WO2017122845A1

WO2017122845A1 - Multi-channel ultra-high resolution image acquisition/reproduction system and method for heterogeneous operations for each channel

Info

Publication number: WO2017122845A1
Application number: PCT/KR2016/000399
Authority: WO
Inventors: 장성준; 이상설; 김제우
Original assignee: 전자부품연구원
Priority date: 2016-01-14
Filing date: 2016-01-14
Publication date: 2017-07-20
Also published as: KR20170085213A

Abstract

Provided is a multi-channel ultra-high resolution image acquisition/reproduction system and method for heterogeneous operations for each channel. In the multi-channel ultra-high resolution image acquisition/reproduction system and method according to an embodiment of the present invention, an acquisition operation and a reproduction operation are independently performed for each channel. Therefore, when high-resolution image data are acquired or reproduced in real time from multiple channels, independent operations in heterogeneous modes can be performed for each channel, so as to promote the convenience of image use/management.

Description

Multi-channel ultra high resolution image acquisition / playback system and method for heterogeneous operation by channel

The present invention relates to an ultra-high resolution imaging technique, and more particularly, to an image acquisition / playback system and method for acquiring and storing an ultra-high resolution image in a server and reproducing an ultra-high resolution image stored in the server.

1 is a diagram illustrating a conventional ultra high resolution imaging system. The apparatus shown in FIG. 1 receives an image from a plurality of cameras (multi-channels) through an SDI interface, reduces data size by codec compression, and transmits the image to a server through a PCIe interface.

To prevent data loss due to interface speed differences, frame buffering is performed using external memory, and data is processed in parallel from multiple cameras and codecs.

In addition, the image system illustrated in FIG. 1 may receive images stored in a server, decompress them using a codec, and reproduce the images through a plurality of displays (multi-channels). In this case, an external memory is used, and data is processed in parallel by a plurality of codecs and displays.

In the imaging system shown in FIG. 1, all of the multi-channels must operate in the same mode. This will be described in detail with reference to FIGS. 2 and 3.

2 is a block diagram of a conventional image acquisition / reproduction system. As shown in FIG. 2, the conventional image acquisition / reproduction system 10 uses one external memory 150 for acquisition / reproduction, and has one path of a camera / display through a codec.

In the conventional image acquisition / reproduction system shown in FIG. 2, as shown in FIG. 3, only one operation mode may be set for all channels (S21), and an interrupt is waited for each channel (S22). In order to acquire or reproduce an image of a generated channel, a read or write process is performed on compressed data (S23), and this is repeated until image acquisition or reproduction is completed (S24).

However, image acquisition and reproduction performed in steps S22 to S24 are the same for all channels. It is only possible to perform image acquisition for both channel 1 and channel 2 or to perform image reproduction for both channel 1 and channel 2. That is, it is impossible to operate in heterogeneous mode for each channel.

The present invention has been made to solve the above problems, an object of the present invention is to provide a multi-channel ultra-high resolution image acquisition / playback system and method for heterogeneous operation for each channel.

According to an embodiment of the present invention, an image acquisition / reproduction system includes: a first memory controller that reads and writes image compressed data of a first channel into a memory; A second memory controller for reading and writing image compressed data of a second channel into a memory; 'Path for delivering image compressed data of the first channel received from the first device of the first channel to the server through the first memory controller' and 'Image compressed data of the first channel received from the server A first path control switch for switching to selectively provide any one of a path 'for transferring to the second device of the first channel via the first memory controller; 'Path for delivering image compressed data of the second channel received from the first device of the second channel to the server through the second memory controller' and 'Image compressed data of the second channel received from the server And a second path control switch for switching to selectively provide any one of a path delivered to the second device of the second channel via the second memory controller. The two path control switches operate independently of each other.

The image acquisition / reproduction system according to an embodiment of the present invention selectively selects one of 'path between the first path control switch and the server' and 'path between the second path control switch and the server'. It may further include a; third path control switch for switching to provide.

