Abstract: Strategies for managing an “always on” solution for volumes with enhanced interactive haptic feedback and its implications are addressed. Ultrasound transducer arrays may be mounted on a person (such as on a head mounted display or other wearable accessory). This array may utilize some form of 6 degree-of-freedom tracking for both the body and hands of the user. The arrays coordinate to project focused acoustic pressure at specific locations on moving hands such that a touch sensation is simulated. Using wearable microphones, the ultrasonic signal reflected and transmitted into the body can be used for hand and gesture tracking.

Abstract: To resolve an issue related to the calibration of optical cameras in transducer-based mid-air haptic systems, the magnification of the motion induced on an optical camera by an acoustic field modulated at specific frequencies reveals very small temporal variations in video frames. This quantized distortion is used to compare different acoustic fields and to solve the calibration problem in an automatized manner. Further, mechanical resonators may be excited by ultrasound when it is modulated at the resonant frequency. When enough energy is transferred and when operating at the correct frequency, a user in contact with the device can feel vibration near areas of largest displacement. This effect can be exploited to create devices which can produce haptic feedback while not carrying a battery or exciter when in the presence of an ultrasonic source.

Abstract: Improved algorithm techniques may be used for superior operation of haptic-based systems. An eigensystem may be used to determine for a given spatial distribution of control points with specified output the set of wave phases that are the most efficiently realizable. Reconstructing a modulated pressure field may use emitters firing at different frequencies. An acoustic phased-array device uses a comprehensive reflexive simulation technique. There may be an exchange of information between the users and the transducer control processors having the ability to use that information for optimal haptic generation shadows and the like. Applying mid-air haptic sensations to objects of arbitrary 3D geometry requires that sensation of the object on the user's hand is as close as possible to a realistic depiction of that object. Ultrasonic haptics with multiple and/or large aperture arrays have high-frequency update rates required by the spatio-temporal modulation.

Abstract: Strategies for managing an “always on” solution for volumes with enhanced interactive haptic feedback and its implications are addressed. Ultrasound transducer arrays may be mounted on a person (such as on a head mounted display or other wearable accessory). This array may utilize some form of 6 degree-of-freedom tracking for both the body and hands of the user. The arrays coordinate to project focused acoustic pressure at specific locations on moving hands such that a touch sensation is simulated. Using wearable microphones, the ultrasonic signal reflected and transmitted into the body can be used for hand and gesture tracking.

Abstract: Producing multiple independent fields from many phased acoustic transducers represents a difficult computational problem. By first dividing up each field to its own group of transducers and then treating each group as an element with adjustable phase, one can minimize the field-to-field interference through a power iteration solution. These solutions can be further refined by including tracking information from users in the space and how they shadow or reflect the acoustic fields.

Abstract: To resolve an issue related to the calibration of optical cameras in transducer-based mid-air haptic systems, the magnification of the motion induced on an optical camera by an acoustic field modulated at specific frequencies reveals very small temporal variations in video frames. This quantized distortion is used to compare different acoustic fields and to solve the calibration problem in an automatized manner. Further, mechanical resonators may be excited by ultrasound when it is modulated at the resonant frequency. When enough energy is transferred and when operating at the correct frequency, a user in contact with the device can feel vibration near areas of largest displacement. This effect can be exploited to create devices which can produce haptic feedback while not carrying a battery or exciter when in the presence of an ultrasonic source.

Abstract: Improved algorithm techniques may be used for superior operation of haptic-based systems. An eigensystem may be used to determine for a given spatial distribution of control points with specified output the set of wave phases that are the most efficiently realizable. Reconstructing a modulated pressure field may use emitters firing at different frequencies. An acoustic phased-array device uses a comprehensive reflexive simulation technique. There may be an exchange of information between the users and the transducer control processors having the ability to use that information for optimal haptic generation shadows and the like. Applying mid-air haptic sensations to objects of arbitrary 3D geometry requires that sensation of the object on the user's hand is as close as possible to a realistic depiction of that object. Ultrasonic haptics with multiple and/or large aperture arrays have high-frequency update rates required by the spatio-temporal modulation.

Abstract: One embodiment of an electronic component packaging system includes a base adapted for supporting an electronic component, a lid sealed to the base, the lid including a fillport, and the fillport hermetically sealed by light irradiation.

Abstract: Embodiments of an ablation device and an ablation process are disclosed.

Abstract: This invention provides a means to minimize the costs of technical and business processes. These processes are comprised of resources and tasks requiring resources. The optimization consists of the best assignment of resources to tasks to minimize the costs. In the resource assignment optimization method disclosed herein, Genetically Adapted Search Agents (GASA) are employed to improve a population of possible assignments, each represented by a single variable length chromosome, where the chromosome upon which the GASA operates is a direct encoding of possible resource to task assignments and order. To manage the enlarged search space, this method uses the GASA with substring crossover to evolve the population towards better solutions. The assignments generated by this method satisfy all constraints.

Abstract: One embodiment of an electronic component packaging system includes a base adapted for supporting an electronic component, a lid sealed to the base, the lid including a fillport, and the fillport hermetically sealed by light irradiation.