CN101729902A - Video compression method - Google Patents

Abstract

The invention relates to a video compression method, which comprises the following steps of: A, defining a scene of which the change is less than or equal to a scheduled threshold in different video frames as a background, while defining a scene of which the change is more than the scheduled threshold as a foreground; or, defining a scene of which the change is less than the scheduled threshold in the different video frames as the background, while defining a scene of which the change is more than or equal to the scheduled threshold as the foreground; and B, encoding and decoding the background and the foreground by adopting different reference frames by using a multi-reference frame mechanism of an H.264 or AVS video compression standard, namely encoding and decoding the background by using a high-quality reference frame, and encoding and decoding the foreground by using a common reference frame. The video reference method is particularly suitable for video application with an unchanged camera position, and under the conditions with equal target bit rates, the image quality acquired by the method is higher; and the method only needs to adjust an existing encoder accordingly and does not need to do any changes on an existing decoder, so the method also has the advantage of easy implementation.

Description

A kind of video-frequency compression method

Technical field

The present invention relates to method for processing video frequency, more particularly, relate to a kind of video-frequency compression method.

Background technology

Time redundancy in the removal of images sequence is the main task of video compression algorithm.Time redundancy is meant the correlation that exists between the different images of video sequence.Between each image of video sequence, generally all there is stronger correlation.Therefore, video coding with communicate by letter, do not need all Pixel Information of each frame all are sent to decoder; In most cases, only need to transmit the change information of interframe, decoder can correctly solve present frame according to the image of having decoded and the change information of interframe.As seen, eliminating the key of time redundancy, is to determine which information of interframe does not change, need not transmit.

Information change whether basic ideas are between judgment frame: whether the pixel value of consecutive frame on same position be very approaching.Illustrate below:

If f ₀, f ₁Be two adjacent frames, f ₀Frame is encoded, then at coding f ₁During frame, check f earlier ₁With respect to f ₀Situation of change.Note f ₁At n=(n ₁, n ₂) intensity of pixel position is f ₁(n), f ₀Intensity at the n place is f ₀(n), the difference of the two is defined as FD (Frame Difference: frame is poor):

FD＝f ₁(n)-f ₀(n) (1.1)

If FD ≈ 0 just thinks f ₁(n) and f ₀(n) do not have difference, do not need again to f ₁(n) encode.

But in actual applications, decoder end can only obtain f ₀Through the f as a result after " coding～decoding " ₀'.Because the quantization step of cataloged procedure diminishes, make f ₀' (n) and f ₀(n) there is certain difference between, is designated as QD (Quantized Difference: it is poor to quantize):

QD＝f ₀’(n)-f ₀(n) (1.2)

In order to prevent the accumulation of error, the coding and decoding both sides must adopt f ₀' as checking f ₁The foundation that whether changes.At this moment, claim f ₀' be f ₁Reference frame.

As seen, reference frame is meant the video image that has passed through " coding～decoding " process.The coding and decoding device must be possessed identical reference frame, in order to follow-up image is carried out consistent predicted operation.

Note f ₁With f ₀' intensity difference at the n place is DD (Dccision Difference: it is poor to adjudicate), have:

DD＝f ₁(n)-f ₀’(n) (1.3)

With formula (1.1), (1.2) substitution formula (1.3), obtain:

DD＝FD-QD (1.4)

Formula (1.4) illustrates that the basis for estimation of encoder is: if DD ≈ 0 does not just need f ₁(n) encode.

But QD always increases along with the increase of quantization step, cause DD " should " be 0 in, but be not 0.

Problem is with regard to here: suppose f ₁(n) and f ₀(n) do not have difference, promptly FD ≈ 0, and this does not need f so in theory ₁(n) coding; But because the existence that quantizes, make DD=-QD and keep off 0, encoder in fact still can be to f ₁(n) encode.So, both increased the code check expense, again to the quality of improving decoded picture without any help.

Summary of the invention

The technical problem to be solved in the present invention is, and is big at the above-mentioned code check expense of prior art, the quality of improving decoded picture not have the defective of help, provides a kind of code check expense little video-frequency compression method.

The technical solution adopted for the present invention to solve the technical problems is: a kind of video-frequency compression method is provided, comprises the following steps:

A. be background with changing the scenario definition that is less than or equal to predetermined threshold in the different video frame, the scene that will change greater than predetermined threshold then is defined as prospect; Perhaps, be background with the scenario definition that changes less than predetermined threshold in the different video frame, and the scenario definition that will change more than or equal to predetermined threshold is a prospect;

B. utilize H.264 or the multi-reference frame mechanism of AVS video compression standard, adopt different reference frames to carry out encoding and decoding to background and prospect: background to be carried out encoding and decoding with the high-quality reference frame, prospect is carried out encoding and decoding with common reference frame.

