KR100233545B1 - Method and apparatus of recording a continuous action as still images - Google Patents

Abstract

The disclosed subject matter relates to a method and an apparatus capable of recording instant motions as a still picture of a desired time in successive motions. This device receives the information about the transmission / storage interval of the video signal to be taken, and receives the video signal under the control of the transmission / storage control section and the transmission / storage control section that generates and outputs a write / read signal. And a second memory unit configured to receive the site / lead signals of the first memory unit and the transmission / storage control unit for storing and to store image signals read and compressed from the first memory unit under the control of the transmission / storage control unit. Therefore, such a recording apparatus can continue to catch the next moment even while capturing one moment of operation in a continuous operation, and thus can record the moments of motion as a still picture for a desired time.

Description

Method and apparatus for recording continuous motion as still picture

The present invention relates to an apparatus and method capable of recording instant motions as a still image for a desired time in a continuous motion on a subject to be photographed.

When you shoot a subject using DVC (Digital Video Camcoder), you use the photo shot function when you want to record continuous momentary motion as a still image for several seconds. However, this function has a problem in that it is not possible to catch and record the selected next motions while recording the motion of the selected moment as a still image for a desired time in a continuous motion. In addition, this function is inconvenient to record one operation selected from the continuous operation as a still picture and then select / set again each time to record the next operation as a still picture.

Accordingly, in order to solve such a problem, the present invention provides an apparatus and method for recording a continuous operation as a still image for a desired time by designating a transmission / storage interval of a video signal for a subject.

1 and 3 are block diagrams illustrating a DVC system according to the present invention;

2 and 4 is a block diagram showing in detail the transmission / storage control unit.

<Description of main parts of drawing>

11: shuffle sequence generator 12: micom

13, 31: transmission / storage control unit 14: shuffle memory control unit

15: shuffle memory section 16: data compression section

17: ECC memory control unit 18: ECC memory unit

21: command interpretation unit 22: transmission interval control unit

23: storage interval control unit 24: shuffle memory site control unit

25: shuffle memory lead control unit 26: ECC memory site control unit

27: ECC memory lead control unit 32: camera signal processing / memory control unit

33: camera memory unit 41: camera memory site control unit

42: camera memory lead control unit

A feature of the present invention for achieving the above object is a device for recording instant motions as a still picture on a recording medium for a desired time in a continuous operation on a subject to be photographed, and for the transmission / storage interval of the captured video signal. The transmission / storage control unit which receives information and generates and outputs a write / read signal, the first memory unit which receives and stores an image signal under the control of the transmission / storage control unit, and the site of the transmission / storage control unit. A second memory section for receiving a read signal and storing the compressed video signal read and compressed from the first memory section under the control of the transmission / storage control section to record the instantaneous operations as a still picture for a desired time in successive operations. Can be in the recorder.

Another feature of the present invention for achieving the above object is a method for recording instant motions as a still picture for a desired time in a continuous operation on a subject to be photographed, in units of the set transmission interval for the video signal of the subject To write the video signal of the first part interval during the first part interval, and to read the video signal of the other part except the first part interval in the transmission interval, There is a method for recording the instantaneous operation of a video signal as a still picture, which comprises the steps of respectively storing in the address area and continuously reading and recording the video signal stored in each address area for a desired recording time.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating a DVC system according to the present invention, and FIG. 2 is a block diagram illustrating a transmission / storage control unit in detail in the system of FIG. 1.

In the system of FIG. 1, an image signal from a shuffle sequence generator 11 and a microcomputer 12 that receives a luminance signal and a color difference signal for a subject and generates a sequence for shuffling according to the DVC standard. And a transmission / storage control unit 13 for interpreting this command and outputting a memory address signal and a memory control signal when receiving a command for the transmission / storage interval of. The shuffle memory controller 14, which receives image signal data and a memory address / control signal, is connected to an output terminal of the shuffle sequence generator 11 and the transmission / storage control unit 13. . At the output of the shuffle memory control unit 14, the shuffle memory unit 15, which writes and stores the image signal data under the control of the shuffle memory control unit 14, receives the written data and compresses the data according to the DVC standard. There is a data compression section 16. At the output end of the data compression section 16, there is an ECC memory control section 17 which receives data compressed from the data compression section 16 and a memory address / control signal from the transmission / storage control section 13. The output terminal of the ECC memory control unit 17 is connected to an ECC memory unit 18 that stores, reads, and outputs data to the ECC memory control unit 17 under the control of the ECC memory control unit 17.