In addition, the third path switch is switched based on occurrence of an 'interrupt requesting processing of the image compressed data of the first channel' and 'interrupt requesting processing of the image compressed data of the second channel'. The operation can be controlled.

The first memory controller reads and writes the image compressed data of the first channel into a memory in a first memory, and the second memory controller reads the image compressed data of the second channel into a second memory into a memory. The first memory and the second memory may be divided.

In addition, the first device may be a camera, and the second device may be a display.

On the other hand, according to another embodiment of the present invention, the image acquisition / playback method, 'path to pass the image compressed data of the first channel received from the first device of the first channel via the first memory controller to the server' And a first path for selectively providing any one of 'a path for transferring image compressed data of the first channel received from the server to the second device of the first channel via the first memory controller.' Control step; And 'Path for transferring the image compressed data of the second channel received from the first device of the second channel to the server through the second memory controller' and 'The image compressed data of the second channel received from the server. And a second path control step of switching to selectively provide any one of a path delivered to the second device of the second channel via the second memory controller. The two path control steps are performed independently of each other.

As described above, according to embodiments of the present invention, when real-time acquisition or reproduction of high-resolution video data from multi-channels, it is possible to operate in heterogeneous modes independently for each channel, thereby facilitating convenience of video use / management. It becomes possible.

1 is a diagram illustrating a conventional ultra high resolution imaging system;

2 is a block diagram of a conventional image acquisition / reproduction system;

3 is a flowchart provided to explain a conventional image acquisition / reproduction method;

4 is a block diagram of a multi-channel image acquisition / reproduction system according to an embodiment of the present invention, and

5 is a flowchart provided to explain a multi-channel image acquisition / reproduction method according to another embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

4 is a block diagram of a multi-channel image acquisition / reproduction system according to an embodiment of the present invention. The multi-channel image acquisition / reproduction system 100 according to an exemplary embodiment of the present invention is a system required for acquiring and storing ultra high resolution image compressed data in real time and reproducing the ultra high resolution image compressed data stored in the server.

The multi-channel image acquisition / playback system 100 according to an embodiment of the present invention processes an ultra high resolution image into a multi-channel. That is, it is possible to acquire and process ultra high resolution images input from a plurality of cameras, and to reproduce and process ultra high resolution images on a plurality of displays.

Furthermore, the multi-channel image acquisition / reproduction system 100 according to the embodiment of the present invention can perform heterogeneous operations for each channel. For example, an image acquisition operation may be performed on one channel while an image reproduction operation may be performed on another channel.

As shown in FIG. 4, the multi-channel image acquisition / reproduction system 100 according to an embodiment of the present invention that performs such a function includes a channel 1 external memory controller 110 and a channel 1 path control switch 121. 122), channel 1 compressed data controller 130, channel 2 compressed data controller 140, channel 2 path control switches 151, 152, channel 2 external memory controller 160, server

path control switches

171, 172 And a PCIe controller 180.

The channel 1 external memory controller 110 writes and reads data into the channel 1 external memory 210, and the channel 2 external memory controller 160 writes and reads data into the channel 2 external memory 220.

The channel 1 write path control switch 121 determines data to be written to the channel 1 external memory 210. Specifically, the channel 1 write path control switch 121 is configured so that the data generated and compressed by the camera of the channel 1 is written to the channel 1 external memory 210 or the channel 1 compressed data read from the server is stored in the channel 1 external memory ( Switch the path to write to 210.

The channel 1 read path control switch 122 determines a transfer path of data read from the channel 1 external memory 210. Specifically, the channel 1 read path control switch 122 may transmit data read from the channel 1 external memory 210 to the server through the data controller 183 of the PCIe controller 180 or the channel 1 compressed data controller 130. The path is switched so that it is delivered to the display of channel 1 through.

The switching operation of the channel 1

path control switches

121 and 122 is controlled by a value stored in the channel 1 register 181 of the PCIe controller 180. The value of the channel 1 register 181 is determined according to the operation mode of the channel 1.

