FR2979028A1 - Method for processing content obtained by e.g. digital camera, involves obtaining degree of inclination of shooting unit, and processing content according to degree of inclination for directing content for reproduction on screen - Google Patents

Abstract

The method involves obtaining degree of inclination of a shooting unit (CAM) e.g. digital camera, during shooting, and processing the content according to the degree of inclination for directing the content for reproduction on a screen. A slope of the content at the time of shooting of the content is determined in a clockwise manner and in an anti-clockwise manner. A processing unit i.e. graphics processing unit, is utilized for processing the content. Independent claims are also included for the following: (1) a module (2) a computer system (3) a computer program comprising instructions for performing a method for processing content (4) a signal.

Description

Method of rendering a digital content on a screen The invention relates to the rendering of a set of digital images on a screen of a terminal, the set of images having been obtained beforehand by means of shooting.

The invention is particularly applicable to a method for managing the orientation of a set of images in order to restore the set of images on a screen of a terminal, said second terminal, set of images having been previously photographed or filmed by another terminal, said first terminal. The term content will denote this set of images in the following description. The first terminal in question is generally a terminal capable of taking a picture of an observation zone, for example a photographic camera, and of transmitting the content obtained with a view to rendering the content on a screen. other terminal, said second terminal.

The second terminal is, in turn, a terminal capable of receiving digital content and to return this content on a screen. The means of shooting referred to above include both a digital camera or a video camera capable of creating a video composed of moving pictures. More and more terminals having access to a network are equipped with shooting means. Such a terminal is typically a radio telephone equipped with a digital camera or a video camera. These terminals offer the possibility both of shooting to obtain digital content and to transmit the digital content in question to another terminal equipped with a screen capable of rendering the content.

During the shooting, a user has the possibility to incline the shooting means for example to take a landscape view or portrait format. Thus, when the landscape format is preferred, the user may need to tilt his terminal approximately 90 degrees before taking a view of the viewing area and thereby obtain digital content. Then, the digital content obtained can be transmitted from the first terminal to the second terminal. On reception, the second terminal restores the content on the screen with an orientation identical to the orientation of the shooting means during capture.

The problem is that the inclination of the terminal during a photograph imposes on the user of the receiving terminal a manipulation, in this case a rotation, of the terminal so that the content is correctly oriented during the restitution on the second terminal. The invention improves the situation.

For this purpose, according to a functional aspect, the invention relates to a method of processing a content obtained by means of shooting, characterized in that it comprises the following steps - Obtaining a degree of inclination of the shooting means during the shooting; - Treatment of the content obtained according to the degree of inclination to orient the content for rendering on a screen. The restitution of the content on a terminal is therefore preceded by a treatment of the orientation of the content taking into account the angle of inclination of the shooting means during shooting. The knowledge of this angle makes it possible to correctly orient the content to be reproduced, in order to reduce or even, with reference to an embodiment of the invention referred to above, to avoid manipulation of the receiving terminal which restores the content when viewing the content.

We will see in the following that the place of the treatment is whatever to know on the terminal at the origin of the shooting, or on the terminal which restores the content or on any other terminal able to process a content. Also, the terminal can also be chosen wisely from a set of terminals. For example, if a terminal includes a graphics processor, it will be used for processing. According to one embodiment of the invention, if the inclination during the shooting is performed in the clockwise direction, the processing step comprises a step of inclining the content of the same angle in the counterclockwise direction.

This feature avoids manipulation of the receiving terminal that restores the content. It should also be noted that, when the shooting is carried out in a clockwise direction, the processing step may comprise, as the case may be, a step of inclining the contents of an angle different from the angle used. when shooting, and in any direction, clockwise or counterclockwise. According to a material aspect, the invention also relates to a module that can be inserted into a terminal equipped with shooting means for obtaining a digital content, comprising means for obtaining a degree of inclination of the means. shooting when shooting; means for processing the digital content according to the degree of inclination in order to orient the content with a view to rendering on a screen. According to another material aspect, the invention relates to a computer system including - a first terminal comprising means for shooting to obtain a digital content; a second terminal comprising means for reproducing the content, and a module comprising means for obtaining a degree of inclination of the shooting means during the shooting; means for processing the digital content according to the degree of inclination in order to orient the content with a view to restitution on the rendering means. According to another material aspect, the invention relates to a computer program capable of being implemented on a module as defined above, said program comprising code instructions which, when the program is executed by a processor performs the steps of the method defined above. According to another material aspect, the invention also relates to a signal representative of a digital content obtained by means of shooting, characterized in that it comprises at least one degree of inclination representative of the inclination of the means. shooting when taking content. The invention will be better understood on reading the description which follows, given by way of example and with reference to the accompanying drawings. The figures: FIG. 1 represents a computer system on which is illustrated an embodiment of the invention. Figures 2 and 3 show schematically the circuits forming the terminals involved in the method of the invention. Fig. 4 is an algorithm illustrating the sequence of steps of the chosen embodiment.

