A method (200) for predicting a wellness metric (208, 314, 612) is presented. The method (200) includes maintaining (202) a model which receives as input a set of parameters and provides as output a wellness metric (208, 314, 612). Furthermore, the method (200) includes receiving (204) a set of non-invasive biologic...

A system (100) for context driven processing of multimedia content (402) on an edge device (104) is presented. The system (100) includes an acquisition subsystem (404). Furthermore, the system (100) includes a processing subsystem (406) that includes a context aware artificial intelligence platform (408) configure...

A method (200) for predicting a wellness metric (208, 314, 612) is presented. The method (200) includes maintaining (202) a model which receives as input a set of parameters and provides as output a wellness metric (208, 314, 612). Furthermore, the method (200) includes receiving (204) a set of non-invasive biolog...

ABSTRACT PROCESSING OF MULTIMEDIA CONTENT ON AN EDGE DEVICE A system (100) for context driven processing of multimedia content (402) on an edge device (104) is presented. The system (100) includes an acquisition subsystem (404). Furthermore, the system (100) includes a processing subsystem (406) that includes a...

A system (100) for real-time monitoring of health of livestock on a farm is presented. The system (100) includes an acquisition subsystem (114) configured to obtain optical images (106), infrared images (110), sensor information, and animal information related to animals (102) on the farm, and ambient information. ...

A system (100) for real-time automated audio-visual control of ambience based on musical input (104, 302) is presented. The system (100) includes an ambience control system (102), including an acquisition subsystem (106) configured to receive the musical input (104, 302) and a processing subsystem (108) including a...

A system (100) for real-time in-vehicle wellness monitoring of a user (102) of a vehicle (104) is presented. The system includes a non-invasive biological parameter acquisition system configured to acquire measured non-invasive biological parameters (116, 602) of the user (102) via cameras (106), non-contact sensor...

A method (300) for surface inspection of an object (102, 202) is presented. The method (300) includes illuminating (302) the object (102, 202) being monitored. Furthermore, the method (300) includes acquiring (304) a video capture of the object (102, 202). In addition, the method (300) includes obtaining (306) im...

A system (100) including a participative singing relay gameplay system (108) is presented. The participative singing relay gameplay system (108) includes an acquisition subsystem (110), a processing subsystem (112) including an integrated singing relay gameplay platform (114) configured to dynamically recognize a p...

A system (100) for real-time generation of realistic talking videos (218, 420) on an edge device (102) is presented. The system (100) includes an acquisition subsystem (110) and a processing subsystem (112) including a realistic talking video generating platform (114) configured to process the audio input (104, 402)...

A system (100, 200) for real-time inspection of a placement of an object (102) having a curved surface is presented. The system includes a mounting table unit (104), an illumination unit (106) for illuminating (214) the curved surface, a camera unit (108) for capturing reflections from the curved surface, an inspec...

A system (100) for real-time automated fluorescence-based defect detection in an object (104) is presented. The system (100) includes a treatment unit (110) for preparing the object (104), an ultraviolet light imaging subsystem (116) for illuminating and capturing ultraviolet light images (202), a white light imagi...