In video-frequency compression method of the present invention, among the described step B, comprise the following steps:

B1. determine the reference frame type with encoder: long term reference frame or short-term reference frame;

B2. synchronous decoding operation: the reference frame type notification after will determining is given decoder, makes decoder reconstructs reference frame lists 0;

B3. encoder is by sending the operation that different self adaptation internal memory control commands is come sync decoder at the high-quality reference frame with the low quality reference frame;

B4. finish.

In video-frequency compression method of the present invention, among the described step B3, the different self adaptation internal memory control command of described transmission is as follows:

For the I frame:

If short-term reference frame, the value that long_term_reference_flag is indicated is changed to 0;

If long term reference frame, the value that long_term_refercnce_flag is indicated is changed to 1;

For the P frame:

If short-term reference frame, the value that adaptive_ref_pic_marking_mode_flag is indicated is changed to 0;

If long term reference frame, the value that adaptive_ref_pic_marking_mode_flag is indicated is changed to 1.

In video-frequency compression method of the present invention, for the P frame, the value of adaptive_ref_pic_marking_modc_flag sign is changed to 1 after, also comprise and carry out following steps:

1. send the value 6 of memory_management_control_operation sign;

2. send the value 0 of long_term_frame_idx;

3. send 0, notice decoder memory_management_control_operation finishes.

In video-frequency compression method of the present invention, described short-term reference frame is predicted 5 frame frame of video of its back, the above multi-frame video frame of 5 frames that described long term reference frame prediction is follow-up.

Implement video-frequency compression method of the present invention, have following beneficial effect: this method is particularly suitable for the constant Video Applications of camera position, in the constant Video Applications of camera position, the major part of picture material belongs to background, has only a very little part to belong to prospect.Though background frames is a top-quality frames, code stream is bigger than normal frames, because it mainly is used as the reference frame of static scene, as long as encode a background frames, just can make the background residual error code check of a plurality of predicted frames reduce in long cycle.Therefore, in general, the compression method that prospect background separates, not only can not cause the code check of whole video stream to increase because of the high-quality of background frames, can reduce code check by reasonably regulating, reaching on the contrary, perhaps under equal target bit rate situation, the picture quality that obtains with this method is higher; And, owing to only need existing encoder is done corresponding the adjustment, need not make any modification to existing decoder, just can correctly decode with the video flowing of this method compression, so this method also has the advantage that is easy to realize.

Description of drawings

The invention will be further described below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the variation schematic diagram of reference frame lists 0 in the cataloged procedure of a preferred embodiment of video-frequency compression method of the present invention;

Fig. 2 is the flow chart of video-frequency compression method of the present invention.

Embodiment

The main points of video-frequency compression method of the present invention are: with the scenario definition that does not have in the video to change is background, the scene that changes then is defined as prospect, utilize H.264 or the multi-reference frame mechanism of AVS video compression standard, adopt different reference frames to carry out encoding and decoding to background and prospect---background high-quality reference frame, the common reference frame of prospect." quality " speech herein is meant the fidelity of the video image after the compression.Fidelity is high more, and image after the compression and original image are approaching more, generally is exactly that image has high-quality.

Be exemplified below:

If f ₀, f ₇, f ₈For having three two field pictures of same background, f in the same video flowing ₇, f ₈Two frames are adjacent, f ₀, f ₇Be respectively f through the result after " coding～decoding " ₀' and f ₇', wherein, f ₀' quantization step is less, is top-quality frames, f ₇' quantization step is bigger, is the normal quality frame.

Note f ₈At n=(n ₁, n ₂) intensity of pixel position is f ₈(n), f ₀' intensity at the n place is f ₀' (n), f ₇' intensity at the n place is f ₇' (n).

By formula (1.4) as can be known: f ₈(n) and f ₀' (n) judgement difference DD ₈₀, with f ₇' (n) judgement difference DD ₈₇Be respectively:

DD ₈₀＝FD ₈₀-QD ₀ (2.1)

DD ₈₇＝FD ₈₇-QD ₇ (2.2)

Wherein, QD ₀, QD ₇Be respectively f ₀' and f ₁' quantification poor.FD ₈₀, FD ₈₇Be respectively f ₈(n) and f ₀' (n), f ₇' (n) frame is poor.

