DE202021104226U1 - Device and system for the reproduction of moving images - Google Patents

Abstract

Apparatus for reproducing moving images, comprising: a storage unit (110) for storing moving image sequences, each moving image sequence comprising a plurality of individual images, a communication unit for receiving moving image sequences, an input unit (140) for receiving user input, a control unit (120) for Retrieving and processing the moving image sequences from the storage unit (110) and for adapting a transition from one moving image sequence to a following moving image sequence based on a user input, an output unit (130) for outputting a first moving image sequence and a second moving image sequence adapted to the end of the first moving image sequence .

Description

The present invention relates to a moving picture display device and a moving picture display system.

When playing back or playing back moving images on a display device in an endless loop or over a very long period of time, there is often the problem that the available image material is shorter than the desired playback time. On the other hand, the loading time for longer image material is very long and requires a high bandwidth. Images that represent objects over a longer period of time also do not allow the user to influence them.

In order to enable a continuous and / or endless reproduction of moving image sequences, it is known to combine several short and, if possible, similar moving image sequences and to play them back continuously. In the simplest case, a single moving image sequence is restarted and reproduced after a one-time sequence. This interruption or transition is recognized by the viewer so that he becomes aware that it is an unnatural reproduction and is based on a recording.

Such systems with a continuous reproduction of moving image sequences relate, for example, to the reproduction of fireplace fires or the presentation of sea images with sunrises and / or sunsets and waves. Such moving image sequences are often played in hotel lobbies, airports and shopping centers.

The object of the present invention is to provide a device and a system with which the most natural possible continuous reproduction of moving image sequences in an endless loop or in a very long period of time is made possible without the user recognizing that the Playback based on a recording.

Another task is to give the user the option of influencing the image content when programming or setting the type and manner of continuous playback and also to influence the user when displaying the moving image sequences or display accents in the moving image sequences to enable.

The object is achieved by the features of the independent claims. Advantages of configurations can be found in the subclaims.

The core of the invention is to record highly professional moving image sequences and to put them together so professionally that the user does not recognize any transitions between the moving image sequences.

The moving image sequences are offered on a topic-related basis and the user can load the moving image sequences, including the information about which of the moving image sequences match each other, from a server or provider and thus also display highly professional video representations of moving images in offline mode, without meeting major hardware requirements and without a large bandwidth to require reloading of image material.

For this purpose, a device for reproducing moving images is specified, comprising: a memory unit for storing moving image sequences, each moving image sequence comprising a plurality of individual images, a communication unit for receiving moving image sequences and / or for receiving information on transitions from moving image sequences, an input unit for receiving of user inputs, a control unit for retrieving and processing the moving image sequences from the memory unit and for controlling a transition from one moving image sequence to a following moving image sequence based on a user input and an output unit for outputting a first moving image sequence and a second moving image sequence adapted to the end of the first moving image sequence .

The control unit preferably has an assignment unit in which matching moving image sequences are stored.

Each moving image sequence preferably has a start and end area, each start area and end area comprising one or more individual images.

A transition from a first moving image sequence to a second or subsequent moving image sequence based on a degree of correspondence between the end region of a first moving image sequence and an initial region of a second moving image sequence is preferably stored in the assignment unit.

Preferably, matching moving image sequences are determined manually, with transitions from matching moving image sequences or the information about them being stored in the assignment unit. That is, it is stored in the allocation unit that when playing the moving image sequence 1, preferably Moving image sequence 3 or 5 can follow, since these moving image sequences have been selected in advance as being suitable for moving image sequence 1.

After playing the moving picture sequence 3 or 5, the control unit accesses the allocation unit again to call up the moving picture sequences or the information about which of the moving picture sequences from the local memory match the moving picture sequence 3 or 5.

The control unit preferably selects a subsequent image sequence based on information from the assignment unit, a playback module of the control unit calling up the information about subsequent matching image sequences from the memory unit and reproducing it on the output unit.

The control unit is preferably set up to carry out an analysis of the moving image sequences stored in the memory unit. The analysis of the stored moving image sequences can be carried out locally in the device or manually in advance, the transition information then being transmitted to the device together with the moving image sequences and being stored there.

