic control that performs an arithmetic process different from the storage control;
Power can be supplied to the storage control unit and the central control unit, and when the capacity of the endoscope image stored in the first storage unit is less than a predetermined capacity, the central control unit A power supply for restricting the supply of power to the
An image storage device comprising: The endoscope image stored in the first storage unit in the first storage control is the endoscope image output from the image acquisition unit,
The endoscope image stored in the second storage unit in the second storage control is the endoscope image output from the first storage unit,
The storage control unit,
Monitoring the capacity of the endoscope image stored in the first storage unit,
When the capacity is less than the predetermined capacity, the storage of the endoscope image in the first storage unit is continued,
When the capacity is equal to or greater than the predetermined capacity, the endoscope image stored in the first storage unit is output to the central control unit.
The image storage device according to claim 1, wherein: A power control unit that controls the power supply unit,
The storage control unit notifies the power control unit of information on the capacity of the endoscope image stored in the first storage unit,
The power control unit,
When the capacity is less than the predetermined capacity, perform control on the power supply unit to limit supply of power to the central control unit,
When the capacity is equal to or more than the predetermined capacity, perform control for canceling the restriction on the power supply unit;
The image storage device according to claim 2, wherein: The control for limiting the supply of power to the central control unit is a control for stopping the supply of power to the central control unit,
The control for releasing the restriction is a control for starting supply of power to the central control unit,
4. The image storage device according to claim 3, wherein: A state holding unit capable of holding information on a processing state of the central control unit,
The central control unit,
When notified that the supply of power is restricted, the information on the processing state is output to the state holding unit and held,
When notified that the restriction is to be released, obtain information on the processing state held in the state holding unit and restore the processing state of the central control unit,
4. The image storage device according to claim 3, wherein: A state holding unit capable of holding information on a processing state of the central control unit,
The state holding unit,
When notified that the supply of power to the central control unit is restricted, obtains and holds information on the processing state of the central control unit from the central control unit,
When notified that the restriction will be released, output information on the processing state held to the central control unit,
4. The image storage device according to claim 3, wherein: The power supply unit,
Has a battery in which electricity is stored,
The storage control unit and the central control unit are driven by power supplied from the battery,
The image storage device according to claim 1, wherein: The arithmetic processing different from the storage control includes image processing on the endoscope image,
The endoscope image stored in the first storage unit in the first storage control is the endoscope image output from the image acquisition unit,
The endoscope image stored in the second storage unit in the second storage control is the endoscope image output from the first storage unit or output from the first storage unit. An endoscope image after the image processing is performed on the endoscope image,
The storage control unit,
Monitoring the capacity of the endoscope image stored in the first storage unit,
When the capacity is less than the predetermined capacity, the storage of the endoscope image in the first storage unit is continued,
When the capacity is equal to or greater than the predetermined capacity, the endoscope image stored in the first storage unit is output to the central control unit.
The image storage device according to claim 1, wherein: