Abstract: A system for detecting halitosis is disclosed that comprises a gas sensor (116) for generating a sensor signal signalling the detection of compounds indicative of halitosis exhaled through an oral cavity; an image sensor (114) for capturing an image (500, 510) of a dental condition and/or tongue condition in said oral cavity; and a processor (110) communicatively coupled to the gas sensor and the image sensor and adapted to process the sensor signal and the image in order to determine if in case of the sensor signal signalling the presence of a compound indicative of halitosis, said halitosis originates from said oral cavity by determining the dental condition and/or tongue condition in said image. A method for detecting halitosis and a computer program product implementing the method are also disclosed.

Abstract: A magnetic resonance imaging protocol includes an acquisition segment to control an acquisition sequence to acquire magnetic resonance signals at a lower main magnetic field strength. A reconstruction segment controls reconstruction of a diagnostic magnetic resonance image from the magnetic resonance signals at a lower main magnetic field strength. A segmentation segment controls segmentation of a predetermined image detail of the diagnostic magnetic resonance image. In the magnetic resonance imaging protocol, the acquisition sequence has a set of imaging parameters that cause the image quality of the diagnostic magnetic resonance to be similar to the image quality of the magnetic resonance training images, e.g., acquired at 7 T.

Abstract: Disclosed is a method for improving a lighting condition with a wearable computing device (100), the method comprising determining (302) an actual light condition with an optical sensor arrangement (114, 220); determining (303) the user activity with a further sensor arrangement (116, 230) for determining a user activity, said user activity being associated with a suitable lighting condition for performing said activity; comparing (304), on the wearable computing device, the actual light condition with the suitable light condition; and generating (306, 406) a signal with the wearable device if the actual light condition deviates from the suitable light condition. A computer program product including computer program code for implementing this method when executed on a wearable computing device (100), a wearable computing device (100) including the computer program product and a lighting system kit including a lighting system (200) and the wearable computing device (100) are also disclosed.

Abstract: A registration processor (74) is configured to obtain articulated brain substructures using acquired brain image data and template brain image data. The registration processor (74) annotates the brain image data; registers the brain image data with template image data using global brain registration; and registers at least one brain structure of the brain image data a corresponding brain structure of the template image data using a local brain substructure registration. The registration processor (74) articulates articulated substructures of the registered brain structures to improve registration using articulated substructure registration.

Abstract: A system for detecting halitosis is disclosed that comprises a gas sensor (116) for generating a sensor signal signalling the detection of compounds indicative of halitosis exhaled through an oral cavity; an image sensor (114) for capturing an image (500, 510) of a dental condition and/or tongue condition in said oral cavity; and a processor (110) communicatively coupled to the gas sensor and the image sensor and adapted to process the sensor signal and the image in order to determine if in case of the sensor signal signalling the presence of a compound indicative of halitosis, said halitosis originates from said oral cavity by determining the dental condition and/or tongue condition in said image. A method for detecting halitosis and a computer program product implementing the method are also disclosed.

Abstract: Disclosed is a head-mountable computing device comprising at least one display module; an interface adapted to receive signals and/or data acquired by one or more sensors and to receive data generated by one or more medical devices operated by a wearer of the head-mountable computing device; a processor adapted to identify the wearer's activity based on the received signals and/or data acquired by the one or more sensors and to control said at least one display module to display assistance information on said display module corresponding to the identified wearer's activity.

Abstract: Disclosed is an eye training system (10) including a head-mountable computing device (100) comprising at least one display module (106, 106?) arranged to be viewed by the wearer of the head-mountable computing device when wearing the device; and a display processor (108) coupled to the at least one display module for controlling the at least one display module and adapted to display an initial set of eye exercises on the at least one display module; a sensor arrangement (120) for monitoring eye responses of the wearer to the displayed initial set of eye exercises; and a data processor (110) adapted to receive eye response data from the sensor arrangement and to process the eye response data; wherein the display processor is further adapted to display a subsequent set of eye exercises on the at least one display module in response to a processing result of the processed eye response data. A computer program product is also disclosed.

Abstract: Disclosed is a method for improving a lighting condition with a wearable computing device (100), the method comprising determining (302) an actual light condition with an optical sensor arrangement (114, 220); determining (303) the user activity with a further sensor arrangement (116, 230) for determining a user activity, said user activity being associated with a suitable lighting condition for performing said activity; comparing (304), on the wearable computing device, the actual light condition with the suitable light condition; and generating (306, 406) a signal with the wearable device if the actual light condition deviates from the suitable light condition. A computer program product including computer program code for implementing this method when executed on a wearable computing device (100), a wearable computing device (100) including the computer program product and a lighting system kit including a lighting system (200) and the wearable computing device (100) are also disclosed.

Abstract: A magnetic resonance imaging protocol includes an acquisition segment to control an acquisition sequence to acquire magnetic resonance signals at a lower main magnetic field strength. A reconstruction segment controls reconstruction of a diagnostic magnetic resonance image from the magnetic resonance signals at a lower main magnetic field strength. A segmentation segment to control segmentation of a pre-determined image-detail of the diagnostic magnetic resonance image. In the magnetic resonance imaging protocol: the acquisition sequence has a set of imaging parameters that cause the image quality of the diagnostic magnetic resonance to be similar to the image quality of the magnetic resonance training images.