If several suitable moving image sequences are stored in the assignment unit, the selection is made either by a random generator or as a function of user input. For example, a subsequent moving image sequence can contain a calming of the displayed moving image. Another, likewise suitable moving image sequence can contain an animation of the moving image displayed. This means that the user can influence the display by selecting a display mode (calm or animated).

In order to identify a suitable transition, a comparison of an end area of a first moving image sequence and a starting area of a second moving image sequence is carried out, for example.

Given a predetermined degree of correspondence between an initial area and an end area of a first and a second moving image sequence, these first and second moving image sequences are classified as matching one another.

If the degree of correspondence is below the predetermined degree of correspondence between the start and end areas of the first and second moving image sequences, these first and second moving image sequences are classified as not matching one another.

The degree of agreement can be determined by AI.

Each moving image sequence preferably has an identification number, identification numbers of moving image sequences that match one another being stored in the assignment unit.

In response to a user input, the control unit preferably selects the second moving image sequence based on the identification numbers of matching moving image sequences from the assignment unit for continuous moving image sequence reproduction during the transition from a first moving image sequence to a second moving image sequence.

The assignment unit preferably has different areas for different user inputs or display options or display modes.

The different user inputs preferably include a user input for continuous, similar reproduction of moving image sequences or a user input for continuous reproduction of moving image sequences with special effects. One display mode can be "calm", another display mode can be "animated". That is, the allocation unit can select the following moving picture sequence based on the user input.

A subsequent moving image sequence can preferably be selected in the assignment unit as a function of the user unit.

The moving image sequence preferably relates to only a section of an image.

This means that a sequence of moving image sequences is only output in this section of the image or screen and the remaining part of the image is a still image or a live image, or a different order of moving image sequences with a different topic is played on this remaining part.

For the analysis of start and end areas, the control unit preferably comprises a comparison of individual images in a predeterminable area of the moving image sequence.

The predeterminable area preferably comprises a predetermined number of individual images in the start area and / or end area of one or all of the moving image sequences.

That is, if a moving image sequence comprises 1000 individual frames, the start and End area each include 100 frames. The number of frames from the start and end area can be different.

For the analysis, each of the individual images from the start area is preferably compared with each individual image from the end area in order to determine a maximum degree of correspondence. By comparing several individual images, the probability is increased that the moving image sequence each have two individual images that are very similar in order to enable a smooth transition between the moving image sequences.

The respective single image from the start area of the second or subsequent moving image sequences with the maximum correspondence to a single image of an end area of a first moving image sequence or an identifier thereof is stored in the assignment unit with the identification number of the second moving image sequences and when changing from the first moving image sequence to the subsequent second moving image sequence , the first moving image sequence is terminated at the individual image which has the maximum degree of correspondence with the individual image of the subsequent second moving image sequences and the subsequent second moving image sequence is started with this individual image.

The control unit preferably adapts the last individual image of a first moving image sequence to the starting individual image of the subsequent second moving image sequence.

The control unit preferably adapts an image quality and / or an image property for the transition from the first moving image sequence to the subsequent second moving image sequence in order to adapt a transition between the first moving image sequence and the subsequent second moving image sequence.

The control unit preferably only adjusts an initial individual image and an end individual image if no predetermined degree of congruence between individual images of a start and end area of the first moving image sequence and the subsequent second moving image sequence is achieved.

The image information or the image theme preferably remain largely the same in the moving image sequences.

A method for reproducing at least two moving image sequences on an output unit is also specified, a transition from a first moving image sequence to a subsequent second moving image sequence being controllable by a control unit, the control unit performing a transition based on a manually determined transition sequence; or undertakes an analysis of a plurality of moving image sequences and finds and stores matching moving image sequences or makes an adjustment from an end area or from an end individual image to an initial area or to an initial individual image.

A system is also specified, comprising a device according to one of the preceding claims and a server on which different moving image sequences are stored, the moving image sequences being retrievable from the server based on the assignment table.

