A system comprising a scanner to scan the airman or soldier (subject), a processor to receive, from the scanner, a non-manifold three-dimensional (3D) digital surface model (DSM) scan data representative of the subject, and a computer-aided manufacturing (CAM) device. The processor recognizes anatomical features on the 3D surface model including the cephalic (head) region of the scanned subject; stores each sub region defined by anatomical features as a non-manifold 3D surface model; creates a surface offset from the DSM sub region; creates a closed volume within and between the DSM sub region and the offset surface representative of a solid 3D pilot flight equipment; and causes a computer-aided manufacturing (CAM) device to manufacture the solid 3D pilot flight equipment.

A system comprising a scanner to scan the airman or soldier (subject), a processor to receive, from the scanner, a non-manifold three-dimensional (3D) digital surface model (DSM) scan data representative of the subject, and a computer-aided manufacturing (CAM) device. The processor recognizes anatomical features on the 3D surface model including the cephalic (head) region of the scanned subject; stores each sub region defined by anatomical features as a non-manifold 3D surface model; creates a surface offset from the DSM sub region; creates a closed volume within and between the DSM sub region and the offset surface representative of a solid 3D pilot flight equipment; and causes a computer-aided manufacturing (CAM) device to manufacture the solid 3D pilot flight equipment.

Embodiments provide a wearable article for a performance capture system. In some embodiments, a wearable article includes one or more regions, where the one or more regions are configured to be worn on at least a portion of a body of a user, where the one or more regions have a first pliability and a second pliability, where the first pliability and the second pliability are different pliabilities, and where at least one of the one or more regions are configured to hold devices in predetermined positions while maintaining shape and respective pliability. In some embodiments, the wearable article also includes a plurality of mounting mechanisms coupled to the one or more regions for mounting one or more reference markers to be used for position determination.

Embodiments provide a wearable article for a performance capture system. In some embodiments, a wearable article includes one or more regions, where the one or more regions are configured to be worn on at least a portion of a body of a user, where the one or more regions have a first pliability and a second pliability, where the first pliability and the second pliability are different pliabilities, and where at least one of the one or more regions are configured to hold devices in predetermined positions while maintaining shape and respective pliability. In some embodiments, the wearable article also includes a plurality of mounting mechanisms coupled to the one or more regions for mounting one or more reference markers to be used for position determination.

A system comprising a scanner to scan the airman or soldier (subject), a processor to receive, from the scanner, a non-manifold three-dimensional (3D) digital surface model (DSM) scan data representative of the subject, and a computer-aided manufacturing (CAM) device. The processor recognizes anatomical features on the 3D surface model including the cephalic (head) region of the scanned subject; stores each sub region defined by anatomical features as a non-manifold 3D surface model; creates a surface offset from the DSM sub region; creates a closed volume within and between the DSM sub region and the offset surface representative of a solid 3D pilot flight equipment; and causes a computer-aided manufacturing (CAM) device to manufacture the solid 3D pilot flight equipment.

A system comprising a scanner to scan the airman or soldier (subject), a processor to receive, from the scanner, a non-manifold three-dimensional (3D) digital surface model (DSM) scan data representative of the subject, and a computer-aided manufacturing (CAM) device. The processor recognizes anatomical features on the 3D surface model including the cephalic (head) region of the scanned subject; stores each sub region defined by anatomical features as a non-manifold 3D surface model; creates a surface offset from the DSM sub region; creates a closed volume within and between the DSM sub region and the offset surface representative of a solid 3D pilot flight equipment; and causes a computer-aided manufacturing (CAM) device to manufacture the solid 3D pilot flight equipment.

Disclosed are methods and systems for displaying items of clothing on a model having a similar body shape to that of an ecommerce user. In one aspects, a system includes one or more hardware processors configured to perform operations comprising receiving, by one or more hardware processors, an image, the image representing a user height, user weight, and user gender, causing display, by the one or more hardware processors, of a second image via a computer interface, the second image representing a model, the model selected based on a comparison of a model height, weight, and gender with the user height, weight, and gender respectively, receiving, by the one or more hardware processors, a selection of an item of clothing; and causing display, by the one or more hardware processors, of a representation of the selected model wearing the selected item of clothing.

A device for measuring a dimension includes: an electronic tape measure including: a portable casing including an opening having a Y axis; a winder in the casing having an X axis; a tape passing through the casing opening and including an end fixed on the winder and a free end outside the casing; a module for measuring a measurement relating to said outer section; a trigger for generating a signal by the trigger activation; and an interpretation module for controlling inputting of the measurement when the trigger signal is received, in which device the free end of the outer section includes a fastener, and the casing includes a fastening region allowing the fastener to be fixed, the length of the surface of the casing that extends between the fastening region and the opening of the casing being less than 4 cm.

A device for measuring a dimension includes: an electronic tape measure including: a portable casing including an opening having a Y axis; a winder in the casing having an X axis; a tape passing through the casing opening and including an end fixed on the winder and a free end outside the casing; a module for measuring a measurement relating to said outer section; a trigger for generating a signal by the trigger activation; and an interpretation module for controlling inputting of the measurement when the trigger signal is received, in which device the free end of the outer section includes a fastener, and the casing includes a fastening region allowing the fastener to be fixed, the length of the surface of the casing that extends between the fastening region and the opening of the casing being less than 4 cm.

Various examples are provided for obtaining body measurements of a user, predicting body measurements of a user, and/or the like. Examples include a coded dimensioning garment having a stretchable fabric that conforms to a wearer's body without substantial compression or distortion of the skin. The garment can include measurement markings of known sizes at one or more known locations on the fabric. Methods are provided for predicting body measurements from a user. Image(s) of a user wearing the garment in a reference pose are captured and can be uploaded to a body measurement application. The real-world dimensions can be converted to pixel dimensions in the same ratio as the real world dimensions and inputted into a prediction model to generate measurements from areas of interest on the user.