Abstract: A system for use in assisting a user in a social interaction with another person is provided, the system being configured to determine whether the user recognizes the person and, if it is determined that the user does not recognize the person, to provide information to the user about the person. A corresponding method and computer program product for performing the method are also provided.

Abstract: A system 100 for processing medical images, the system being arranged for obtaining a first medical image 102 and a second medical image 104, the first medical image and the second medical image being rigidly registered medical images of an anatomical structure, and the system comprising a displacement estimator 120 for establishing displacement vectors 122 for at least a first portion of the first medical image, the displacement vectors matching the first portion of the first medical image to a second portion of the second medical image, a deformation estimator 140 for, in dependence on the displacement vectors, establishing deformation values 142 for the first portion, the deformation values representing a deformation of the first portion with respect to the second portion, and a visualization generator 160 for generating visualization data 162 for, when being displayed on a display 180, establishing a multi-dimensional graph 182 comprising magnitudes of the displacement vectors as first variables 184 and t

Abstract: A registration processor (74) is configured to obtain articulated brain substructures using acquired brain image data and template brain image data. The registration processor (74) annotates the brain image data; registers the brain image data with template image data using global brain registration; and registers at least one brain structure of the brain image data a corresponding brain structure of the template image data using a local brain substructure registration. The registration processor (74) articulates articulated substructures of the registered brain structures to improve registration using articulated substructure registration.

Abstract: Disclosed is a system (100) for patient triage, comprising a plurality of cameras (110) for distribution across an area (10) such as a patient waiting room, scene of an accident or the like; a processor (120) for processing the respective image signals of said cameras and adapted to extract indicators for individual patients (20) in said area from said respective image signals, said indicators being indicative of the condition of said individual patients; and a prioritizing unit (130) adapted to prioritize the individual patients based on the indicators. Also disclosed are a patient triage method and a computer program product.

Abstract: An apparatus for processing of medical images comprises a (101) receiver for receiving a an image representing characteristics of a part of a human or animal body. The image may for example be a magnetic resonance or computer tomography image. A signature unit (103) determines an image associated set of signatures from the first image. A sample store (109) comprises a data base in the form of a set of samples where each sample comprises a sample associated set of signatures and medical data. A matching unit (105) determines a set of matching samples from the set of samples in response to a comparison of the image associated set of signatures to the sample associated sets of signatures of the set of samples. A decision unit (111) then determines medical data for the image in response to the medical data comprised in the samples of the set of matching samples.

Abstract: A system for use in assisting a user in a social interaction with another person is provided, the system being configured to determine whether the user recognizes the person and, if it is determined that the user does not recognize the person, to provide information to the user about the person. A corresponding method and computer program product for performing the method are also provided.

Abstract: Temporal data is analyzed and visualized with medical images. Visualizing temporal data includes providing a set of temporal data, detecting the number of distinct regions (40, 41) in the temporal data, based on the temporal behavior of the data, identifying and assigning a color scheme to each region and visualizing each region in accordance with the assigned color scheme. In embodiments, the number of distinct regions is detected based on the use of a clustering algorithm.

Abstract: A system 100 for processing medical images, the system being arranged for obtaining a first medical image 102 and a second medical image 104, the first medical image and the second medical image being rigidly registered medical images of an anatomical structure, and the system comprising a displacement estimator 120 for establishing displacement vectors 122 for at least a first portion of the first medical image, the displacement vectors matching the first portion of the first medical image to a second portion of the second medical image, a deformation estimator 140 for, in dependence on the displacement vectors, establishing deformation values 142 for the first portion, the deformation values representing a deformation of the first portion with respect to the second portion, and a visualization generator 160 for generating visualization data 162 for, when being displayed on a display 180, establishing a multi-dimensional graph 182 comprising magnitudes of the displacement vectors as first variables 184 and t

Abstract: A system and method for providing information to television viewers in order to assist them in shopping from an apparently conventional media, such as a television program, as well as making better and more educated shopping decisions are provided. The user selects the product of interest, and if desired, indicates the price, quantity and time frame within which he/she wants to buy the product. The system then acts as an agent on the user's behalf to get the best product under best price and shortest time frame as may be desired. When a user sees a product he wants while watching television, he simply can press a point on the screen, talk, or press a button on a remote control or similar keypad and the system shows the current price and availability. If the user wants the product, he can buy it instantly. If the user determines it to be too expensive, he can add the product to his wish-list with a price he would be willing to pay.

Abstract: The invention relates to analysis and visualization of temporal data and, in embodiments, to the area of visualization of temporal data associated with medical images. A method of visualizing temporal data is disclosed. The method comprises providing a set of temporal data, detecting the number of distinct regions (40, 41) in the temporal data, based on the temporal behavior of the data, identifying and assigning a color scheme to each region and visualizing each region in accordance with the assigned color scheme. In embodiments, the number of distinct regions is detected based on the use of a clustering algorithm.

Abstract: The present invention relates to an image processing system where processing modules are used for processing an incoming image-in signal (101) in at least a first layer and a second layer, wherein the processing results in at least first and second processed image signals. A signal analyzer (111) determines one or more image-control parameters (121, 122) from the image-in signal and uses the control parameters to operate a combination circuit (120) in combining the processed image signals into an image-out signal (102).