Abstract: Apparatus and methods for aligning circuit boards (e.g., for LIDAR systems) are disclosed. According to one embodiment, an electronic device comprises a secondary device and a coupling device coupled to the secondary device. The coupling device comprises a plurality of conductive members, including a first conductive member and a second conductive member. Each of the conductive members comprises a first end configured to electrically and mechanically couple to a primary circuit board and a second end electrically and mechanically coupled to the secondary device. Each of the plurality of conductive members has an attribute adjustable in response to a condition being added to the respective conductive member, and is configured to maintain the adjusted attribute after the condition is removed.

Abstract: Apparatus and methods for aligning circuit boards (e.g., for LIDAR systems) are disclosed. According to one embodiment, an electronic device comprises a secondary device and a coupling device coupled to the secondary device. The coupling device comprises a plurality of conductive members, including a first conductive member and a second conductive member. Each of the conductive members comprises a first end configured to electrically and mechanically couple to a primary circuit board and a second end electrically and mechanically coupled to the secondary device. Each of the plurality of conductive members has an attribute adjustable in response to a condition being added to the respective conductive member, and is configured to maintain the adjusted attribute after the condition is removed.

Abstract: Apparatus and methods for aligning circuit boards (e.g., for LIDAR systems) are disclosed. According to one embodiment, an electronic device comprises a secondary device and a coupling device coupled to the secondary device. The coupling device comprises a plurality of conductive members, including a first conductive member and a second conductive member. Each of the conductive members comprises a first end configured to electrically and mechanically couple to a primary circuit board and a second end electrically and mechanically coupled to the secondary device. The second end of the first conductive member is coupled to a first side of the secondary device, and the second end of the second conductive member is coupled to a second side of the secondary device. The second side of the secondary device is opposite to the first side of the secondary device.

Abstract: Apparatus and methods for aligning circuit boards (e.g., for LIDAR systems) are disclosed. According to one embodiment, an electronic device comprises a secondary device and a coupling device coupled to the secondary device. The coupling device comprises a plurality of conductive members, including a first conductive member and a second conductive member. Each of the conductive members comprises a first end configured to electrically and mechanically couple to a primary circuit board and a second end electrically and mechanically coupled to the secondary device. The second end of the first conductive member is coupled to a first side of the secondary device, and the second end of the second conductive member is coupled to a second side of the secondary device. The second side of the secondary device is opposite to the first side of the secondary device.

Abstract: The present invention relates to a method and apparatus for encoding image data defining a graphics object. The method comprises partitioning the graphics object into a plurality of sub-images, deriving digital image data for each sub-image, the digital image data defining the respective sub-image, deriving sub-image position data defining the relative positioning of the sub-images within the graphics object, scrambling the digital image data for the plurality of sub-images, encrypting sub-image position data, and outputting encoded image data defining the graphics object comprising the scrambled sub-image data and the encrypted sub-image position data.

Abstract: The present application relates an encoder. The encoder partitions an image domain into several substructures each having one of at least one size dimension, and defines at least one geometric primitive for each substructure on the basis of geometry data. The encoder also retrieves, for each substructure, a subset of image data and determines whether pixel values of the retrieved subset are the same. If the pixel values are describable by a texture mapping operation, then the encoder defines a compressed texture image and assigns texture mapping data to the geometry data. Otherwise, the encoder defines an uncompressed texture image and assigns texture mapping data to the geometry data. The compressed image includes the geometry data, the texture mapping data, and the texture image data.

Abstract: The present application relates an encoder and a method of operating thereof. The encoder is configured to partition an image domain into several substructures each having one of at least one size dimension; and to define at least one geometric primitive for each substructure on the basis of geometry data. The encoder is further configured, for each substructure, to retrieve a subset of image data and to determine whether pixel values of the retrieved subset are the same. If the pixel values are describable by a texture mapping operation the encoder is configured to define a compressed texture image and to assign texture mapping data to the geometry data. Otherwise the encoder is configured to define an uncompressed texture image and to assign texture mapping data to the geometry data. The compressed image comprises the geometry data, the texture mapping data and the texture image data.