• 1 zeigt ein System gemäß der vorliegenden Erfindung;
• 2 zeigt eine Vorrichtung gemäß der vorliegenden Erfindung;
• 3 zeigt eine andere Ausgestaltung der Steuereinheit gemäß der vorliegenden Erfindung
• 4 zeigt ein Flussablaufdiagramm für eine Steuereinheit gemäß 3,
• 5 zeigt eine weitere Ausgestaltung der Steuereinheit gemäß der vorliegenden Erfindung
• 6 zeigt ein Flussablaufdiagramm für eine Steuereinheit gemäß 5,
• 7 zeigt eine Anzeigevorrichtung mit mehreren Teilbereichen.

The invention is described in more detail below with reference to figures.

• 1 Figure 3 shows a system in accordance with the present invention;
• 2 Figure 3 shows an apparatus according to the present invention;
• 3 Fig. 10 shows another embodiment of the control unit according to the present invention
• 4th FIG. 11 shows a flow chart for a control unit according to FIG 3 ,
• 5 shows a further embodiment of the control unit according to the present invention
• 6th FIG. 11 shows a flow chart for a control unit according to FIG 5 ,
• 7th shows a display device with a plurality of partial areas.

In 1 a system according to the present invention is shown, in which it is systematically shown how various moving image sequences are downloaded from a server on the Internet and stored locally in an application on a local device in order to prevent time-consuming reloading of moving image sequences. The moving image sequences are stored in the form of a library, each moving image sequence having an identification number to which the control unit can respond 120 can access to join or analyze the moving image sequences and change them if necessary. The control unit 120 contains various functions, for example a random generator 124 for the selection of the moving picture sequences. The control unit 120 also contains a buffer 125 , in which the moving image sequences to be reproduced are stored in a specific order. In addition, a playback module (player) 123 provided that on the buffer 125 accesses with the moving image sequences stored therein in order to view them on the same or a external device 130 in a continuous playback.

The application can be run on a smartphone or tablet. It can also be run on any computer or smart TV, the image to be reproduced then either being output on the device's own display or on the display connected to the device via video streaming 130 . The control unit 120 or device 100 can be controlled via language and keyboard or touch commands. For example, it is possible to stop or start the moving image sequence or to adjust the volume of the audio information contained in the moving image sequence. In addition, the type and manner of the image content of the image sequence to be reproduced can be influenced via an input by the user. For example, in the “open fire” example, it is possible to influence the selection of image sequences to be reproduced via an input by the user so that, for example, a calm or an excited fire with, for example, slight deflagrations is reproduced. When displaying horizon images at the sea, for example, sunrises and sunsets can be faded in or a thunderstorm or a moving ship can be displayed. The strength of the swell can also be set via user input, so that the control unit can then be based on this user input 120 from the library 110 , in which the various moving image sequences are stored, selects the moving image sequences that the user would like to see based on his input. In this way it is possible to provide the user with a device, a method and a system with which a continuous or endless or moving image sequence reproduced over a very long period of time (24/7) can be played without complex, without the user noticing that the reproduction is based on an unnatural composition of different moving image sequences.

One reason for this approach is that, on the one hand, one would have to record very long video or moving image sequences for the various scenarios and play them back, which is a very high requirement, especially for the download speed and the required storage capacity, and thus the application for the Users would either become expensive, very slow, or inflexible.

By providing a library of different moving image sequences on a topic, it is basically possible to combine these different moving image sequences on a topic in such a way that no perceptible transitions between two moving image sequences can be recognized during the endless playback. In order to line up these moving image sequences as possible without noticeable transitions, the control unit has a microprocessor on which an application runs that accesses the moving image sequences stored in the memory 110 are filed.

The following is based on the 2 describes a first simple way of how moving image sequences can be lined up in order to be played back with as little noticeable transitions as possible. In the 2 is the schematic structure analogous to 1 shown. In a store 110 a predetermined set of moving image sequences on at least one topic is stored. The memory 110 is with a control unit 120 tied together. The control unit 120 can be done by a user via an input unit 140 being controlled. The control unit 120 is with a display device 130 coupled or has the device or device a display 130 on. The control unit 120 has a lookup table, LUT, 121 , via a microprocessor 122 and a playback module 123 . In addition, as in 1 a buffer, not shown 125 be present in which the microprocessor 122 stores selected moving image sequences to view them without reloading from the playback module 123 to play. The control unit 120 processes the data from the user via the input unit 140 entered user input and selects the moving image sequences based on it.

