DE102015122878B4 - Lighting effects around a screen - Google Patents

Abstract

Method for generating light effects in the vicinity of a screen (2) of a television set (1) on which video sequences generated using coded video signals (9) are displayed, the screen (2) being associated with a plurality of illumination sources (3) , which is controlled by means of an electronic control system and the regionally variable color effects in the environment (6) of the screen (2), in particular behind and / or next to the screen, generated, the color effects are color adapted to the currently displayed video sequence such that regions of the Environmentally correlate (6) with sections of the current video image color and wherein the color effects with the video sequences are synchronized in time, characterized in that the illumination device of lighting signals (10) is controlled, determined by a connected to the Internet portal and in a separate data stream over egg ne separate data line (13) parallel to the encrypted video signals (9) are transmitted to the control electronics.

Description

The invention relates to a method for generating light effects in the environment of the screen of a television set, on the basis of encrypted video signals supplied video sequences are shown, wherein the screen is associated with a lighting device with a plurality of illumination sources, the regionally variable color effects in the environment of the screen, in particular behind and / or next to the screen generated, the color effects are color adapted to the screen content of the currently displayed video sequence such that regions of the environment with color sections of the current video image color correlate. The color effects are temporally synchronized with the video sequences. The invention also relates to a system for implementing the method.

From the manufacturer Philips® television sets have been known for some time, which have a so-called "Ambilight" function. These are equipped on the back with a variety of light sources, in particular with LEDs, which are each controlled individually or in groups in correlation to the color of the current screen content and generate correspondingly colored light. The light is thrown on the wall behind the TV so that the screen gets a viewer-alterable yard ("halo effect"), which magnifies the field of view of the device in the viewer's perception. The Ambilight technology is designed to protect the eyes and in addition to the special effect also reduce eye discomfort that occur in the context of a TV as the only source of light in the room.

If the control of the LEDs is adjusted in terms of time and color to the current screen content, then this has the effect that the events on the screen, so to speak, embedded in the ambience of the viewer and thus produces an impressive effect. To achieve this effect, graphics processors in the TV analyze the video signal to be displayed with regard to the area (regional) distribution of the colors and generate illumination signals for the LEDs, which generate regionally correlating color effects in the vicinity of the screen. Thus, the events on the screen for the viewer continues in a manner of color on the wall behind the TV.

Such a method is for example from the US Pat. No. 8,576,340 B1 known. Also the US 2012/0 262 072 A1 , the WO 2008/068 698 A1 and the US 2010/0 031 298 A1 describe methods for generating light effects in the environment of a screen.

Users of a TV that does not have the Ambilight feature can also upgrade their TV. For this purpose, accordingly controllable LED arrangements are offered, which are mounted on or behind the TV. To control these LEDs, the video signal is tapped in front of the TV by means of a "video grabber" and forwarded to a processor, which calculates the color for each individual LED. Retrofitting the Ambilight function is associated with significant quality losses.

Thus, a general problem of the production of Ambilight is that the video signals are sent in encrypted form over the data line and the color information can not be read directly, but only after the decoding of the video signals. Therefore, the illumination signals required for the Ambilight are generated by analyzing the reconstructed video image only at the point where the decrypted and already converted for the control of the screen video information is present. At this point, however, the video signal is unsuitable for piracy because of the enormous amount of data. Another effect is that the creation of Ambilight delays the display of the screen content by a certain amount. The Ambilight function can thus be realized either only locally in television sets or with a corresponding loss of quality by means of video grabbers.

The object of the invention is now to propose a method for the production of Ambilight, which improves the resolution and avoids the delayed display of screen contents with high quality and while maintaining data security. In addition, it is the task to propose a corresponding system for implementing the method.

These objects are achieved by a method having the characterizing features of claim 1 and a system according to claim 5. Advantageous embodiments are mentioned in the respective subclaims.

Accordingly, the essential aspect of the invention is that parallel to the encrypted video signals separate illumination signals are sent via the data line network, which were produced in a sense "at the source" of the originally unencrypted video data. With these parallel illumination signals then a lighting device associated with the television is controlled by means of appropriate control electronics. The basic idea of the invention is thus to analyze the video data already on the part of the provider or right holder with regard to the generation of the illumination signals. According to the invention, two at least logically separate data streams, the video signals and the illumination signals generated, which are then sent via separate data lines to the user.

With the invention, the realization and provision of the Ambilight function is no longer the TV but the provider, for example, the operator of TV platforms, which can increase the attractiveness of their offer by the separate lighting signals, for example, at their own, the television sets assigned Settop Send boxes. In addition, the invention can advantageously be implemented in systems for home automation, in particular the smart home concept. The invention can not only be used in conjunction with conventional televisions. It is also conceivable that televisions with Ambilight function use the data stream of the illumination signals according to the invention.

A particular advantage of the invention lies in the fact that the operator of a video or TV platform does not have to decrypt the video data within the set-top box, evaluate it with respect to the image content and then re-encrypt it. Thus, there is nowhere in the transmission path video data that can be copied, so that the system remains unassailable against piracy. Instead, the lighting signals - for example in the form of light values - are determined by the TV platform and sent in a separate data stream via the same or a separate data line to the control electronics of Ambilight.

The provider-side determination of the illumination signals can be done in various ways: First, the illumination signals can be generated in a particularly advantageous embodiment "asynchronous" together with the creation and coding of the video material. They can then be stored as an additional Ambilight "track" as a sound track along with the video signals and sent. This embodiment has the advantage that no separate synchronization is necessary, at least when the illumination signals are sent on the same physical data line.

