A non-transitory computer-readable medium storing computer-readable instructions. The instructions, when executed, cause a processor of a sewing data generation device configured to generate sewing data to perform steps. The steps include acquiring a sewing area in which a pattern is to be sewn and acquiring a target area in which a pattern is to be arranged. The steps further include generating a plurality of sewing data. Each of the plurality of sewing data is data to form stitches of a plurality of stippling patterns inside the acquired target area. The steps further include associating the sewing data with arrangement information, for each of the plurality of sewing data, and outputting the sewing data and arrangement information that have been associated with each other. The arrangement information indicates an arrangement of each of the stippling patterns to be sewn on the basis of the sewing data.

An embroidery data generating apparatus includes: a coordinate position registration unit that registers coordinate positions of multiple track points detected at predetermined intervals from a track of a continuous line input via a screen, with them associated with a track point input order; a reference distance registration unit that registers a stitching pitch length as a reference distance; and an embroidery data generating unit configured to generate a desired track point on the continuous line as a needle location start point, to select particular track points that are subsequently input from among the multiple track points as reference track points, to convert the coordinate positions of the reference track points to arrange them in input order from the needle location start point at intervals of the reference distance, to generate the converted points as needle location points, and to generate data of the generated needle location points as embroidery data.

An embroidery data generating apparatus includes: a coordinate position registration unit that registers coordinate positions of multiple track points detected at predetermined intervals from a track of a continuous line input via a screen, with them associated with a track point input order; a reference distance registration unit that registers a stitching pitch length as a reference distance; and an embroidery data generating unit configured to generate a desired track point on the continuous line as a needle location start point, to select particular track points that are subsequently input from among the multiple track points as reference track points, to convert the coordinate positions of the reference track points to arrange them in input order from the needle location start point at intervals of the reference distance, to generate the converted points as needle location points, and to generate data of the generated needle location points as embroidery data.

Using an existing embroidery design that has been created for applique, data is automatically created for a cutting machine, which will cut the applique. Currently, the user currently has to cut these by handa labor intensive process or use a custom die that can be expensive. The process only requires that the applique steps in the sewing sequence are labeled as such. Generally, the applique steps are so labeled in order for the design creator to be able to let the sewer know what they are doing.

Using an existing embroidery design that has been created for applique, data is automatically created for a cutting machine, which will cut the applique. Currently, the user currently has to cut these by handa labor intensive process or use a custom die that can be expensive. The process only requires that the applique steps in the sewing sequence are labeled as such. Generally, the applique steps are so labeled in order for the design creator to be able to let the sewer know what they are doing.

A non-transitory computer-readable medium stores computer-readable instructions for sewing data generation. The computer-readable instructions are executed by a processor provided in a sewing data generation device. When executed by the processor in the sewing data generation device, the computer-readable instructions instruct the processor to perform following processes. First, the processor acquires a pattern. And, the processor divides the acquired pattern into a first pattern and a second pattern. The second pattern includes an overlapping portion. The overlapping portion in the second pattern partially overlaps with the first pattern. The processor generates sewing data to sew each of the first pattern and the second pattern on a sewing object. And, the processor generates processing data to process, in full size, a processing pattern. The processing pattern is obtained by excluding the overlapping portion from the second pattern, on a sheet-like processing object different from the sewing object.

A non-transitory computer-readable medium stores computer-readable instructions for sewing data generation. The computer-readable instructions are executed by a processor provided in a sewing data generation device. When executed by the processor in the sewing data generation device, the computer-readable instructions instruct the processor to perform following processes. First, the processor acquires a pattern. And, the processor divides the acquired pattern into a first pattern and a second pattern. The second pattern includes an overlapping portion. The overlapping portion in the second pattern partially overlaps with the first pattern. The processor generates sewing data to sew each of the first pattern and the second pattern on a sewing object. And, the processor generates processing data to process, in full size, a processing pattern. The processing pattern is obtained by excluding the overlapping portion from the second pattern, on a sheet-like processing object different from the sewing object.

A sewing machine acquires embroidery data of an embroidery pattern including a first pattern to be sewn when a holding position of an embroidery frame is a first position and a second pattern to be sewn subsequent to the first pattern when the holding position is a second position. The sewing machine identifies an image capture area based on the embroidery data, and acquires first image data representing the image capture area and extracts a first feature point. And then, the sewing machine acquires second image data and extracts a second feature point. The sewing machine sets, based on the first feature point and the second image data, a layout of the second pattern with respect to the first pattern when the holding position is the second position and corrects the embroidery data. The sewing machine sews the second pattern on the sewing object based on the corrected embroidery data.

A sewing machine acquires embroidery data of an embroidery pattern including a first pattern to be sewn when a holding position of an embroidery frame is a first position and a second pattern to be sewn subsequent to the first pattern when the holding position is a second position. The sewing machine identifies an image capture area based on the embroidery data, and acquires first image data representing the image capture area and extracts a first feature point. And then, the sewing machine acquires second image data and extracts a second feature point. The sewing machine sets, based on the first feature point and the second image data, a layout of the second pattern with respect to the first pattern when the holding position is the second position and corrects the embroidery data. The sewing machine sews the second pattern on the sewing object based on the corrected embroidery data.

Using an existing embroidery design that has been created for applique, data is automatically created for a cutting machine, which will cut the applique. Currently, the user currently has to cut these by handa labor intensive process or use a custom die that can be expensive. The process only requires that the applique steps in the sewing sequence are labeled as such. Generally, the applique steps are so labeled in order for the design creator to be able to let the sewer know what they are doing.