In 2 is a lookup table for a simple implementation of the device according to the invention 121 provided, in which different identification numbers of moving image sequences are stored that match each other.

The definition of “fit together” means that the moving image sequences, if they are played back one after the other, have an unnoticeable or an acceptably noticeable transition. It is thus possible, when a first moving image sequence is selected, for example by the user via a topic selection, to use the lookup table to make a subsequent moving image sequence 121 as in this lookup table 121 Identification numbers of further moving image sequences are stored, the start frame or individual image of which matches the end image or the end frame of the first moving image sequence.

That is, in this first implementation, the selection of matching moving image sequences takes place primarily on a manual analysis by a user and a corresponding marking or storage of identification numbers in a lookup table 121 in order to reproduce these moving image sequences in such a way that a transition that is as imperceptible as possible is generated between two moving image sequences. The information about which of the moving image sequences match one another can be contained in the library and offered by the provider of the moving image sequences.

In order to enable these imperceptible transitions, it is either necessary to have many moving image sequences from which matching moving image sequences are selected so that a transition is not noticeable or when recording the moving image sequences or their generation, the initial and To set or record end images in such a way that a transition to a subsequent moving image sequence that is as imperceptible as possible is made possible.

Thus it is possible that the control unit 120 or the microprocessor 122 in it with the program that is on the lookup table 121 accesses, selects moving image sequences according to user input and determines identification numbers of moving image sequences and then converts these moving image sequences into an in 2 buffer not shown 125 loads to this from the player module 123 to reproduce.

In 3 is another embodiment of a control unit 120 illustrated in accordance with the present invention. This is done by the microprocessor 122 an analysis of the moving image sequences is carried out. To do this, the microprocessor analyzes or scans 122 all moving image sequences that are in the library or in the memory 110 are stored and the lookup table is created 121 itself. The microprocessor 122 consequently scans a first and a second moving image sequence and, in the simplest case, analyzes the start frame of the second moving image sequence and the end frame of the first moving image sequence. If the differences between the end frame of the first moving image sequence and the beginning frame of the second moving image sequence are below a previously set threshold value, i.e. a transition that is as unnoticeable as possible is possible, the transition from this first moving image sequence to this second moving image sequence is shown in the lookup table 121 noted or stored, so that in a subsequent playback of an endless moving image sequence made up of several moving image sequences, this sequence can be used, which is in the lookup table 121 is saved.

It is also possible that the microprocessor 122 not only the end frame of the first moving image sequence is analyzed, but an end area of the first moving image sequence with several individual images or individual frames. This makes it possible to select from various individual images or individual frames of the first moving image sequence that which matches an initial frame of the second moving image sequence. The microprocessor can also for the second moving image sequence 122 not only analyze the first starting frame of this second moving image sequence. The microprocessor 122 can advantageously also analyze an initial area consisting of several individual frames or individual images and select the individual image from these which matches the individual image from the end area of the first moving image sequence. Consequently, in this embodiment it is also necessary not only to include the identification numbers of the moving image sequences in the lookup table 121 but also the respective individual image from the end area or starting area that match each other.

The size or duration of the start and end area can be designed flexibly. The size or duration of the start and end area can be set depending on the threshold value of the correspondence between the two individual frames to be compared.

The size or duration is dependent on the threshold value of the agreement and / or dependent on the available time or computing power that the microprocessor can use or can provide. In the maximum case, the microprocessor can analyze the complete moving image sequence in order to recognize matching single frames from a first moving image sequence to a second moving image sequence, and thus to generate a smooth transition from one moving image to another moving image.

The playback module 123 then takes effect when playing the from the microprocessor 122 selected moving image sequences on this lookup table 121 and can consequently the various selected moving picture sequences from the buffer, not shown 125 play without time-consuming reloading and on a display 130 represent.