Suppose that the picture material at n place belongs to the background of three frames, then FD ₈₀=FD ₈₇≈ 0, for people's formula (2.1), (2.2):

DD ₈₀＝-QD ₀ (2.3)

DD ₈₇＝-QD ₇ (2.4)

As previously mentioned, f ₇' be the normal quality frame, quantization step is bigger.QD ₇Also bigger, if so encoder adjudicate according to formula (2.4), still can be to background f ₈(n) encode.

But, because f ₀' be top-quality frames, can suitably select its quantization step, make QD ₀Enough little; At this moment, have by formula (2.3): DD ₈₀≈ 0.Encoder is concluded f in view of the above ₈(n) be background, can not encode.

Decoder is at needs f ₈(n) place is directly with high-quality f ₀' (n) replace.

For the constant Video Applications of camera position, as a rule, the major part of each frame belongs to background, has only a very little part to belong to prospect.

Though background is a top-quality frames, code stream is bigger than normal frames, because it mainly is used as the reference frame of static scene, as long as encode a background frames, just can make the background residual error code check of a plurality of predicted frames reduce in long cycle.

Therefore, in general, the compression method that prospect background separates, not only can not cause the code check of whole video stream to increase because of the high-quality of background frames, on the contrary can be by reasonably regulating, reach the effect that reduces code check or under identical code check, improve picture quality.

The key that realizes video-frequency compression method of the present invention is: H.264 support multi-reference frame mechanism with the AVS standard.To be example H.264, introduce the concrete implementation step of this method below.

H.264 reference frame is divided into 2 classes: short-term reference frame and long term reference frame.Short-term reference frame can only predict that at most long term reference frame then can be predicted the multi-frame video frame that 5 follow-up frames are above to 5 frame frame of video of its back.

The type of reference frame is set by the encoder, and comes the reference frame operation of sync decoder by one group of self adaptation internal memory control command (Adaptivememory control commands).

H.264 multi-reference frame administrative mechanism makes method of the present invention be able to realize very expediently.This method comprises the following steps: that A. is a background with changing the scenario definition that is less than or equal to predetermined threshold in the different video frame, and the scenario definition that will change greater than predetermined threshold is a prospect; Perhaps, be background with the scenario definition that changes less than predetermined threshold in the different video frame, and the scenario definition that will change more than or equal to predetermined threshold is a prospect; B. utilize H.264 or the multi-reference frame mechanism of AVS video compression standard, adopt different just reference frames to carry out encoding and decoding to background and prospect: background to be carried out encoding and decoding with the high-quality reference frame, prospect is carried out encoding and decoding with common reference frame.Below in conjunction with the example of a unidirectional inter prediction, illustrate in greater detail and H.264 how to realize this method in the encoder.

With reference to figure 1, only comprise I frame and P frame in the video flowing of single directional prediction, and only use reference frame lists 0 (being called for short list0).Suppose to use 2 reference frames to carry out predictive coding, video flowing be I, P1, P2, P3 ..., P120, wherein I, P10, P60 need become long term reference frame, remaining image is short-term reference frame.Then in the cataloged procedure, contain 2 reference frames list0 situation of change as shown in Figure 1.

Among Fig. 1, the corresponding frame of symbol (L) expression is set to long term reference frame, and (S) the corresponding frame of expression is a short-term reference frame.After having compiled I, reference frame lists 0 is that index0 and the index1 of list0 is changed to I (L) and NULL respectively, compiled P1 after, index0 and index1 are changed to P1 (S) and I (L) respectively; Compiled P2 to P9, index0 is changed to P2 (S) respectively successively to P9 (S), and index1 all is changed to I (L); Compiled P10, index0 and index1 are changed to P9 (S) and P10 (L) respectively; Compiled P11 to P59, index0 is changed to P11 (S) respectively successively to P59 (S), and index1 all is changed to P10 (L); Compiled P60, index0 and index1 are changed to P59 (S) and P60 (L) respectively.

With reference to figure 2, among the above-mentioned steps B, comprise the following steps:

S101: beginning.

S102: determine the reference frame type: long term reference frame or short-term reference frame with encoder;

S103: the synchronous decoding operation: the reference frame type notification after will determining is given decoder, makes encoder rebuild reference frame lists 0.

S104: encoder comes the operation of sync decoder by sending different self adaptation internal memory control commands, and is specific as follows:

(1) for the I frame:

1), the value of long_term_reference_flag sign is changed to 0 if short-term reference frame;

2), the value of long_term_reference_flag sign is changed to 1 if long term reference frame.

(2) for the P frame:

1), the value of adaptive_ref_pic_marking_mode_flag sign is changed to 0 if short-term reference frame;

2) if long term reference frame, then adaptive_ref_pic_marking_mode_flag is put 1, this means that the back also has corresponding memory management control operation (memory_management_control_operation), so encoder also must be carried out following 3 steps:

1. send the value 6 of memory_management_control_operation sign;

2. send the value 0 of long_term_frame_idx;

3. send 0, notice decoder memory_management_control_operation finishes.

