JP2000295624A - Scene detector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect a scene change caused between a 1st field and a 2nd field in the same frame in an interlace system. SOLUTION: Even number frames of a received video image are fed to an even numbered frame scene change detection section and odd numbered frames of are fed to an odd numbered frame scene change detection section. Each of the even numbered frame scene change detection section and the odd numbered frame scene change detection section takes the difference between DC coefficients of adjacent frames, and detects a scene change when the difference value exceeds a threshold and gives its frame number to a scene change discrimination section 12. The scene change discrimination section 12 discriminates the scene change as an original video image and gives the result of discrimination to a scene decision section 14. The scene decision section 14 decides a series of scenes in the received video image on the basis of the result of discrimination and a decision condition received from a scene decision condition input section 13.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to NTSC and PAL.
And a method for detecting a scene change of an image represented by an interlace method.

[0002]

2. Description of the Related Art A scene in a video refers to a plurality of frames in which similar contents are continuous. Switching from one scene to another during video playback is called a scene change. If a frame in which this scene change occurs can be detected and a scene from one scene change to the next scene change can be determined as one scene, this can be a very useful technique for video editing based on scene rearrangement. For this reason, several schemes have been proposed in the past.

Here, as a representative, Japanese Patent Laid-Open No. 6-25905
2 will be described.

In the screen change detection method disclosed in Japanese Patent Laid-Open No. 6-259052, an input image is encoded by discrete cosine transform, and its DC coefficient is compared in successive frames.
A method for detecting whether or not the screen is switched based on the magnitude of the difference is shown. In this method, in image information of a still image and a moving image, an input image is divided into a plurality of grid-like blocks by discrete cosine transform and encoded, and the DC coefficient is stored in a memory. The difference between DC coefficients is taken for each block, and when the number of blocks equal to or greater than a predetermined threshold value exceeds the predetermined threshold value in a frame, the screen of the input video is switched. Is detected. For example, FIG. 4 shows frames 3 and 4
FIG. 5 is an image diagram of a series of images obtained by extracting DC coefficients of a video in which a scene is switched between. When the magnitude of the difference exceeds the threshold value, a scene change can be detected.

[0005]

By the way, in the interlace system, the first field and the second field are mixed in one frame. In a video shot with fast-moving camera work or a video converted from a film into an interlace, a scene change often occurs between the first field and the second field. When a scene change occurs between the first field and the second field in one frame, the DC coefficient of that frame has a large correlation with the DC coefficients of the previous and next frames. For example, FIG. 5 is an image diagram of a series of images in which DC coefficients of a video in which a scene is switched between the first field and the second field of frame 4 are extracted. Since both images are similar to each other, the conventional technique of simply calculating a difference between frames has a problem that the difference does not exceed a threshold value, and that a scene change in frame 4 cannot be detected.

[0006]

SUMMARY OF THE INVENTION A scene detecting apparatus according to the present invention detects a scene change by comparing frames separated by two or more frames. The entire scene change is determined from the detected scene change information, and a continuous scene is determined from the scene change determination result and the determination condition input by the user.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A specific embodiment of the present invention will be described with reference to FIG.

FIG. 1 is a block diagram showing an embodiment of a scene detecting apparatus according to the present invention. The image subjected to the discrete cosine transform is input to the scene change detection unit 11. The scene change detection unit 11 calculates the difference of the DC coefficient between the input video and the frame two frames before, and turns on the scene change detection flag if the magnitude exceeds a threshold value.
Otherwise, it is turned off and sent to the scene change determination unit 12. The scene change determining unit 12 determines whether the scene change detected by the scene change detecting unit 11 is a duplicate detection of the same scene change or not, that is, whether the scene change occurs between frames or within the same frame. It makes a determination, and sends the result of the determination to the scene determination unit 14 as scene change determination information. The scene determination unit 14 determines one continuous scene in the input video based on the determination information and the determination condition input by the user through the scene determination condition input unit 13.

Next, a method of determining a scene change in the scene change determining section 12 will be described with reference to a flowchart of FIG. 2, and a method of determining a scene in the scene determining section 14 will be described with reference to a flowchart of FIG.

In FIG. 2, i is a frame number of an input video, and i = 0, 1, 2,..., (Duration−
1).

Here, it is assumed that the input video has four or more frames, and one continuous scene has two or more frames. Since a scene change is not detected at i = 0, 1, i is determined at S1.
= 2 is set.

In step S2, la serving as scene change determination information
st_frame, next_frame, nutr
Reset al_frame.

If i is not smaller than duration in S3, last_frame is set to durat in S12.
The scene change determination information is output as ion-1 and the processing ends. If i is smaller than duration in S3,
In S4, the scene change detection flag flag (i) output from the scene change detection unit is input. If a scene change in the i-th frame is not detected in S5,
That is, if flag (i) is ON, i is set to 1 in S10.
It increases and returns to S2.

