Systems, methods, and apparatus are disclosed for machining a part. Methods include generating a first spatial representation identifying a first orientation of a machining tool, and mechanically coupling an end effector to the part at a first position, the end effector including the machining tool and a coupling tool. Methods include generating a second spatial representation identifying a second orientation of the machining tool relative to the part, the first and second spatial representations being generated based on images captured by at least one imaging device and measurements from a plurality of sensors. Methods include identifying a plurality of differences that result from the coupling and that include a rotational distance and translational distance, the identifying being based on a comparison of a first image and a second image. Methods include adjusting the machining tool to return the machining tool to the first orientation at the first position.

A method of measuring body fluid content, the method comprising computer executed steps, the steps comprising: receiving a value of a temperature of a body part of a subject, and generating corrective data based on the received measured temperature value and on previously gathered data, the corrective data being usable for correcting a measurement of content of a fluid sample taken from the body part.

Techniques for improving flexural strength in 3D-printed object. The techniques generally include identifying a portion of a 3D model corresponding to the 3D-printed object to which one or more support posts should be added and adding support post descriptors to the 3D model within such a portion. The support post descriptor defines a position and at least one dimension of a support post cavity and a position and at least one dimension of a support post, both having a height corresponding to at least two layers of 3D-printable material. The model, including the support post descriptors are transmitted to a 3D printer to print the 3D model, which includes a support post cavity and a support post having a height of at least two layers.

Disclosed are a method, computer program and associated apparatuses for metrology. The method includes acquiring inspection data comprising a plurality of inspection data elements, each inspection data element having been obtained by inspection of a corresponding target structure formed using a lithographic process; and performing an unsupervised cluster analysis on said inspection data, thereby partitioning said inspection data into a plurality of clusters in accordance with a metric. In an embodiment, a cluster representative can be identified for each cluster. The cluster representative may be reconstructed and the reconstruction used to approximate the other members of the cluster.

A method of generating a tool path for an additive manufacturing process, the tool path having an input polygon for a thick region, and an input path for a wire region. The method includes offsetting the input polygon by a minimum step over distance, creating a set of contour parallel offset lines, computing path segments from a medial axis transform of the input polygon, computing a dilation of the medial axis path by a radius approximately half the step over distance, producing a dilated medial axis, clipping the contour parallel offset paths by the medial axis path, producing, and recursively connect the medial axis paths with the clipped contour parallel paths.

The present invention relates to a method of operating a quilting or sewing machine. In the method, an operator may switch the modes in which the sewing machine is operating. The modes may be switched when the sewing machine is in operation or when the machine is stopped. The modes to which the sewing machine may be switched to and from may be pre-set modes as defined by an operator. The modes that may be switched to and from may include settings for stitch mode and stitch speed. The buttons may be physical buttons associated with the sewing machine's handles, or they may be digital buttons associated with a tablet device.

A method for automatically collecting semiconductor manufacturing parameters of a manufacturing equipment is provided. The method includes reporting semiconductor manufacturing parameters obtained by self-monitoring of the manufacturing equipment and obtaining storage locations in an electronic data capture corresponding to reported semiconductor manufacturing parameters and transporting the reported semiconductor manufacturing parameters and corresponding storage locations. The method further includes receiving the reported semiconductor manufacturing parameters and the corresponding storage location and storing each reported semiconductor manufacturing parameters automatically into the electronic data capture of a manufacturing execution system according to the corresponding storage location.

Disclosed herein is a household type sewing machine that includes a transmitter configured to connect to a local device such as a Wi-Fi device, and an image capture device configured to capture a video of a workpiece being sewn by the household type sewing machine. The transmitter is configured to send the video captured by the image capture device to the local device. Further disclosed is a method that includes capturing, by the image capture device, a video of a workpiece being sewn by the household type sewing machine and sending the video captured by the image capture device to a mobile device. A sewing system is further disclosed.

Systems, methods, and computer readable media for sheet registration in a tractorless sheet processing device using existing sheet features are disclosed herein. In some aspects, the systems can include a tractorless sheet processing device having a cutter for cutting individual sheets from continuous form material and a cutter feeder for feeding the continuous form material to the cutter. The systems can also include a camera disposed relative to the cutter feeder and configured to capture an image of a position of at least one existing sheet feature on at least one or more of the individual sheets of the continuous form material in order to synchronously register each of the individual sheets with the cutter, and a controller including at least one hardware processor and memory, the controller being configured to interface with the camera and the tractorless sheet processing device.

The invention relates to a machine for the layer-by-layer production of objects, comprising: a circular rotary container arranged in the lower part (B), the inside thereof being provided with independently and vertically motor-driven cylindrical crowns (7); and a stationary part that tops the container. The machine also includes at least one production unit comprising a first station (1) for distributing the layer of product, a second station (2) for evening out the thickness of the layer, a third station (3) for controlling and regulating the temperature of the next layer, a fourth station (4) for solidifying the useful surfaces of the layer of product, a fifth station (5) for controlling and regulating the temperature of the layer that has just been deposited, and a sixth station (6) for treating and impregnating the layer.