Abstract: An apparatus and method for tracking a head of a subject in a series of images includes receiving a series of images of at least a portion of a subject's head; tracking a position of the subject's head in the series of images based on positions of a first plurality of primary features of the subject's head; determining a first confidence level of the position of the subject's head based on the positions of the first plurality of primary features; monitoring a position of a secondary feature; and upon determining that the first confidence level is below a defined threshold, tracking the position of the subject's head based on the position of the secondary feature rather than the positions of the primary features.

Abstract: The present invention relates to a device and method for skin gloss detection. To enable skin gloss detection in a simple and efficient manner, preferably with an available user device, the device comprises an illumination unit (2) for illuminating a skin area at a flashing rate, an imaging unit (3) for acquiring images of the skin area at an imaging rate which is different than said flashing rate, and a processing unit (4) for processing acquired images and detecting the amount of gloss in the skin area from at least one partial image of the skin area while being illuminated by said illumination unit and at least one partial image of the skin area while not being illuminated by said illumination unit.

Abstract: A skin treatment system including a treatment device to treat a treatment region of a body. The skin treatment system includes a camera to capture at least one image of skin, the image having an imaging region, and to provide captured image data representing the captured image. The imaging region has a predefined spatial relationship with the treatment region. The skin treatment system further includes a storage facility for storing reference image data indicative of a reference image of the skin. The skin treatment system further includes an orientation estimation facility to determine which part of the reference image corresponds to the at least one captured image, using the captured image data and the reference image data, and to derive from a predetermined orientation of said corresponding part with respect to the reference image, an orientation indication indicative of an orientation of the treatment device with respect to the body.

Abstract: An adaptive lighting system (100), a (virtual) mirror arrangement, a method of controlling light sources of an adaptive light sources, a method of controlling a virtual mirror and a computer program product are provided. The adaptive lighting system is for a mirror component that is configured to show a mirror image of the user at the mirror surface of the mirror component. The adaptive lighting system comprises a plurality of individually controllable light sources (111 . . . 119), a sensor (102), and a controller (104). The sensor detects a relative orientation of the head of the user with respect to the mirror surface. The controller generates control signals (121 . . . 129) for the individually controllable light sources on the basis of the sensor signal. The controller generates the control signals to obtain a lower emission of light towards eyes of the user if the sensor signal indicates that the head is turned left sidewards, upwards, right sidewards and/or downwards.

Abstract: A device, system and a method for determining a relational position of a mobile device includes equipping the mobile device with a light source to project a light image on a subject during use, while a camera equipped device is observing the subject. The camera is used to identify both landmarks on the subject's face and the light image allowing the position of the mobile device relative to the user to be calculated. The system may use the computing power in the camera equipped device for image analysis, and no advanced processing needs to be performed by the mobile device. Further, no communication between the mobile device and the camera equipped device is required to establish the relative position of the mobile or personal care device.

Abstract: According to an aspect, there is provided a method for tracking a head of a subject in a series of images. The method comprises receiving a series of images of at least a portion of a subject's head; tracking a position of the subject's head in the series of images based on positions of a first plurality of primary features of the subject's head; determining a first confidence level of the position of the subject's head based on the positions of the first plurality of primary features; monitoring a position of a secondary feature; and upon determining that the first confidence level is below a defined threshold, tracking the position of the subject's head based on the position of the secondary feature rather than the positions of the primary features. According to other aspects, a processing unit, an apparatus and a machine readable medium are provided.

Abstract: An adaptive lighting system (100), a (virtual) mirror arrangement, a method of controlling light sources of an adaptive light sources, a method of controlling a virtual mirror and a computer program product are provided. The adaptive lighting system is for a mirror component that is configured to show a mirror image of the user at the mirror surface of the mirror component. The adaptive lighting system comprises a plurality of individually controllable light sources (111 . . . 119), a sensor (102), and a controller (104). The sensor detects a relative orientation of the head of the user with respect to the mirror surface. The controller generates control signals (121 . . . 129) for the individually controllable light sources on the basis of the sensor signal. The controller generates the control signals to obtain a lower emission of light towards eyes of the user if the sensor signal indicates that the head is turned left sidewards, upwards, right sidewards and/or downwards.

Abstract: A skin treatment system (1) is provided comprising a treatment device (10) to treat a treatment region (TR) of a mammal body (B) by physically acting upon the body in said treatment region. The skin treatment system further comprises a camera (20) to capture at least one image of skin of the mammal body, said image having an imaging region (IR), and to provide captured image data (Id) representative of the at least one captured image. The imaging region (IR) has a predefined spatial relationship with the treatment region. The skin treatment system (1) further comprises a storage facility (30) for storing reference image data (Ir) indicative of a reference image of the skin of the mammal body (B).

Abstract: The present disclosure pertains to a light sensing system configured to determine an amount of ambient light exposure experienced by a subject. The present invention wirelessly exchanges light information between different wearable devices of the same user and/or between devices of different users. Local and/or central light profile databases are built-up by the system and are shared between the devices so that light data that is typical for a location at a specific time of day and year can be used to estimate current ambient light levels for situations in which no measurement can be taken.

Abstract: The invention relates to a device (1) and a method for determining a relational position of a mobile device (14, 14?). An embodiment provides for equipping the mobile device (14, 14?) with a light source (15) to project a light image on the subject (18) during use, while a camera equipped device (12) is observing the subject (18). The camera (13) is used to identify both landmarks (19) on the subject's face and the light image (17) allowing the position of the device (14, 14?) relative to the user (18) to be calculated. This system may use the computing power in the camera equipped device (12) for image analysis, and no advanced processing needs to be performed by the mobile device (14, 14?). Further, no communication between the mobile device (14, 14?) and the camera equipped device (12) is required to establish the relative position of the personal care device.