If no scene change in the i-th frame is detected in S5, that is, if flag (i) is O
If it is FF, flag (i + 1) is input in S6.

If the scene change of the (i + 1) th frame is also detected in S7, it is determined that the scene change occurring between the (i-1) th frame and the ith frame has been detected in duplicate, and in S8, (i) -1) Last_fr frame
The scene change determination information is output with the ame, i frame as next_frame. If the scene change of the (i + 1) th frame is not detected in S7, (i-
1) It is determined that a scene change has occurred between the first field and the second field in the frame, and in step S9, scene change determination information is output using this (i-1) frame as a neutral_frame (ambiguous frame).

After outputting the scene change determination information in S8 or S9, i is set to i + 1 in S11 and the process proceeds to S10.

In FIG. 3, first_fr is performed in S21.
ame is set to 0. In S22, scene change determination information output from the scene change determination unit is input. S23
To determine the ambiguous frame (ne
It is determined whether or not there is a “neutral_frame”, and if it is present, if the user has entered conditions so as to discard the ambiguous frame in S24, it is determined in step S30 that “neutra_frame”
l_frame-1 is changed to last_frame, neut
ral_frame + 1 is defined as next_frame. Without truncating the ambiguous frame in S24, S25
If the user has entered conditions so that the ambiguous frame is included in the previous scene, neutral_fra
me as last_frame, neutral_fra
Let me + 1 be next_frame. If the condition has been input in S25 to include the ambiguous frame in the subsequent scene, neutral_frame-1 is set to 1 in S31.
ast_frame, neutral_frame is set to n
ext_frame. In S23, whether there is no ambiguous frame, or in S26, S30, and S31,
After the frame and next_frame are specified, S
27 from first_frame to last_frame
e is determined as one scene. Last_fr in S28
If ame is duration-1, the process ends; otherwise, next_frame is set to first_f in S29.
The process returns to S22 as a frame.

[0018]

According to the scene detecting apparatus of the present invention, a scene change is detected regardless of whether the scene of a moving image is switched between frames or between the first field and the second field in the same frame. Since it is possible, an effect that accurate scene determination is possible can be expected.

[Brief description of the drawings]

FIG. 1 is a block diagram of one embodiment of the present invention.

FIG. 2 is a flowchart showing a processing procedure of a scene change determination method of the present invention.

FIG. 3 is a flowchart showing a processing procedure of a scene determination method according to the present invention.

FIG. 4 is an image diagram of an image extracted from a video in which a scene change has occurred between frames.

FIG. 5 is an image diagram of an image extracted from a video in which a scene change has occurred in a frame.

[Explanation of symbols]

 11 scene change detection unit 12 scene change detection unit 13 scene determination condition input unit 14 scene determination unit

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5C023 AA01 AA11 AA21 AA38 BA01 BA11 BA15 BA16 CA01 DA04 DA08 EA02 5C053 FA14 GB09 GB21 HA29 KA04 KA24 5C059 KK36 MA23 NN43 PP04 SS11 SS19 UA02

Claims (3)

[Claims] 1. A scene change detecting section for comparing non-adjacent frames with each other to detect a scene change, and a scene change determining section for determining an entire scene change based on scene change information detected by the scene change detecting section. A scene determination condition input unit for a user to input conditions necessary for determining a continuous scene; a scene change determination result determined by the scene change determination unit; and a condition input by the scene determination condition input unit. A scene detection device having a scene determination unit that determines a continuous scene based on the scene. 2. A scene change detecting unit that compares a first frame and a second frame that are not adjacent to each other and detects a scene change in a second frame, and determines a third frame immediately before the second frame as a second frame. If a scene change is detected in comparison with the second and subsequent frames, it is determined that a scene change has occurred between the third frame and the second frame. If no scene change is detected, the first change in the third frame is determined. A scene detection device having a scene change determination unit that determines that a scene change has occurred between a field and a second field. 3. When the scene change determination unit determines that a scene change has occurred between a first field and a second field in a third frame (hereinafter, this frame is referred to as an “ambiguous frame”). If a condition is input in the scene determination condition input unit so that the ambiguous frame is the end of the previous scene, the third frame is defined as the previous scene, the frame immediately after the third frame is defined as the subsequent scene, and the vague frame is defined as If a condition is input so as to be the head of the subsequent scene, the frame up to the frame immediately before the third frame is defined as the previous scene, and the frame from the third frame is defined as the rear scene.
If a condition is input so that an ambiguous frame is not included in either of the scenes, a scene determining unit that determines one scene as a previous scene up to the frame immediately before the third frame and a subsequent scene from the scene immediately after the third frame. A scene detection device.