DE102008060110A1 - Projection apparatus for projecting video signal to projection surface, has projection unit for generating broadcasting light signal based on video input signal - Google Patents

Abstract

The projection apparatus (100) has a projection unit (PE) for generating a broadcasting light signal based on a video input signal (IN). A sensor unit (SE) is provided for detecting the location information regarding a person (200) between the projection apparatus and a projection surface (300). A correction unit (K) is provided for calculating a correction signal based on the location information collected by the sensor unit. An independent claim is also included for a method for projecting a video signal to a projection surface.

Description

The The present invention relates to a projection apparatus and a Method for projecting a video signal.

Projection devices, such as beamer, are well known. It will the projection device, a video signal supplied by the projection device for example, projected on a wall.

It It is an object of the present invention to provide an improved projection apparatus provided.

These Task is achieved by a projection device according to claim 1 and a method for projecting a video signal according to claim 5 solved.

Consequently becomes a projection device for projecting a video signal on a projection screen intended. The projection device has a projection unit for generating the light signal to be emitted based on a Video input signal, a sensor unit for acquiring location information in terms of a person, which is between the projection device and the projection surface and a correction unit for calculating a correction signal based on the location information acquired by the sensor unit on. The projection unit is configured to calculate the calculated To correct the correction signal from the video input signal and to output the corrected video signal.

According to one Aspect of the present invention is the correction unit to it designed, information re of the video input signal in the calculation of the correction signal to take into account.

According to one Another aspect of the present invention is the sensor unit designed to capture a shadow of the person on the screen and to convert into location information of which the correction unit for calculating the correction signal.

The Invention relates to the idea of providing a projection device, which a dazzling effect of a speaker through a projection cone the projection device avoids. This can be, for example done when a lecturer is between the projection device and the projection screen For example, to explain details on the screen or the projection screen. In In such a case, it may happen that the speaker to the audience and blinded by the projection cone. In other words, the presenter must go directly into the cone of light the projection device look. This may be a dazzling of the presenter or a fault of the presenter. Thus, a projection device be provided, which is both a projection unit and has a sensor for acquiring location information. These Location information may be up For example, relate to the face or eyes of the lecturer. Based on the location information captured by the sensor, d. H. the outline of the face of the speaker or the contours of the face, a calculation of a correction signal can take place. Such a correction signal may be from an original projection signal calculated out or the original signal can by the correction signal be compensated so that at the site of the head or eyes the lecturer does not project any light onto the projection surface behind it becomes. Since the speaker anyway between the light source of Projection device and the projection screen is located anyway behind the head of the presenter projection surface not lit.

alternative For this purpose, a sensor can detect a shadow on the projection surface and subsequently This captured image can be calculated out of the projection signal or be compensated.

Further Embodiments of the invention are the subject of the dependent claims.

advantages and embodiments The invention will be described below with reference to the drawing explained in more detail.

1 shows a schematic representation of a projection device according to a first embodiment, and

2 shows a schematic representation of a projection device according to a second embodiment.

1 shows a schematic representation of a projection device according to a first embodiment. The projection device 100 has a projection unit PE and a sensor unit SE. The projection device 100 has a first exit 110 and a second exit 120 on. The first exit 110 serves to emit the light signal generated by the projection unit PE, so that the light 500 on a person 200 in the room and on a projection screen 300 can meet. By means of the second output 120 the sensor unit can provide location information 400 concerning the person 200 to capture.

The projection unit PE receives an input signal IN, which can represent a video signal, and converts this video signal to transmit it by means of the emitted light 500 on a projection screen 300 can be represented. The sensor unit SE is connected to a correction unit K and provides the location information relating to a person 200 in a room or between the projection device 100 and the projection screen 300 , This location information may contain information regarding the person's head 200 or regarding the eyes of the person 200 exhibit. Based on this information, the correction unit K calculates a correction signal and outputs this correction signal to the projection unit PE. The projection unit PE subtracts or compensates the correction signal from the input signal and outputs the result. Thus it can be achieved that the area of the face or the eyes of the person 200 is not illuminated by the projection unit, or in this area no light is projected.