FIG. 2 shows the transmission / storage control unit 13 in detail in the system of FIG. 1, which has a command interpreter 21 for analyzing commands from the microcomputer 12. As shown in FIG. At the output of the command interpreter 21, a transmission / storage interval control unit 22, 23 for controlling the transmission interval and storage interval to be transmitted / stored from the shuffle memory unit 15 to the ECC memory unit 18 according to the interpreted command. Is connected. The shuffle memory site control unit 24 and the shuffle memory unit control the generation of the white address / control signal of the shuffle memory unit 15 according to the control signal of the transmission interval control unit 22 at the output end of the transmission interval control unit 22. A shuffle memory lead control section 25 for controlling the generation of the lead address / control signal of (15) is connected. The memory address / control signals generated from these two shuffle memory byte control sections 24 and the shuffle memory lead control section 25 are input to the shuffle memory control section 14 of FIG.

At the output end of the storage interval controller 23, an ECC memory site controller 26 and an ECC for controlling generation of the site address / control signal of the ECC memory unit 18 in accordance with the control signal of the storage interval controller 23 are provided. An ECC memory lead control unit 27 for controlling generation of a read address / control signal of the memory unit 18 is connected. The memory address / control signals generated from these two ECC memory sites / lead control sections 26 and 27 are input to the ECC memory control section 17 in FIG.

The operation of the DVC system configured as described above will be described.

The luminance / color difference signal for the subject photographed from the camera is input to the shuffle sequence generator 11, and the shuffle sequence generator 11 generates a sequence and outputs image signal data. Then, if the user specifies a command to record the first frame as a still image for 5 seconds using the captured image of the subject in units of 10 frames, the command is input to the micom 12, and the micom 12 enters this image. The command is recognized and transmitted to the transmission / storage control unit 13 in the form of I ² C or parallel data or other data. Then, the transmission / storage control unit 13 analyzes the data received from the microcomputer 12 and generates a memory address / control signal and outputs it to the shuffle memory controller 14 and the ECC memory controller 17. That is, the command interpreter 21 of the transmission / storage control unit 13 of FIG. 2 interprets a command on data received from the microcomputer 12, transmits image signal data about a subject at a certain time unit, and transmits the image signal data. Find out how long to store the data. Thus, the command interpreter 21 outputs a signal indicating that data is transmitted in units of 10 frames to the transmission interval controller 22, and stores a signal that stores data at intervals of 10 frames and a signal called recording for 5 seconds. 23)

Thus, the transmission interval control unit 22 generates a control signal for causing the byte operation to occur in the first frame once every 10 frames by the input signal to the shuffle memory site control unit 24, and the shuffle memory lead control unit At 25, a control signal is generated to continuously perform a read operation for the remaining 9 frames. Thus, the shuffle memory byte control unit 24 generates an address / control signal that writes the data of the first one-frame video signal according to the input control signal and outputs the address / control signal to the shuffle memory control unit 14. The shuffle memory lead control section 25 generates an address / control signal for continuously reading the written data for the remaining 9 frames and outputs it to the shuffle memory control section 14.

The storage interval controller 23 generates and outputs a control signal for performing the frame operation for each image signal data inputted to the ECC memory site controller 26 by the input signal for 10 frames. A control signal is generated to alternately change the address of the video signal data, and the control signal 27 for 5 seconds is generated by the ECC memory lead control unit 27. Therefore, the ECC memory site control unit 26 writes only the first frame in each data of the image signal received during the 10-frame interval by the input control signal at the first address, and the second frame during the next 10-frame interval. An address / control signal is generated to output the video signal data to the next address and output to the ECC memory control unit 17. The ECC memory read controller 27 reads the data written to each address, generates an address / control signal for recording each data for 5 seconds, and outputs it to the ECC memory controller 17.

In response to the input address / control signal, the shuffle memory controller 14 writes the data of the first frame from the image signal data input from the shuffle sequence generator 11 and reads the data written for the remaining 9 frames. A control signal is generated and output to the shuffle memory unit 15. Thus, the shuffle memory unit 15 stores the video signal data for each first frame at intervals of 10 frame units. The shuffle memory control unit 14 outputs the data read from the shuffle memory unit 15 to the data compression unit 16. The data compression unit 16 outputs the received data to the ECC memory controller 17 by formatting the received data according to the ECC format through DCT → quantization → RLC → VLC according to the DVC standard. The ECC memory controller 17 controls a control signal such that the image signal data for the first frame received from the data compression unit 16 is stored in only one frame of the time of 10 frames in the first region address of the ECC memory unit 18. Occurs. The ECC memory controller 17 stores only one frame of the time of 10 frames in the image signal data for the second frame received from the data compression unit 16 in the second area address of the ECC memory unit 18. To generate a control signal. Thus, the ECC memory unit 18 stores only one frame of the time of 10 frames alternately in the received video signal data in each area. In this way, when all data is stored in the memory area, the ECC memory unit 18 does not store the new data until the recording is completed or a new command is input.