When the operation mode of the channel 1 is the image acquisition mode, the channel 1 write path control switch 121 is generated by the channel 1 camera by the channel 1 register 181 and the compressed data is transferred to the channel 1 external memory 210. The switching operation is performed to be written, and the channel 1 read path control switch 122 switches so that data read from the channel 1 external memory 210 is transferred to the server through the data controller 183.

On the other hand, when the operation mode of the channel 1 is the video playback mode, the channel 1 register 181, the channel 1 write path control switch 121 is the channel 1 compressed data read from the server through the data controller 183 is channel 1 is switched to write to the external memory 210, the channel 1 read path control switch 122 is the data read from the channel 1 external memory 210, the channel 1 codec (not shown) Switching operation to be delivered to the display of channel 1 through.

The channel 2 write path control switch 151 determines data to be written to the channel 2 external memory 220. Specifically, the channel 2 write path control switch 151 is configured such that the data generated and compressed by the camera of channel 2 is written to the channel 2 external memory 220 or the channel 2 compressed data read from the server is stored in the channel 2 external memory ( The path is switched to 220).

The channel 2 read path control switch 152 determines a transfer path of data read from the channel 2 external memory 220. Specifically, the channel 2 read path control switch 152 may transmit data read from the channel 2 external memory 220 to the server through the data controller 183 or through the channel 2 compressed data controller 140. Switch the path so that it is delivered to the display.

The switching operation of the channel 2 path control switches 151 and 152 is controlled by a value stored in the channel 2 register 184 of the PCIe controller 180. The value of the null 2 register 184 is determined according to the operating mode of the channel 2.

When the operation mode of the channel 2 is the image acquisition mode, the channel 2 write path control switch 151 is generated by the channel 2 camera by the channel 2 register 184 and the compressed data is transferred to the channel 2 external memory 220. The switching operation is performed to be written, and the channel 2 read path control switch 152 is switched so that data read from the channel 2 external memory 220 is transferred to the server through the data controller 183.

On the other hand, when the operation mode of the channel 2 is the video playback mode, the channel 2 register 184, the channel 2 write path control switch 151 is the channel 2 compressed data read from the server through the data controller 183 is channel 2 is switched to write to the external memory 220, the channel 2 read path control switch 152 is the data read from the channel 2 external memory 220, the channel 2 codec (not shown) through the channel 2 compressed data controller 140 Switching operation to be delivered to the display of channel 2 via.

The channel 1 interrupt generator 135 generates an interrupt when the compressed data stored in the channel 1 compressed data controller 130 serving as a buffer reaches a predetermined size or there is no remaining compressed data, and the channel 2 interrupt generator 145 buffers the buffer. When the compressed data stored in the channel 2 compressed data controller 140 functioning as a predetermined size or there is no remaining compressed data, an interrupt is generated.

The interrupt controller 182 of the PCIe controller 180 transmits the interrupt generated by the interrupt

generators

135 and 145 to the server, and controls the server path control switches 171 and 172 according to the interrupt occurrence.

The server write path control switch 172 determines the data to be written to the server. Specifically, the server write path control switch 172 switches the path such that data generated and compressed by the camera of channel 1 is written to the server or data written and compressed by the camera of channel 2 is written to the server.

The server read path control switch 171 determines a transfer path of data read from the server. Specifically, the server read path control switch 171 is configured to transmit data read from the server to the display of channel 1 through the channel 1 compressed data controller 130 or to display the channel 2 through the channel 2 compressed data controller 140. Switch the path so that it is forwarded to.

If an interrupt is generated by the channel 1 interrupt generator 135 in the absence of an interrupt currently being processed, the interrupt controller 182 may connect the server read path control switch 171 to the channel 1 write path control switch 121. The server path control switches 171 and 172 are controlled such that the server write path control switch 172 is connected to the channel 1 read path control switch 122.

On the other hand, if an interrupt is generated by the channel 2 interrupt generator 145 in the absence of an interrupt currently being processed, the interrupt controller 182 may cause the server read path control switch 171 to transmit the channel 2 write path control switch 151. And control the server path control switches 171 and 172 such that the server write path control switch 172 is connected to the channel 2 read path control switch 152.