S105: finish.

As space is limited, the concrete steps that realize video-frequency compression method of the present invention can only be described herein, above-mentioned each sign all belongs to self adaptation internal memory control command, its concrete implication is in the 8.2.5 trifle of official standard " Recommendation is video coding for generic audiovisualservices H.264:Advanced " H.264, in " decoded reference pictures labeling process (Decoded reference picturemarking process) " literary composition detailed description is arranged, the implementor is reference voluntarily.

In sum, by background is set at long term reference frame, prospect is set at short-term reference frame, just can realize video-frequency compression method of the present invention within the framework of standard H.264.Obviously, it will be appreciated by those skilled in the art that the multi-reference frame mechanism of utilizing the AVS standard to be supported, adopt said method also can realize video-frequency compression method of the present invention.

Video-frequency compression method of the present invention is particularly suitable for the constant Video Applications of camera position, in this class is used, compares with the scheme of other time coding, and under equal target bit rate situation, the picture quality of this method is higher.

In the contrast experiment, the main flow of selection industry H.264 standard coders X264 is represented conventional method, and video-frequency compression method of the present invention is called after SWATAW then.

Table 1 has provided experimental result: under different Rate Control conditions, the constant video flowing paris of typical background (1065 frame) is compressed with X264 and SWATAW respectively, be not difficult to find out from compressing the back size of file and the situation of Y-PSNR (PSNR) two aspects, when picture quality is close, the compression ratio of SWATAW is higher, for example, when code check was 20kbps, the file size that obtains with X264 and SWATAW compression was respectively 84.9 and 84.1; When code check was 80kbps, the file size that obtains with X264 and SWATAW compression was respectively 411KB and 405KB, and as seen, the compression ratio that the SWATAW method obtains is higher.And under identical code check, the picture quality of SWATAW is higher; And this advantage is obvious all the more along with the reduction of target bit rate.

Table 1X264/SWATAW algorithm contrast experiment tables of data

Another advantage of video-frequency compression method of the present invention is: be easy to realize, because encoder only needs to adjust accordingly according to preamble is described, decoder then need not made any modification fully, just can be correctly decoded the video flowing that compresses out with the inventive method.

The above only is the preferred embodiments of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being done, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. a video-frequency compression method is characterized in that, comprises the following steps:

A. be background with changing the scenario definition that is less than or equal to predetermined threshold in the different video frame, and the scenario definition that will change greater than predetermined threshold is a prospect; Perhaps, be background with the scenario definition that changes less than predetermined threshold in the different video frame, and the scenario definition that will change more than or equal to predetermined threshold is a prospect;

B. utilize H.264 or the multi-reference frame mechanism of AVS video compression standard, adopt different reference frames to carry out encoding and decoding to background and prospect: background to be carried out encoding and decoding with the high-quality reference frame, prospect is carried out encoding and decoding with common reference frame.

2. video-frequency compression method according to claim 1 is characterized in that, among the described step B, comprises the following steps:

B1. determine the reference frame type with encoder: long term reference frame or short-term reference frame;

B2. synchronous decoding operation: the reference frame type notification after will determining is given decoder, makes decoder reconstructs reference frame lists 0;

B3. encoder is by sending the operation that different self adaptation internal memory control commands is come sync decoder at the high-quality reference frame with the low quality reference frame;

B4. finish.

3. video-frequency compression method according to claim 2 is characterized in that, among the described step B3, the different self adaptation internal memory control command of described transmission is as follows:

For the I frame:

If short-term reference frame, the value that long_term_reference_flag is indicated is changed to 0;

If long term reference frame, the value that long_term_reference_flag is indicated is changed to 1;

For the P frame:

If short-term reference frame, the value that adaptive_ref_pic_marking_mode_flag is indicated is changed to 0;

If long term reference frame, the value that adaptive_ref_pic_marking_mode_flag is indicated is changed to 1.

4. video-frequency compression method according to claim 3 is characterized in that, for the P frame, the value of adaptive_ref_pic_marking_mode_flag sign is changed to 1 after, also comprise and carry out following steps:

1. send the value 6 of memory_management_control_operation sign;

2. send the value 0 of long_term_frame_idx;

3. send 0, notice decoder memory_management_control_operation finishes.

5. video-frequency compression method according to claim 2 is characterized in that, described short-term reference frame is predicted 5 frame frame of video of its back, the above multi-frame video frame of 5 frames that described long term reference frame prediction is follow-up.

Images