Abstract: Embroidery machines can produce patches without needing overlock machines. An outline definition for the outline of the patch is obtained and used to determine the exterior points of an exterior path. The interior points of an interior path that is inside the exterior path can also be determined. The exterior path and the interior path can be used to produce sewing data that includes an edge stitch pattern definition for an edge stitch pattern that includes a plurality of edge stitches that are arranged as a plurality of stitch bundles. The stitch bundles are fan shaped and extend from the exterior path to the interior path, the exterior points and the interior points indicate a plurality of needle penetrations for sewing the edge stitch pattern, and the sewing data is configured for use by an embroidery machine to sew the edge stitch pattern and thereby produce simulated overlock stitching.

Abstract: 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 hand—a 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.

Abstract: 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 hand—a 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.

Abstract: 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 hand—a 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.

Abstract: 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 hand—a 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.

Abstract: 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 hand—a 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.

Abstract: 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 hand—a 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.

Abstract: 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 hand—a 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.

Abstract: 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 hand—a 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.

Abstract: 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 hand—a 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.

Abstract: A system and method for an interactive embroidery design specified by vector data and 3-dimensional data modifying shape and parameter data. A processor is configured to execute computer-executable instructions to create an adjustable design as indicated by artist input. The adjusted design is modified by embroidery machine operator input and is converted into stitch instructions for use by an embroidery machine to manufacture a custom embroidered product including the adjusted design.

Abstract: A computer-implemented system and method for assisting an operator in analyzing an embroidery design which will be used by an embroidery machine to create an embroidered fabric. A knowledge base of parameters relates to embroidery designs. A rules base of rules interrelates the parameters. Selection software designates defined parameters. Analysis software applies the rules to defined parameters and generates recommended parameters as a function of the defined parameters. Comments, photographs or multimedia presentations may be provided to the operator associated with one or more of the parameters. Display software provides a display of the selected parameter, the defined parameter, the one or more recommended parameters and comments, photographs, or multimedia presentations which are a function of the parameters.

Abstract: A software program and system for assisting an operator in analyzing an embroidery design which will be used by an embroidery machine to create an embroidered fabric. Grid software divides the embroidery design to be analyzed into a plurality of grid sections. Value software assigns a value to each particular grid section. The assigned value corresponds to a density of the embroidery design within the particular grid section. Display software provides a display of the grid sections of the divided embroidery design wherein each grid section has a parameter corresponding to its assigned value. The grid size may be proportionally adjusted to accommodate thread stretch.

Abstract: A software program and system for assisting an operator in analyzing an embroidery design which will be used by an embroidery machine to create an embroidered fabric. Grid software divides the embroidery design to be analyzed into a plurality of grid sections. Value software assigns a value to each particular grid section. The assigned value corresponds to a density of the embroidery design within the particular grid section. Display software provides a display of the grid sections of the divided embroidery design wherein each grid section has a parameter corresponding to its assigned value. The grid size may be proportionally adjusted to accommodate thread stretch.

Abstract: A software program for analyzing an embroidery design of stitches which design will be used by an embroidery machine to create an embroidered fabric. Grid software divides the embroidery design to be analyzed into a plurality of grid sections. Identifying software identifies each grid section having a stitch which is partially or completely underlying another stitch. Modification software removes underlying stitches or a portion thereof in each identified grid section. The size of each grid section may be increased or decreased in proportion to a stretch of the thread to be used to create the embroidered fabric.

Abstract: A software program, method and system for analyzing and dividing an embroidery design into multiple regional designs. An embroidery machine then uses the regional designs to create an embroidered fabric. The software separates the embroidery design into regional designs such that each regional design fits within a predefined region having a size which can be handled by the hoop and the attachment points of the embroidery machine. For each separate regional design, one or more files of executable instructions is created. The instructions are used by the embroidery machine to sew the embroidery design. In one form, region software analyzes the stitch data for its ability to exist in multiple, overlapped regions. Grid software divides the embroidery design to be analyzed into a plurality of grid sections. Identifying software identifies each grid section having a stitch that is partially or completely underlying another stitch.

Abstract: An expert system and method for assisting an operator in analyzing an embroidery design which will be used by an embroidery machine to create an embroidered fabric. A knowledge base of parameters relates to embroidery designs. A rules base of rules interrelates the parameters. Selection software designates defined parameters. Analysis software applies the rules to defined parameters and generates recommended parameters as a function of the defined parameters. Comments, photographs or multimedia presentations may be provided to the operator associated with one or more of the parameters. Display software provides a display of the selected parameter, the defined parameter, the one or more recommended parameters and comments, photographs, or multimedia presentations which are a function of the parameters.

Abstract: A software program for analyzing an embroidery design of stitches which design will be used by an embroidery machine to create an embroidered fabric. Grid software divides the embroidery design to be analyzed into a plurality of grid sections. Identifying software identifies each grid section having a stitch which is partially or completely underlying another stitch. Modification software removes underlying stitches or a portion thereof in each identified grid section. The size of each grid section may be increased or decreased in proportion to a stretch of the thread to be used to create the embroidered fabric.