Figures 5a to 5c illustrate several cases in which the first terminal is inclined at three inclination angles, respectively. DETAILED DESCRIPTION OF AN EMBODIMENT EXCHANGING THE INVENTION FIG. 1 represents a SYS system comprising a first terminal TRM1 comprising CAM shooting means able to take shots of an observation zone; In our example, this first terminal is able to communicate with a second terminal TRM2 through a communication means such as a telecommunication network RES. The second terminal TRM2 including playback means such as a screen on which can be rendered a digital content, for example a digital photograph. The invention is not limited to this embodiment. Indeed, the restitution means and the shooting means may be located on the same terminal for example a camera, or a telephone.

Figures 2 and 3 are schematic views of the circuits included in the first terminal TRM1 and the second terminal TRM2, respectively. In our example, the two terminals TRM1 and TRM2 belong to a first user UT1 and a second user UT2, respectively. The terminals are equipped with a first microprocessor CPU1 and a second microprocessor CPU2, respectively. The first terminal TRM1 further comprises: first communication means COM1, making it possible to communicate with the network RES; the CAM shooting means described above, including CPT capture means capable of capturing a signal coming from an observation zone ZO to be captured and first processing means TRT1 capable of processing the captured signal in order to capture obtain IMG digital content; - EMT transmission means capable of requesting a data transmission; a second memory MEM2 capable of storing data and programs such as a program having an INC inclinometer function and an APP shooting application whose function is the management of the CAM shooting means.

The means described above as well as the second CPU2 microprocessor are interconnected via a second bus BUS2. The second terminal TRM2 further comprises: second communication means COM2 making it possible to communicate with the network RES; - Restitution means such as an ECR screen; A second memory MEM2 capable of storing data; Second processing means TRT2 capable of processing data before rendering them on a screen. In our example, these processing means correspond to a graphics processor or GPU (Graphics Processing Unit) known to those skilled in the art. Recall that this processor is an integrated circuit present on a graphics card and providing the calculation functions of the display.

The means described above as well as the first microprocessor CPU1 are connected to each other via a first bus BUS1. Note that the buses described above have the function of ensuring the transfer of digital data between the different circuits. connected to the microprocessor by a bus. In our example, the bus in question includes a data bus and a control bus.

Note also that, in our example, the memories described above are permanent memories type ROM (acronym for Read Only Memory). The terminals also include a respective RAM for unsustainably storing calculation data used in the implementation of a method according to embodiments. These memories are not shown in the drawings because they are useless for the disclosure of the invention. According to the invention, when shooting, the first terminal obtains a degree of inclination of the CAM shooting means during the shooting, that is to say during the capture of the signals coming from the area ZO observation. Thus, in our example, the second terminal TRM2 is able to restore an IMG digital content resulting from the shooting as a function of the angle of inclination of the shooting means during the shooting. For this purpose, the IMG image undergoes a treatment that takes into account the degree of inclination.

In our example, the processing of the IMG content is carried out with a view to rendering on the screen of the second terminal. Recall here that the place of treatment is any. In other words, the processing of the orientation can be carried out either on the transmitting terminal, or on the receiving terminal on which the restitution is provided or any other terminal (not shown) connected to the network RES. For example, the location of the processing may be chosen to reduce the load on the microprocessors. In our exemplary embodiment, the second terminal is equipped with a graphics processor. The processing orientation is therefore advantageously performed in this second terminal so as not to overload the first processor CPU1 by such processing. Note that the shooting and the restitution can also take place on the same terminal.

An embodiment will now be described with reference to Figures 4 and 5a. Fig. 4 is an algorithm illustrating steps ET1-ET10 of this embodiment. During a first step ET1 (EXE APP), the first user UT1 executes the application APP dedicated to shooting. The first user UT1 can then use his terminal to take one or more views of an observation zone ZO. In a second step ET2 (INC), the first user UT1 counterclockwise inclines the first terminal TRM1 to take a landscape view of a viewing area ZO including a third user UT3. In our example, the inclination of the first terminal is about 90 degrees with respect to a vertical reference axis so. In this configuration, the capture means captures the viewing area in landscape mode. This configuration is shown in Figure 5a.