The process described above is in 4th shown in a flow chart. In one step S401 For example, the first and the last individual image of a moving image sequence is analyzed. In step S402 Moving image sequences are recognized that have a first and last individual image that have a difference that is less than a predetermined threshold value. Based on these selected moving image sequences, step S403 a possible moving picture sequence defined by the microprocessor 122 in the lookup table 121 in step S404 is saved, where in step S405 the second moving image sequence following the one moving image sequence is selected based on the stored moving image sequence.

In 5 a further embodiment is shown schematically. The microprocessor 120 leads an analysis similar to in 3 in order to compare individual frames or moving image sequences and their individual frames and, based on this comparison, select moving image sequences which match one another or whose differences are below a predetermined threshold value.

When the microprocessor 122 In this analysis, moving picture sequences are found which have a high degree of correspondence, but a noticeable transition would still occur in a transition from the first moving picture sequence to the second moving picture sequence, is carried out by the microprocessor 122 an active adaptation of the last individual image of the first moving image sequence is carried out to the first individual image or the starting frame of the subsequent second moving image sequence.

This active adaptation of the respective end frames or start frames can be carried out in various ways. On the one hand, it is possible to reduce the sharpness or the resolution of the respective images, so that the contours of the displayed image are blurred in order to compensate for a transition. This can happen in a sliding process over several individual frames, so that ultimately the last frame of the first moving image sequence and the first frame of the second moving image sequence are so blurred that the user cannot see a transition. In addition to or as an alternative to the sharpness of the image, the hue and / or the contrast of the image can also be adjusted with a smooth process so that the transition is as imperceptible as possible.

Active adaptation, as in 5 shown, can be done on condition that the microprocessor 122 does not find any matching moving image sequences.

Alternatively or additionally, however, it is also possible that the microprocessor 122 basically makes an adjustment in order to always adapt the transition so that it is not only most likely not noticeable, but is not noticeable at all. This is of course associated with a corresponding computational effort and time, but can be easily implemented with professional systems.

Active adaptation can also require changing not only the image characteristics but also changing the image content. For this purpose, for example, the screen content of the start frame of the following or second moving image sequence can be analyzed and placed over the first moving image sequence by gently fading in or overlaying, so that the transition is as invisible as possible. This process can also be referred to as smart looping.

In 6th this procedure is shown as a flow chart. In step S601 the moving image sequences are analyzed, in particular the first and the last frame of a moving image sequence. Here, too, it is pointed out that the first and last frame can also be extended to a start area and an end area that contains several frames, the matching frames of the start and end areas of the first and second moving image sequences then being selected and stored. After these matching first and second moving image sequences have been analyzed, the respectively selected first and last individual frames or the frames from the beginning and end of the first and second moving image sequence are changed to show a state in which the difference between these two individual images or Single frames is below a predetermined threshold value. In step S602 the moving image sequences adapted in this way are played.

In a further embodiment, a system is specified which has moving image sequences that each relate to only a section of an image. For example, in the case of a horizon image with a sea view, it is possible to influence the foreground differently than the background on the horizon. This means that the front area, which represents sand or the surf and the swell, for example, can be displayed with a different sequence of moving image sequences than the background, in which either a very calm horizon is displayed or the sunrise and / or sunset or the swell. Cloud formations or thunderstorms. In this way, by assembling different moving image sequences in different display areas 510-550 of the display an endless reproduction of, for example, natural scenes or fire, whereby the user can influence the playback sequence of moving image sequences by selecting properties. For example, it is possible for the user to select that he would like to display moving image sequences with strong waves in the foreground of the display area and that he would like to see a sunrise in the background. As a result, the microprocessor would 122 Select moving image sequences from the library that depict a sunrise and select and play moving image sequences in the foreground that depict strong waves. That is, with such a reproduction of moving image sequences in different display areas of a screen, it is additionally necessary that the transitions between the individual display areas are also adapted to one another. This can be done analogously to the in 5 and 6th described embodiments are made. For this purpose, the transitions between the individual display areas are also adapted or the moving image sequences are selected in such a way that the transitions between the display areas also represent an imperceptible transition.

