Abstract: A system method for determining an error in building a three-dimensional object by an additive manufacturing device. The method comprises receiving a vibration signal, the vibration signal representing vibration of a propagation medium caused by the additive manufacturing device building the three-dimensional object by depositing layers of a structural material under control of a sequence of synthesizing instructions and mapping a portion of the received vibration signal to at least one instruction from the sequence of synthesizing instructions to identify a portion of the received signal corresponding to deposition of the structural material, the mapping based on one or more features associated with the synthesizing instructions. The method also comprises analysing a spectral representation of the identified portion of the received signal based on at least one predetermined criterion to determine the error.

Abstract: Disclosed is a method of printing a transformed image corresponding to a source image. The method determines at least a first scale factor to upscale the source image to generate the transformed image, the first scale factor being at a first mathematical precision. The source image is enlarged along at least one edge of said source image edges and pixel data is copied along the source image edges into the enlarged area of the enlarged source image. The method maps each pixel of the transformed image back to a corresponding pixel into the enlarged source image including the copied pixel data along the edge of the source image. The method may determine a second scale factor, the second scale factor being at a second mathematical precision, wherein each pixel of the transformed image is mapped back to a corresponding pixel in the enlarged source image using the second scale factor.

Abstract: A method of generating an attribute map for processing an image. An image encoded into a plurality of segments is received. Each segment is characterized by a position within a base region associated with the image and is encoded according to a corresponding encoding format. A segment from the plurality of segments is decoded into a sub-image. The sub-image is associated with a combination operation and an attribute value derived based on at least one of a segment decoding format and a segment encoding format. The combination operation determines a process of combining the sub-image with the underlying base region. An information-carrying pixel value in the sub-image is determined based on the sub-image pixel content and the attribute value associated with the sub-image. The attribute map for processing the image is generated using the attribute value associated with the sub-image for at least one pixel of the attribute map.

Abstract: A method of generating an attribute map for processing an image. An image encoded into a plurality of segments is received. Each segment is characterised by a position within a base region associated with the image and is encoded according to a corresponding encoding format. A segment from the plurality of segments is decoded into a sub-image. The sub-image is associated with a combination operation and an attribute value derived based on at least one of a segment decoding format and a segment encoding format. The combination operation determines a process of combining the sub-image with the underlying base region. An information-carrying pixel value in the sub-image is determined based on the sub-image pixel content and the attribute value associated with the sub-image. The attribute map for processing the image is generated using the attribute value associated with the sub-image for at least one pixel of the attribute map.

Abstract: Disclosed is a method of printing a transformed image corresponding to a source image. The method determines at least a first scale factor to upscale the source image to generate the transformed image, the first scale factor being at a first mathematical precision. The source image is enlarged along at least one edge of said source image edges and pixel data is copied along the source image edges into the enlarged area of the enlarged source image. The method maps each pixel of the transformed image back to a corresponding pixel into the enlarged source image including the copied pixel data along the edge of the source image. The method may determine a second scale factor, the second scale factor being at a second mathematical precision, wherein each pixel of the transformed image is mapped back to a corresponding pixel in the enlarged source image using the second scale factor.