In a third step ET3 (CPT), the first user UT1 controls the capture of the observation zone ZO via the CAM shooting means of the first terminal TRM1. In a fourth step ET4 (IMG), IMG content is obtained. At this stage of the process, following the shooting, the degree of inclination of the terminal, relative to the vertical reference axis in our example, is stored in the first memory MEM1. In a fifth step ET5 (CDG5 (IMG)), the first processor CPU1 controls the coding of the digital content.

Once the content coded, the first processor CPU1 controls, in a sixth step ET6 (S), the transmission of both the coded content and the degree of inclination associated with the content. This transmission can be achieved by means of a single message including the coded content and the degree of inclination or two separate messages respectively comprising the coded content and the degree of inclination. Also, the degree of inclination could have been coded with the content. In our example, the message is a signal S including the coded picture and the angle of inclination Ic.

In a seventh step ET7 (RCP), the second communication means COM2 receive the coded content as well as the degree of inclination Ic. On reception, during an eighth step ET8 (DCD), the coded content is decoded in the second terminal. The second microprocessor CPU2 is responsible for sending the commands relating to the decoding. Then, during a ninth step ET9 (TRT2), the second processor CPU2 requires a content processing from the second processing means TRT2 which are in our example GPU graphics processor. In a tenth step ET10 (RST), the graphics processor TRT2 orients the content to be displayed according to the degree of inclination of the receipt. FIGS. 5a, 5b and 5c are examples of processing performed by the graphics processor for three degrees of inclination given namely 0 °, 90 ° and 45 ° respectively. In the example above, the inclination is 90 °. In this configuration, the graphics processor TRT2 applies to the IMG content, during the ninth step ET9, a rotation of 90 ° in the clockwise direction. This results in the display of the third user UT3 on the screen of the second terminal TRM2, without the need to tilt the second terminal.

Two other cases are illustrated in FIGS. 5b to 5c. In FIG. 5b, the first terminal TRM1 is not inclined. In this configuration, the second processing means TRT2 do not change the orientation. This avoids unnecessary consumption of the processor in charge of the display namely the graphics processor in our example embodiment. In FIG. 5c, the first terminal TRM1 is inclined at an angle of 45 degrees in the counterclockwise direction. In this configuration, the second processing means TRT2 modifies the orientation by tilting the content 90 degrees clockwise.

Note that in Figures 5a to 5c, are represented, respectively, the first terminal TRM1 during shooting and the second terminal TRM2 which restores the content from the shooting. The representation of the second terminal also includes in dotted line the image as it appears on the screen of the first terminal so as to show the angle of rotation between the image during the shooting and the image restored on the screen. screen of the second terminal, namely, 90 degree, 0 (zero) degree, and 45 degree. According to another embodiment, the signal may comprise several images and respective angles of inclination. The images can be either photographs or video.

Note that the means for obtaining an inclination is done through an inclinometer (or clinometer). Recall that an inclinometer is a sensor used to measure angles with respect to the horizontal (or horizontal) line. The type of inclinometer used for the implementation of the invention is naturally arbitrary.

Also, the reference axis used for the measurement of the angle is arbitrary. This axis can be either vertical, horizontal, etc.

Claims (6)

REVENDICATIONS1. A method of processing a content (IMG) obtained by shooting means, characterized in that it comprises the following steps a. Obtaining (ET4) a degree of inclination (Ic) of the shooting means (CAM) during shooting; b. Treatment (ET9) of the content obtained according to the degree of inclination to orient the content for a rendition on a screen (ECR). 2. Treatment method according to claim 1, characterized in that if the inclination during the shooting is performed in the clockwise direction, the processing step comprises a step of inclining the content of the same angle in counter clockwise. 3. Module (TRT2) adapted to be inserted into a terminal equipped with shooting means for obtaining digital content, comprising - means for obtaining a degree of inclination (INC) of the shooting means during shooting; - Processing means (TRT2) of the digital content according to the degree of inclination to orient the content for playback on a screen. Computer system (SYS) including - a first terminal (TRM1) including camera means (CAM) for obtaining digital content; a second terminal (TRM2) comprising means for rendering (ECR) the content; 11 and a module comprising means for obtaining a degree of inclination (INC) of the shooting means during the shooting; processing means (TRT2) of the digital content as a function of the degree of inclination in order to orient the contents in view of a restitution on the reproduction means. 5. Computer program adapted to be implemented on a module as defined in claim 3, said program comprising code instructions which, when the program is executed by a processor performs the steps of the method defined in claim 1 10 6. Representative signal (S) of a digital content (IMG) obtained by means of shooting (CAM), characterized in that it comprises at least one degree of inclination (Ic) representative of the inclination of the means shooting when taking content.