WO2007025852A2 - System and method for archiving surveillance videos - Google Patents

Abstract

The invention relates to a system for archiving surveillance videos, comprising a camera, a storage unit, and an encoder which generates an encoded individual image from a reference image (I-FRAME). Exactly one encoder is designed such that at least one quantity correlating with the reference image is calculated. The invention further relates to a method for archiving surveillance videos especially in an arrangement of said type. According to said method, reference images are encoded such that at least one first prediction path and a second prediction path are created between encoded individual images.

Description

description

System and method for video archiving surveillance videos

The invention relates to a system for video archiving surveillance videos according to the preamble of claim 1 and to a method for video archiving surveillance videos according to the preamble of claim 7.

The archiving of surveillance videos is known to the experts. Currently, a two-stage system with two video encoders is used to encode the resulting image data.

Such archived surveillance videos are also often used as evidence in proceedings, for example in court. Efforts are being made to ensure that the video images must have a certain minimum image quality for usability as proof in court, or that evidence of this minimum image quality must be maintained with the images. It is therefore foreseeable that in addition to the fact that in a two-stage system for one and the same image sequence is done twice with one video encoder each encoding, also an increased effort for the provision of the minimum image quality is required.

The object underlying the invention is to provide a system and a method for archiving surveillance videos, which implements a quality verification of stored surveillance videos with little effort.

This object is achieved on the basis of the system for video-archiving surveillance videos according to the preamble of claim 1 by its characterizing features and starting from the method for video archiving of surveillance tion videos according to the preamble of claim 7 solved by its characterizing features.

In the system according to the invention for video archiving of surveillance videos consisting of camera, memory unit and an encoder from a reference image "I-FRAME" coded frame generating encoder exactly one encoder is designed such that - in addition to coding - at least one correlated to the reference image measure is calculated ,

The system according to the invention therefore makes possible the determination and evaluation of a variable which reflects the quality of the coded image.

For this purpose, the archiving system preferably has comparison means which are designed such that the calculated correlating measure is compared with a reference value, wherein the encoder and the memory unit are designed such that the comparison result is stored together with the coded frame.

As a result, the detection of properties of the coded frame at any later time is possible.

It is also advantageous if the encoder and the memory unit are configured such that the correlating measure is stored together with the coded frame. This results in an assignment of dimension and individual image, so that a quick evaluation is possible.

If the encoder is designed in such a way that a distance measure with respect to the reference image is calculated as a correlating measure, a simple implementation results from the fact that the distance measure can be determined with comparatively less complex methods. Alternatively, the encoder is designed such that a quality measure with respect to at least a part of the reference image is calculated as a correlating measure. This ensures a more precise determination of the size representing the quality of the coded individual image, while also taking into account the fact that certain regions of the reference image are of particular interest for argumentation.

Preferably, the encoder is designed such that it has means for calculating a Peak Signal to Noise Ratio "PSNR" as a quality proof, this being characterized by simple implementation, since methods for determining the PSNR are known in the art.

In the method according to the invention for video archiving surveillance videos, in particular in an arrangement of the type mentioned above, coding of support images is performed in such a way that at least a first prediction path and a second prediction path are generated between coded individual images.

In this way, a coding method using only one encoder is possible, preferably the first path through at least one first sequence consisting of the reference picture and at least two predicted individual pictures, the second path by at least one second sequence consisting of at least three predicted individual pictures , and in addition to associating the first sequence with a first rate of frames while forming the first path and the second path such that the second sequence contains interpolation points with respect to a frame of the first path and the first rate by a multiple is increased to a second rate.

Furthermore, preferably the first path and the second path are stored separately from each other such that each image the first path is assigned a first reference to a first sequence, and each second sequence of the second path is assigned a second reference to the image of the first path. This gives the possibility to store the paths separately from each other.

A further advantageous development of the method according to the invention results when storage of the first and / or second path takes place in such a way that new images of the first path are already stored at first time intervals

Replace images of the first path and replace new images of the second path at second intervals already stored images of the second path, wherein the second time intervals are selected by a multiple greater than the first time intervals.

Preferably, deleting a support image of the first path will cause deletion of the second sequence referencing the support image. This guarantees an always current referencing. Preferably, the first time interval is 24 hours, while the second intervals are 30 days. Furthermore, it is preferred that the first rate is selected at two frames per second and the second rate at 25 frames per second.

Further details and advantages of the invention will be explained with reference to the figures Ia to Ib. It shows

FIG. 1 a shows a state transition diagram of the method according to the invention,

FIG. 1b is a flow chart of the method according to the invention.

