Abstract: A surround-view imaging system for 3D imaging of a surrounding of the system which avoid saturation and overexposure of an associated image detector, comprising an imager and an illuminator. The illuminator and the imager are arranged one over another and separated from one another by a distance to form an intermediate region which is neither in the field of view of the illuminator nor in the field of view of the imager, and corresponding imager for such surround-view imaging system.

Abstract: A surround-view imaging system for 3D imaging of a surrounding of the system which avoid saturation and overexposure of an associated image detector, comprising an imager and an illuminator. The illuminator and the imager are arranged one over another and separated from one another by a distance to form an intermediate region which is neither in the field of view of the illuminator nor in the field of view of the imager, and corresponding imager for such surround-view imaging system.

Abstract: The present invention refers to a hybrid depth imaging system for three-dimensional depth imaging of a surrounding of the system, comprising phase imaging and ray imaging techniques for an improved performance. The invention is related to a depth imaging system for imaging a surrounding of the system, comprising an active phase imaging, PI, system for imaging the surrounding in the far field of the system and an ray imaging, RI, system for imaging the surrounding in the near field of the system.

Abstract: A surround-view imaging system for three dimensional imaging of a surrounding of the system includes integrated planar and radial illumination sources for an enhanced field of view (FOV). The system includes an imager and illuminator. The illuminator illuminates in a FOV of the illuminator the surrounding of the system such that illumination light reflected by the surrounding can be imaged by the imager in a FOV of the imager as imaging light. The illuminator comprises first illumination light sources to illuminate a first illumination region with first illumination light and second illumination light sources to illuminate a second illumination region of the illuminator FOV with second illumination light. The first illumination light and second illumination light reflected by the surrounding can be imaged by the imager as first imaging light in a first imaging region and as second imaging light in a second imaging region of the imager FOV, respectively.

Abstract: A surround-view imaging system for 3D imaging of a surrounding of the system which avoid saturation and overexposure of an associated image detector, comprising an imager and an illuminator. The illuminator and the imager are arranged one over another and separated from one another by a distance to form an intermediate region which is neither in the field of view of the illuminator nor in the field of view of the imager, and corresponding imager for such surround-view imaging system.

Abstract: The present invention provides optical systems, devices and methods which utilize one or more electroactive polymer actuators to adjust an optical parameter of the optical device or system.

Abstract: Methods and apparatuses for forming optical packages, and intermediate structures resulting from the same are disclosed, which provide an optical element over a device. The optical element is formed by applying a force to lateral portions of a liquid material layer formed below an elastomeric material layer such that the liquid material layer has a radius of curvature sufficient to direct light to a light sensitive portion of the device, after which the liquid material layer is exposed to conditions which maintain the radius of curvature after the lateral force is removed.

Abstract: Methods and apparatuses for forming optical packages, and intermediate structures resulting from the same are disclosed, which provide an optical element over a device. The optical element is formed by applying a force to lateral portions of a liquid material layer formed below an elastomeric material layer such that the liquid material layer has a radius of curvature sufficient to direct light to a light sensitive portion of the device, after which the liquid material layer is exposed to conditions which maintain the radius of curvature after the lateral force is removed.

Abstract: Methods and apparatuses for forming optical packages, and intermediate structures resulting from the same are disclosed, which provide an optical element over a device. The optical element is formed by applying a force to lateral portions of a liquid material layer formed below an elastomeric material layer such that the liquid material layer has a radius of curvature sufficient to direct light to a light sensitive portion of the device, after which the liquid material layer is exposed to conditions which maintain the radius of curvature after the lateral force is removed.

Abstract: Methods and apparatuses for forming optical packages, and intermediate structures resulting from the same are disclosed, which provide an optical element over a device. The optical element is formed by applying a force to lateral portions of a liquid material layer formed below an elastomeric material layer such that the liquid material layer has a radius of curvature sufficient to direct light to a light sensitive portion of the device, after which the liquid material layer is exposed to conditions which maintain the radius of curvature after the lateral force is removed.

Abstract: A computer assembly is disclosed comprising a heat-generating component, one or more layers of thermally conductive material disposed upon a heat-emanating surface of the component, and a thermally conductive housing portion placed in physical contact with the one or more layers. Such an assembly enables the housing portion to act as a heat sink to effectively draw heat away from the component, and to dissipate that heat. Thus, heat is effectively removed from the component without the use of fans or heat pipes.