In another embodiment, the illumination signals are first generated "synchronously" with the transmission of the video material. This method is displayed on existing video that does not have an Ambilight track yet. In this embodiment, the illumination signals are not so "interwoven" with the video signals and are advantageously transmitted over a separate physical data line. Especially in this embodiment, it is advantageous to provide a time advantage when sending the illumination signals in order to compensate for any delay in the transmission of the illumination sources.

In particular, when video signals and illumination signals are transmitted on different data lines, it is advantageous to provide the video signals and the illumination signals with time stamps ("time stamps") in order to enable exact synchronization on the part of the user.

It may also be advantageous to evaluate the lighting signals at a central point in the household, for example already at a gateway, and from there only to send the control signals via the home automation network to the lighting devices associated with the television sets. Such a gateway can also offer options for individual adjustment. Since data lines in different households have very different lengths, it would be advantageous, for example, if the duration of the illumination signals can be adjusted at the gateway to optimize the synchronization. The parameterization via the gateway can advantageously be carried out by means of an application on a smartphone which communicates via a radio link, for example via WLAN, with the gateway. The adjustment of the parameters can be made by observation by the user and manual adjustment. It is also conceivable that the camera is used in the smartphone to examine the setting of the parameters by recording the Ambilights and then adjust accordingly with an image processing application.

Further advantages of the invention are that the compute-intensive determination of the illumination signals takes place only once at a central location with correspondingly high computing power. This saves costs in decentralized devices. In addition, the video signals can be sent encrypted over the entire route, which leads to a correspondingly high data security.

• Die Figur zeigt in schematischer Darstellung das Grundprinzip der Erfindung anhand eines Systems zur Durchführung des Verfahrens. Ein zentraler Bestandteil ist das Fernsehgerät 1 mit einem Bildschirm 2, wobei es unerheblich ist, ob es sich um ein Fernsehgerät 1 im klassischen Sinne handelt. Das „Fernsehgerät“ kann sich auch in einer Kombination eines Bilschrimes mit einer separaten Empfangs- und Ansteuerelektronik manifestieren. Der Empfang der Videodaten zur Ansteuerung des Fernsehgerätes kann über klassische Kabel- oder Funknetze aber auch über das Internet geschehen.

The invention will be explained in more detail below with reference to FIG.

• The figure shows a schematic representation of the basic principle of the invention with reference to a system for carrying out the method. A central component is the TV 1 with a screen 2 , it does not matter if it is a TV 1 in the classical sense. The "TV" can also manifest itself in a combination of a bi-screen with a separate receiving and control electronics. The reception of video data to control the TV can be done via traditional cable or wireless networks but also over the Internet.

For the Ambilight feature is the screen 2 an illumination system with a plurality of individual light sources in the form of a single LED 3 , assigned in the present case to the screen 2 around and behind this are arranged. The LEDs emit colored light on the wall 4 behind the screen, creating a halo 6 , The control of the LED for generating the colored light is done with a lighting system associated control electronics, here in the form of a set top box 5 is trained.

Outside the premises 7 where the system is installed, is a provider of TV content that is encoded in video signals and the TV 1 be supplied. The provider operates on the Internet 11 connected portal 8th , on which a multiplicity of TV contents are deposited as files of a database. The files with the encrypted video signals 9 are files with lighting signals 10 for transmission to the control electronics 5 assigned. In doing so, both files are initially over the Internet 11 sent and get into the space 7 of the user. There they arrive in a gateway 12 which also controls other functions of home automation. From the gateway 12 become the lighting signals 10 via a separate data line 13 the set-top box 5 supplied while the encrypted video signals 9 directly over the data line 14 to the TV 1 reach.

With one on a smartphone 15 running application 16 For example, parameters characterizing the data stream of the illumination signals or the illumination signals themselves can be set individually. To do this, the smartphone communicates 15 via a wireless radio connection 17 with the gateway 12 ,

Claims (7)

Method for generating light effects in the vicinity of a screen (2) of a television set (1) on which video sequences generated using coded video signals (9) are displayed, the screen (2) being associated with a plurality of illumination sources (3) , which is controlled by means of an electronic control system and the regionally variable color effects in the environment (6) of the screen (2), in particular behind and / or next to the screen, generated, the color effects are color adapted to the currently displayed video sequence such that regions of the Environmentally correlate (6) with sections of the current video image color and wherein the color effects with the video sequences are synchronized in time, characterized in that the illumination device of lighting signals (10) is controlled, determined by a connected to the Internet portal and in a separate data stream over e Ine separate data line (13) parallel to the encrypted video signals (9) are transmitted to the control electronics. Method according to Claim 1 , characterized in that the illumination signals (10) are fed with temporal forward to the video signals (9) in the data line network. Method according to one of the preceding claims, characterized in that the video signals (3) and the illumination signals are provided with time stamps which are used by the user for synchronization with the illumination signals. Method according to one of the preceding claims, characterized in that the illumination signals (10) are parameterized individually by the user, wherein the parameterization is done in particular on the basis of taking pictures of the video sequences with a smartphone camera and an image processing application on the smartphone. System for carrying out the method according to one of the preceding claims comprising a television (1) with screen (2) and an illumination system associated with the screen (2) with a plurality of individual light sources (3), in particular LEDs, for generating colored light, wherein the illumination system an electronic control unit (5) is associated, characterized by a portal (8) which provides video signals (9) for transmission to the television (1) and illumination signals (10) for transmission to the control electronics (5), wherein means for transmission the illumination signals (10) are present in a data stream, which takes place separately via a separate data line parallel to the coded video signals to the control electronics. System after Claim 5 , characterized by an application (16) running on a smartphone (15) for setting parameters which characterize the data stream of the illumination signals (10). System after Claim 5 or 6 , characterized in that the lighting system and the corresponding control device (5), in particular a Setop box, of the television (1) are independent, wherein the lighting system in particular a plurality of color-emitting LEDs (3).

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