On the other hand, when the ECC memory control unit 17 generates a control signal called recording to the ECC memory unit 18 for 5 seconds, each data stored in each area of the ECC memory unit 18 is continuously read for 5 seconds and the ECC memory control unit Is output to (17). Each of the output data is inputted to a modulator of a later stage, not shown, and then recorded on a tape or the like for 5 seconds after a modulation process for recording. In this way, in the continuous operation, the instantaneous operations are recorded as still pictures for the set time.

3 is a block diagram showing another embodiment of the DVC system according to the present invention, Figure 4 is a block diagram showing the transmission / storage control unit in detail in the system according to FIG.

This system further comprises a camera signal processing / memory control unit 32 and a camera memory unit 33 in the illustrated system of FIG. In addition, the transfer / storage control unit 33 of this system is configured with camera memory site / lead control units 41 and 42 instead of the shuffle memory site / lead control units 24 and 25 shown in FIG.

In the system shown in FIG. 3, the transmission / storage control unit 31 outputs the image signal data input to the camera signal processing / memory control unit 32 and outputs the data of the image signal input to the shuffle memory control unit 14 in FIG. The control is the same as the control. Thus, the signal from the shuffle sequence generator 11 to the shuffle memory controller 14 is transmitted as it is without any control. The rest of the operation of this system is the same as that of the system shown in FIG. In addition, in the transmission / storage control unit of FIG. 4, the transmission interval control unit 22 controls the camera memory site / lead control units 41 and 42 instead of the shuffle memory site / lead control units 24 and 25. FIG. Similarly, other operations in the transmission / storage control unit of FIG. 4 are the same as those of the transmission / storage control unit shown in FIG. 2. 3 and 4 show that the camera memory unit can be controlled in recording instantaneous motions as still images for several seconds in successive motions.

As described above, the DVC system continuously records and stores the next instant motion in the continuous motion by the user's setting so that the next instant motion is recorded as a still image for a desired time. can do.

Claims (6)

An apparatus for recording instant motions on a recording medium as a still image for a desired time in a continuous motion on a subject to be photographed. A transmission / storage control unit which receives information on the transmission / storage interval of the image signal photographed and generates and outputs a write / read signal; A first memory unit which receives and stores an image signal under the control of the transmission / storage control unit; And A second memory unit which receives a site / lead signal of the transmission / storage control unit and stores a video signal read and compressed from the first memory unit under the control of the transmission / storage control unit; Recording apparatus capable of recording as a still image for a desired time to listen. According to claim 1, wherein the transmission / storage control unit An analysis unit for analyzing information on a transmission / storage interval of the video signal received from a microcomputer; A transmission interval control unit outputting a signal for controlling an interval in which the video signal is transmitted from the shuffle sequence generation unit to the first memory unit according to the information signal analyzed by the analysis unit; According to the information signal interpreted by the analysis unit to read the signal for controlling the interval in which the video signal stored in the first memory unit is stored in the second memory unit and the video signal stored in the second memory unit for a predetermined time A storage interval control unit outputting a control signal for the storage interval; A first memory byte controller configured to generate an address / control signal for outputting an image signal of a first partial interval based on an interval at which the image signal is transmitted under the control of the transmission interval controller, and output the address / control signal to the first memory unit; An address for continuously reading and outputting the video signal embedded in the first memory unit for the remaining intervals except for the first partial interval where the video signal is embedded in the interval at which the video signal is transmitted under the control of the transmission interval controller. A first memory lead control unit generating a control signal and outputting the control signal to the first memory unit; Under control of the storage interval controller, an address / control signal is generated and output to the second memory unit so that image signals of each partial interval output from the first memory unit are alternately written to two area addresses during the transmission interval. A second memory byte control unit; And Under the control of the storage interval control unit, an address / control signal is generated for outputting to the second memory unit an address / control signal for continuously reading the video signals of the respective intervals written to the second memory unit for the time to be recorded on the recording medium. And a memory lead control section. The recording apparatus according to claim 1 or 2, wherein the first memory unit is a shuffle memory unit. The recording apparatus according to claim 1 or 2, wherein the first memory unit is a camera memory unit. The recording apparatus according to claim 1 or 2, wherein the second memory unit is an ECC memory unit. A method of recording instantaneous motions on a recording medium for a desired time in a continuous motion on a subject to be photographed, Whitening the video signal of the first partial interval during the first partial interval based on a set transmission interval for the image signal of the subject; Reading the embedded video signal for a period other than the first partial interval in the transmission interval; Storing the read image signals in each address area for a part of the transmission interval; And And continuously reading and recording the video signals stored in the respective address areas for a desired recording time, as a still picture.

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