A system is provided for video display foot imaging and overlaying of an image of selected footwear which includes a video display for displaying a measured foot image and an image of a selected footwear as well as an image device for causing relative movement between the image of the selected footwear and the measured foot image to electronically determine the fit of the selected footwear with the measured foot. The system may include a measurement device for measuring the foot and producing an image of the foot on the video display and a footwear database for providing selected footwear data to the video display. A method is provided for foot shape imaging and overlay comprising the steps of electronically measuring the foot and producing an image of the foot on a video display, selecting footwear from an electronic footwear selection database and displaying an inner shape image of the selected footwear on the video display in overlaying relation to the foot image to determine whether the selected footwear will fit on the measured foot. The method of foot shape imaging and overlay may further include the step of displaying a footwear liner region image defined by a footwear inner perimeter image and a footwear liner image on the video display in overlaying relation to the foot image to determine whether the selected footwear will fit on the measured foot. In addition, the method may include the step of assigning a color hue to a portion of the foot image located within the liner region image such that the color of the foot image portion within the liner region image is different from the color of the foot image not within the liner region image.
A system is provided permitting a patient to visualize how he or she would look given a particular choice of spectacle frames. The system takes into account the prescription information (spherical, and for astigmatic correction the cylinder and axis) and provides for the patient an image showing substantially faithfully how the patient would look if wearing the spectacle frames with lenses according to the prescription.
A footwear database system receives precision three dimensional foot image data of imaged feet of human beings, and receives precision footlast 3D image data from footwear manufacturers for storage into databases for automatic determination of footwear sizes. After imaging feet and storing the footlast data, a customer can thereafter remotely select, for example, through catalogs and web sites, a style of footwear and the footwear database system then determines the acceptable and best fitting size for the desired style of the footwear of a respective footwear manufacturer, and in so doing provides an automatic best fitting size selection for reducing footwear returns due to poor and uncomfortable fits.
A system and a process to facilitate transactions between individuals and providers of goods and/or services. The system includes a master database unit for retaining information related to various characteristics of interest of a plurality of individuals. Each set of information associated with a particular individual is provided with a unique personal code that is supplied to the individual. In any remote communications with the goods/services provider, the individual supplies the personal code. The provider in turn contacts the master database unit and supplies an access code and a particular one or more of the personal codes. The master database unit returns to the provider the set or sets of information associated with the personal code or codes. Based on that information the provider can ensure compatibility of the goods or services with the individual's interests and characteristics. The system of the invention reduces the interface time between the individual and the provider. It also ensures the relevant information can be supplied more quickly and with greater accuracy.
A measuring device (10) is used for generating an imprint of a patient's foot. The imprint includes a first set of at least two differentiable color density markings. The first set of differentiable density markings each correspond to a different pressure exerted on the measuring device by different areas of the patient's foot. A calibration card (50) is provided with an indicia including a set of at least two differentiable density markings. Each differentiable density marking in the second set of differentiable density markings on the calibration card has a viewing opening (56) disposed within, such that when the viewing openings in the calibration card are placed over the imprint of the patient's foot, the first set of different density markings from the imprint are viewable through the viewing openings so that they are readably comparable to the second set of differentiable density markings in the indicia on the calibration card.
A computerized system having means for displaying a digital image of an object such as an object of artwork supplied by the user, analyzing the color composition of the image, searching a database for coordinating frame and matting material products, developing composite images of the user's input with the matching selections, and presenting the digital images to the user so the items may be previewed before placing an order. The system interfaces with a mobile digital camera system for taking digital pictures of input supplied by the customer. The image may be cropped or otherwise altered and combined with the selected frame moulding and matting material combinations. The user may experiment with various features such as color, shape, size, width, number of openings, and other characteristics of frames and matting material until the desired combination is achieved. The system also includes a database of merchandising information such as products and materials, colors and designs available, model numbers, size, material type, cost, and supplier source. The system is capable of generating a printout of the composite image and associated data, and of storing the data for later use.