Abstract: The present invention relates to a light sensing system for sensing ambient light intensity, comprising a light sensing device with at least one light sensor and a calibration device for calibrating the sensor. The calibration device comprises at least one light source that emits light with a standard intensity. The invention is further related to a corresponding method for calibrating a light sensing device, comprising the illumination of the light sensor of the light sensing device with light that has a standard intensity, the comparison of the output intensity signal of the sensor with an expected signal that corresponds to the standard intensity, and the matching of the output intensity signal of the sensor to the expected signal by adjusting a gain parameter of the sensor.

Abstract: The present disclosure pertains to a light sensing system configured to determine an amount of ambient light exposure experienced by a subject. The present invention wirelessly exchanges light information between different wearable devices of the same user and/or between devices of different users. Local and/or central light profile databases are built-up by the system and are shared between the devices so that light data that is typical for a location at a specific time of day and year can be used to estimate current ambient light levels for situations in which no measurement can be taken.

Abstract: The present invention relates to a light sensing system for sensing ambient light intensity, comprising a light sensing device with at least one light sensor and a calibration device for calibrating the sensor. The calibration device comprises at least one light source that emits light with a standard intensity. The invention is further related to a corresponding method for calibrating a light sensing device, comprising the illumination of the light sensor of the light sensing device with light that has a standard intensity, the comparison of the output intensity signal of the sensor with an expected signal that corresponds to the standard intensity, and the matching of the output intensity signal of the sensor to the expected signal by adjusting a gain parameter of the sensor.

Abstract: A cushion arrangement for a patient interface (for communicating with the nose or the nose and mouth of a patient) comprises a cushion and a shaping structure in contact with the cushion. The shaping the comprises a thermo-shrink material, and the local dimension of themo-shrink material determines a level of local compression or expansion of the cushion. The shaping structure enables the cushion to be customised for the end user.

Abstract: A device and method for rendering content that includes analyzing previous and/or subsequent temporal portions of a content signal to determine elements that are positionally related to elements of a current portion of the content signal. The current portion of the content signal is rendered on a primary rendering device, such as a television, while the elements that are positionally related to elements of a current portion of the content signal are concurrently rendered on a secondary rendering device. In one embodiment, the elements that are rendered on the secondary rendering device may be rendered at a lower resolution and/or lower frame rate than the rendered current portion of the content signal. In one embodiment, at least one of previous and subsequent temporal portions of a content signal may be analyzed at a lower resolution than the content signal.

Abstract: An apparatus for enhancing at least a region of an input picture having input pixel values enabling a reduction of quantization banding artifacts including an estimation unit arranged to estimate a quantization precision of at least the region of the input picture, a pattern analysis unit arranged to determine positions in the input picture of changes in input pixel value of less than or equal to the quantization precision, and to output analysis information representing the positions, and an adaptive filter, arranged to calculate an output picture corresponding to at least the region of the input picture, comprising output pixels being determined on the basis of adaptive combinations of input pixels, and arranged to determine the adaptive combinations in dependence on the analysis information.

Abstract: A display apparatus for presenting an image comprises an image receiver (101) for receiving an image to be displayed. An image analyzer (103) performs a local image profile analysis on at least a first region of the image to determine a pixel value spatial variation characteristic. The image analyzer (103) is coupled to a scaling processor (105) which scales at least a second region of the image in response to the pixel value spatial variation characteristic. The scaling processor (105) is coupled to a presentation controller (107) which presents the scaled image. The scaling may specifically be adjusted dependent on a sharpness or spatial frequency characteristics of the image. The invention may allow an improved adaptation of the presentation of one or more images to the specific characteristics of the image(s).

Abstract: This invention relates to a method, a computer program, a computer program product and a device for reducing motion blur of images shown on non-stroboscopic display devices, in which local areas p, of an image of a video signal are displayed during respective local display times t; that are less than or equal to a image period T, comprising determining (40) an amount X; of high spatial frequency content related to a local area p, of said image of said video signal, and adjusting (41) a local display time t, in dependence on said determined amount X; of high spatial frequency content, wherein said local display time t; is decreased with increasing determined amount X; of high spatial frequency content.

Abstract: A device (500) and method for rendering content that includes analyzing previous and/or subsequent temporal portions of a content signal to determine elements that are positionally related to elements of a current portion of the content signal. The current portion of the content signal is rendered on a primary rendering device (530), such as a television, while the elements that are positionally related to elements of a current portion of the content signal are concurrently rendered on a secondary rendering device (540). In one embodiment, the elements that are rendered on the secondary rendering device (540) may be rendered at a lower resolution and/or lower frame rate than the rendered current portion of the content signal. In one embodiment, at least one of previous and subsequent temporal portions of a content signal may be analyzed at a lower resolution than the content signal.

Abstract: This invention relates to a method, a computer program, a computer program product, and a device for reducing motion blur of images of a video signal shown on a hold-type display (101), comprising estimating (1102) motion vectors of moving components in said images of said video signal; band-pass filtering (1100, 1101) said video signal with respect to a spatial frequency domain, wherein said band-pass filtering at least partially depends on said estimated motion vectors, and wherein with increasing length of said estimated motion vectors, the passband of said band-pass filtering adaptively shifts from high spatial frequencies to medium spatial frequencies; and combining (1104) said video signal and said band-pass filtered video signal to produce an input video signal for said hold-type display.