Claims (20)

Apparatus for reproducing moving images, comprising: a storage unit (110) for storing moving image sequences, each moving image sequence comprising a plurality of individual images, a communication unit for receiving moving image sequences, an input unit (140) for receiving user input, a control unit (120) for retrieving and processing the moving image sequences from the memory unit (110) and for adapting a transition from one moving image sequence to a subsequent moving image sequence based on a user input, an output unit (130) for outputting a first moving image sequence and a second moving image sequence adapted to the end of the first moving image sequence. Device according to Claim 1 , wherein the control unit (120) has an assignment unit (121) in which matching moving image sequences are stored. Device according to Claim 1 or 2 wherein each moving image sequence has a start and end area and each start area and end area comprises one or more individual images. Device according to one of the Claims 2 or 3 wherein a transition from a first moving image sequence to a second moving image sequence based on a degree of correspondence between the end area of a first and an initial area of a second moving image sequence is stored in the assignment unit (121). Device according to one of the preceding claims, wherein matching moving image sequences are determined manually and transitions from matching moving image sequences are stored in the assignment unit. Device according to one of the preceding claims, wherein the control unit (120) selects a subsequent image sequence based on information from the allocation unit and retrieves it from the memory unit (110) and reproduces it by means of the output unit. Device according to one of the preceding claims, wherein the control unit (120) is set up to carry out an analysis of the moving image sequences stored in the memory unit (110), in particular a comparison of an end region of a first moving image sequence and an initial region of a second moving image sequence, and given a previously determined degree of correspondence between a starting area and an end area of a first and a second moving image sequence, these first and second moving image sequences are classified as matching each other and, if the degree of correspondence is below the previously determined degree of correspondence between the starting and end areas of the first and second moving image sequence, these first and second moving image sequences are not matching each other classified. Device according to one of the preceding claims, wherein each moving image sequence has an identification number and identification numbers of moving image sequences that match one another are stored in the assignment unit. Device according to one of the preceding claims, wherein the control unit (120) selects the second moving image sequence based on the identification numbers of matching moving image sequences from the assignment unit for continuous playback of moving image sequences during the transition from a first moving image sequence to a second moving image sequence upon a user input. Device according to one of the preceding claims, wherein the assignment unit (121) has different areas for different user input. Device according to one of the preceding claims, wherein the different user inputs comprise a user input for a continuous reproduction of image sequences of the same type, a user input for a continuous reproduction of image sequences with special effects. Device according to one of the preceding claims, wherein a subsequent image sequence can be selected in the assignment unit (121) as a function of the user unit. Device according to one of the preceding claims, wherein the image sequence relates only to a section (510-560) of an image or the display device and a sequence of image sequences are output only in this section (510-560) of the image and the remaining part (570) of the Image is a still image or a live image. Device according to one of the preceding claims, wherein the control unit (120) for the analysis of start and end areas comprises a comparison of individual images in a predeterminable area. Device according to one of the preceding claims, wherein the predeterminable area comprises a predetermined number of individual images in the start area and end area of an image sequence. Device according to one of the preceding claims, wherein, for the analysis, each of the individual images from the starting area is compared with each individual image from the end area in order to determine a maximum degree of correspondence, the respective individual image from the starting area of the second or subsequent image sequence having the maximum correspondence with a single image End area of a first image sequence is stored in the assignment unit with the identification number of the second image sequence and, when changing from the first image sequence to the subsequent second image sequence, the first image sequence is ended in the individual image which has the maximum degree of correspondence with the individual image of the subsequent second image sequence and which subsequent second image sequence is started with this single image. Device according to one of the preceding claims, wherein the control unit (120) adapts the last individual image of a first image sequence to the initial individual image of the subsequent second image sequence; the control unit (120) preferably adjusts an image quality for the transition from the first image sequence to the subsequent second Image sequence to adapt a transition between the first image sequence and the subsequent second image sequence. Device according to one of the preceding claims, wherein the control unit (120) adjusts an initial individual image and an end individual image only if no predetermined degree of congruence between individual images of a start and end area of the first image sequence and the subsequent second image sequence is achieved. Device according to one of the preceding claims, wherein the image information or the image theme remains largely the same. System comprising a device according to one of the preceding claims and a server (150) on which different image sequences are stored and transmitted to the device, optionally with the assignment table (121) of matching moving image sequences and / or wherein the image sequences are based on the assignment table ( 121) can be called up from the server (150).

Images