FIG. 1a shows a state transition diagram. To recognize here is a first as "coding" designated

State Zl and a second state "Z2" labeled "Save". Furthermore, it can be seen that a transition from the first state Zl to the second state Z2 then takes place when an update is required, while at times when no update is required, a transition from the storage state Z2 to the state Zl code Zl is initiated.

FIG. 1b shows the procedure of the method according to the invention in more detail. It can be seen that, starting from a first step S1, which designates the initial state coding Z1, a second step S2 is carried out, in which the calculation of the peak signal to noise ratio for each image is carried out. In a third step S3 following the second step, a first prediction path with a sequence consisting of a reference image and at least two predicted individual images is generated at a rate of two frames per second (fps, images / s), while in a fourth Step S4 is a second prediction path is generated, which contains a sequence of three predicted frames, wherein the sequence of the second prediction path are each based on an image from the first path and thus extend this to 25 fps. In addition, each image from the first path is assigned a reference to a sequence from the second path, while in the other direction each sequence from the second path is assigned a reference to the associated support image from the first path (the support or mutual Referencing is indicated in the illustration by the double arrow). By doing so, it is now possible to save both paths separately. First, however, in a sixth step S6, the timer for updating the first path is set, while at the same time in a seventh step S7, a timer for updating the second path is set, the first path being overwritten, for example, every 30 days and thus a timer for updating is set to 30 days, while the second path must be overwritten every 24 hours and thus updated. If one of the two timers now expires, an eighth step S8 queries whether an update is required. If this is not the case, the method comes into the initial state Z1 and thus the process begins again with the first step S1, which is constantly repeated in an endless loop during image acquisition by a video device. If the result is positive, ie if the query in the eighth step S8 reveals that an update is required, the paths are stored accordingly, and in the event that a support image of the first path must be deleted, the corresponding sequence ascertainable by the referencing also exists is deleted from the second path and, in addition, if a sequence with three predicted individual images has to be deleted from the second path, the reference to this sequence also becomes inaccessible for the associated support image from the first path (not avaiable). must be set.

By the method according to the invention, a cost reduction or a capacity expansion can be achieved on the one hand by the saving of an encoder, since on the one hand this can be done with only one encoder and also the memory for archiving image sequences is kept low. In addition, compliance with the quality requirements is always verifiable and can be forwarded to a court.

Claims

claims

A video archiving system comprising a camera, a storage unit and an encoder which generates a coded frame from a reference image "I-frame", characterized by exactly one encoder which is designed such that at least one measure correlating to the reference image is calculated.

2. Video archiving system according to claim 1, characterized in that a) it has comparison means, which are designed such that the calculated correlating measure is compared with a reference value, b) the encoder and the memory unit are configured such that the comparison result together with the coded frame is stored.

3. Video archiving system according to claim 1, characterized in that the encoder and the memory unit are configured such that the correlating measure is stored together with the coded frame.

4. Video archiving system according to one of the preceding claims, characterized in that the encoder is designed such that a distance measure is calculated with reference to the reference image as a correlative measure.

5. Video archiving system according to one of the preceding claims, characterized in that the encoder is designed such that a quality measure with reference to at least a part of the reference image is calculated as a correlating measure.

6. Video archiving system according to the preceding claim, characterized in that the encoder means for calculating a peak signal-to-noise ratio "PSNR" as a quality measure.

7. A method for operating a video archiving system, in particular according to one of the preceding claims, characterized in that an encoding of support images takes place such that at least a first prediction path and a second prediction path between coded individual images are generated.

8. The method according to the preceding claim, characterized in that a) the first path is formed by at least a first sequence consisting of the reference image and at least two predicated individual images, b) the second path by at least one second sequence consisting of at least three c) associating the first sequence with a first rate of frames, d) the first path and the second path are formed such that the second sequence contains interpolation points with respect to a frame of the first path and the first rate increased by a multiple to a second rate.

9. Method according to the preceding claim, characterized in that the first path and the second path are stored separately from each other such that a) each image of the first path is assigned a first reference to a first sequence, b) every second sequence of the second Path a second

Reference to the image of the first path is assigned.

10. The method according to the preceding claim, characterized in that a storage of the first and / or second path is such that a) replace new images of the first path at first time intervals already stored images of the first path, b) new images of the second path Replace already stored images of the second path at second intervals, c) the second time intervals are selected to be many times greater than the first time intervals.

11. The method according to the preceding claim, characterized in that the deletion of a support image of the first path causes a deletion of referencing the supporting image second sequence.

12. Method according to the preceding claim, characterized in that the first time intervals are 24 hours and the second time intervals are 30 days.

A method according to the preceding claim, characterized in that the first rate is 2 frames / second and the second rate is 25 frames / second.