The server path control switches 171 and 172 may share the data controller 183 of the PCIe controller 180 for acquiring / reproducing compressed data of channel 1 and compressed data of channel 2.

Hereinafter, a multi-channel image acquisition / reproduction process by the image acquisition / reproduction system illustrated in FIG. 4 will be described in detail with reference to FIG. 5. 5 is a flowchart provided to explain a multi-channel image acquisition / reproduction method according to another embodiment of the present invention.

As shown in FIG. 5, first, image compression data paths are set by setting values of

registers

181 and 184 according to an operation mode for each channel (S210).

Specifically, the channel 1 write path control switch 121 and the channel 1 read path control switch 122 are set by setting the value of the channel 1 register 181 according to the operation mode of the channel 1 (controlling the switching operation). )do.

In addition, the channel 2 write path control switch 151 and the channel 2 read path control switch 152 are set by setting the value of the channel 2 register 184 according to the operation mode of the channel 2 (controlling the switching operation). do.

Next, the interrupt controller 182 waits for interrupt generation by the interrupt generators 135 and 145 (S220), and selects a channel when an interrupt occurs (S230).

In step S230, the paths of the server path control switches 171. 172 are set (controlling switching operation) such that the path control switches of the interrupted channels and the server path control switches 171. 172 are connected.

Next, in order to interrupt processing, that is, acquire or reproduce an image of the channel where the interrupt occurred, read or write compressed data is performed (S240).

Steps S220 to S240 are repeated until image acquisition or reproduction is completed (S250).

So far, a multi-channel ultra-high resolution image acquisition / playback system and method for heterogeneous operation for each channel has been described in detail with reference to a preferred embodiment.

Although two channels are mentioned in the above embodiment, they are merely exemplary for convenience of description. The technical idea of the present invention may also be applied to three or more channels.

Furthermore, there is no restriction on the image resolution in the application of the present invention. That is, the technical idea of the present invention can be applied to images of various resolutions.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims

A first memory controller for reading and writing image compressed data of a first channel into a memory;

A second memory controller for reading and writing image compressed data of a second channel into a memory;

'Path for delivering image compressed data of the first channel received from the first device of the first channel to the server through the first memory controller' and 'Image compressed data of the first channel received from the server A first path control switch for switching to selectively provide any one of a path 'for transferring to the second device of the first channel via the first memory controller;

'Path for delivering image compressed data of the second channel received from the first device of the second channel to the server through the second memory controller' and 'Image compressed data of the second channel received from the server And a second path control switch for switching to selectively provide any one of a path passing through the second memory controller to the second device of the second channel.

The first path control switch and the second path control switch,

Image acquisition / playback system characterized in that the switching operation independently from each other.
The method according to claim 1,

And a third path control switch for switching to selectively provide any one of a path between the first path control switch and the server and a path between the second path control switch and the server. Image acquisition / playback system.
The method according to claim 2,

The third path switch,

The switching operation is controlled based on the occurrence of an 'interrupt requesting processing of the image compressed data of the first channel' and 'interrupt requesting processing of the image compressed data of the second channel' Acquisition / Playback System.
The method according to claim 1,

The first memory controller reads and writes image compressed data of the first channel into a memory in a first memory,

The second memory controller reads and writes image compressed data of the second channel into a memory in a second memory.

And the first memory and the second memory are divided.
The method according to claim 1,

The first device is a camera,

And the second device is a display.
'Path for delivering the image compressed data of the first channel received from the first device of the first channel to the server via the first memory controller' and 'The image compressed data of the first channel received from the server. A first path control step of switching to selectively provide any one of a path 'passed through a first memory controller to a second device of the first channel';

'Path for delivering the image compressed data of the second channel received from the first device of the second channel to the server via the second memory controller' and 'The image compressed data of the second channel received from the server A second path control step of switching to selectively provide any one of a path 'for transferring to a second device of the second channel via a second memory controller;

And the first path control step and the second path control step are performed independently of each other.