2 shows a schematic representation of a projection device according to a second embodiment. Here, the projection device corresponds 100 according to the second embodiment substantially the projection device 100 according to the first embodiment. While in the first embodiment, a sensor unit SE is provided, the projection device 100 a camera unit KE for acquiring location information relating, for example, to the face or eyes of the person 200 Respectively. This location information is forwarded to the correction unit K, which forms a corresponding correction signal and forwards it to the projection unit PE.

By the means of the sensor unit SE or by means of the camera unit KE recorded location information relative to the face or the eyes of a lecturer between the projection device 100 and a projection screen 300 For example, a correction signal may be determined to prevent light from being projected onto the lecturer's face or eyes. Such a correction signal can be calculated out or compensated from the original projection signal, so that the face or eyes of the presenter are not illuminated.

According to one another embodiment of the Invention, the camera unit KE can be configured to a Shadow of the person, especially the face or the head of the person Person, on the projection screen capture. The detection of the shadow on the projection screen the camera unit can be used in the correction unit K for this purpose be used to calculate a correction signal or compensation signal, which in the projection unit PE from the original projection signal IN can be subtracted.

For example, if a power point presentation using the projection device 100 on the projection screen 300 is projected, then the contents of such a presentation are usually static. Thus, the characteristics of the input video signal IN can be taken into account in the calculation of the correction signal in the correction unit K in order to optimize the calculation.

The Sensor unit SE or the camera unit KE can be a thermal imaging camera, a camera with object recognition or an imaging, infrared-sensitive Semiconductor represent.

The The invention further relates to a projection device with a An element for emitting a lighted image signal and a Sensor device which is capable of location information to capture, preferably a moving location information, namely the Information, where a lecturer, the projection device for one Lecture begins, and where the detected by the sensor Location information is collected and processed, and thus, that the projector does not throw light on the place given by the location information is.

Even though in the above embodiments both the camera unit KE and the sensor unit SE in the casing the projection device has been described, both the Sensor unit SE and the camera unit KE arranged externally to the housing be, wherein the output signal of the camera unit KE or the output signal the sensor unit SE of the projection device is supplied accordingly.

This can be advantageous in particular when the sensor unit SE or the camera unit KE is provided at a different position than the projection device. Thus, for example, it may be possible for the person not to be located between the camera unit KE or the sensor unit SE and the projection surface 300 stands. Thus, the sensor unit or the camera unit can better detect a shadow of the person on the projection surface.

The from the case the projection device separately arranged camera unit KE or However, the sensor unit SE can also be used to to determine the position of a speaker and this location information to the correction unit K forward, so that they have a corresponding Correction signal can calculate.

The sensor unit can optionally be used as a camera, Video camera, digital camera, thermal imaging camera or be designed as a sensor for measuring distances.

Claims (5)

Projection device ( 100 ) for projecting a video signal onto a projection surface ( 300 ), comprising a projection unit (PE) for generating the light signal to be emitted based on a video input signal (IN), a sensor unit (SE) for acquiring location information relating to a person ( 200 ) extending between the projection device ( 100 ) and the projection surface ( 300 ), and a correction unit (K) for calculating a correction signal based on the location information acquired by the sensor unit (SE), wherein the projection unit (PE) is adapted to calculate the calculated correction signal from a video input signal (IN) and output the corrected video signal , A projection apparatus according to claim 1, wherein said Correction unit (K) is designed to provide information regarding the Video input signal (IN) when calculating the correction signal to take into account. Projection device according to claim 1 or 2, wherein the sensor unit (SE) is adapted to a shadow of the person ( 200 ) on the projection surface ( 300 ) and to convert it into location information which is supplied to the correction unit (K). Projection device according to one of claims 1 to 3, wherein the sensor unit (SE, KE) as a video camera, digital camera, Thermal imager or is designed as a sensor for measuring distances. Method for projecting a video signal onto a projection surface ( 300 ); Generating the light signal to be emitted based on a video input signal (IN), acquiring location information relating to a person ( 200 ) extending between the projection device ( 100 ) and the projection surface ( 300 ), and calculating a correction signal based on the detected location information, wherein the calculated correction signal is extracted from the video input signal (IN) and the corrected signal is output.