82 results about "Design choice" patented technology

A method and system for custom building a toy vehicle inside a store. A child makes design choices at a computer terminal inside the store that employs design software relating to a design of a toy car, the design software permitting design choices that trigger an ordering of components and an assembly of the toy car that simulates a real car assembly, the assembly commencing while the child interacts with the software and being completed within approximately a half hour of a first design choice. The assembly line located inside the store allows the child to dramatically see assembly of components and permits participating in the assembly by moving assembly objects to make design choices at component installation points. Design choices include style, model, color, front and rear ends, lights, doors, hood, height, wheels, engine, muffler, interior, spoiler, name and logo, and attachments.

A system and method for designing or customizing a product, web page, or other item, via a global computer network. The system includes a web server, a client computer, a PDF rendering engine, and a manufacturing computer. A user may select preliminary design choices form a web page at the client computer. After preliminary design choices are made, a web-based design editor allows customization of many different features of the designed product. The design editor may include drag & drop capabilities for repositioning design elements and preferably needs little or no client-server interaction during product customization. A PDF rendering engine generates a PDF file describing the designed invention, and the PDF may be used to directly drive manufacturing equipment to produce the product. The web-based design system may be especially useful in designing printed or graphical products such as business cards, stationary, and stamps.

A system for developing a computer implemented service, for deployment on computing infrastructure, generates variants of the model by automatically choosing values for a limited set of design variables, and evaluates the variants in operation. A model manager (187) stores in a model repository (107) a current variant (57) and at least some previous variants, and their evaluation results and derivation trails, the generating part being arranged to use the evaluation results and the derivation trails to generate a next current variant. Such use of the repository can help make more efficient the search by the model manager for variants that work well. In particular the derivation trails and evaluations can make it easier to determine when to revert to a preceding variant or determine what new design choices to try next.

An automated custom power supply design system uses an expert system containing a set of rules, including manufacturing limitations to limit design choices and ensure feasibility and manufacturability of the design. A design interface collects specifications from a user. A complement of power components for satisfying the electrical specifications is defined and mechanical specifications for each component are provided by the system for use in creating the mechanical design. After the mechanical design is established a thermal analysis is performed and the completed design is returned to a host computer. After an order is received, a computer integrated manufacturing system generates all of the specifications required to manufacture the components for the system and the system.

The present invention provides a system, method and apparatus for producing fire rated doors having added strength, better finishing and low cost manufacturing flexibility. The fire rated doors are made from two panels “sandwiched” together. An optional interior layer (e.g., fire resistant material, lead sheeting, steel or Kevlar) can be added between the door panels for various purposes. Splines, stiles or sticks are inserted in longitudinal channels in the door panels to provide assistance in aligning the door panels and greater hardware holding strength. An intumescent banding material concealed by a banding material around the perimeter of the door seals the door within its frame during a fire. The door design and the automated manufacturing process provide greater design choice, reduced cost and faster fabrication.

A method for determining wagers by applying a chip denomination representation, having at least one angle associated with at least one color transition, against a working chip template. A related system includes, but is not limited to, circuitry and/or programming for effecting the foregoing-referenced method; the circuitry and/or programming can be virtually any combination of hardware, software, and/or firmware configured to effect the foregoing-referenced method embodiments depending upon the design choices of the system designer.

Embodiments of the present invention are directed to providing new systems and methods for using deep learning techniques to generate embeddings for high dimensional data objects that can both simulate prior art embedding algorithms and also provide superior performance compared to the prior art methods. Deep learning techniques used by embodiments of the present invention to embed high dimensional data objects may comprise the following steps: (1) generating an initial formal embedding of selected high-dimensional data objects using any of the traditional formal embedding techniques; (2a) designing a deep embedding architecture, which includes choosing the types and numbers of inputs and outputs, types and number of layers, types of units/nonlinearities, and types of pooling, for example, among other design choices, typically in a convolutional neural network; (2b) designing a training strategy; (2c) tuning the parameters of a deep embedding architecture to reproduce, as reliably as possible, the generated embedding for each training sample; (3) optionally deploying the trained deep embedding architecture to convert new high dimensional data objects into approximately the same embedded space as found in step (1); and optionally (4) feeding the computed embeddings of high dimensional objects to an application in a deployed embodiment.

Metadata describing common Java classes is extracted and utilized to optimize a Java program's performance based on the code requirements of the application. Data mining techniques extract metadata and other information about different sets of JVM byte code written by multiple vendors to determine the design choices and optimizations made by each vendor in implementing their JVM. Then, byte code in a Java application being programmed is analyzed in comparison to each vendor's JVM metadata and information. Based upon the application's requirements (for example footprint, performance, etc.), recommendations are generated that yield a newly compiled rt.jar that combines the best practices of each vendor together or recommends a particular vendor's standard JVM that is best suited for the application.

A method and apparatus associated with the production of hydrocarbons is disclosed. The method, which relates to modeling of drilling equipment, includes constructing one or more design configurations for at least a portion of a bottom hole assembly (BHA) and calculating results from each of the one or more design configurations. The calculated results of the modeling may include one or more performance indices that characterize the BHA vibration performance of the design configurations for operating parameters and boundary conditions that are substantially the same or may be different. These results are then simultaneously displayed for a user to facilitate design selection. The selected BHA design configuration may then be utilized in a well construction operation and thus associated with the production of hydrocarbons.

A method for use with equipment having filters, the method characterized by multiplying a matrix having a specified cut-boost setting of a filter of a graphic equalizer by a correction matrix to create a matrix having a corrected cut-boost setting of the filter of the graphic equalizer; adjusting an actual cut-boost setting of the filter of the graphic equalizer to be substantially equal to the corrected cut-boost setting of the filter of the graphic equalizer; and configuring the filter to have a Q value substantially equal to a linearizing Q value. In addition to the foregoing, other method embodiments are described in the claims, drawings, and text forming a part of the present application. In one or more various embodiments, related systems include but are not limited to circuitry and/or programming for effecting the foregoing-referenced method embodiments; the circuitry and/or programming can be virtually any combination of hardware, software, and/or firmware configured to effect the foregoing-referenced method embodiments depending upon the design choices of the system designer.

Design software in accordance with an implementation of the present invention is configured to provide believable three-dimensional representations of user selections in real-time. Design elements that would otherwise be difficult to efficiently render three-dimensionally in real-time are prerendered for realistic visual effects, such as realistic shading, which correspond to various positions of the elements in a design space. Blanks of the visual effects for each position are then stored in a data store for visual effects. At run time, data associated with user design choices, as well as the blanks for any corresponding design elements are fed in one implementation to peripheral processing hardware, such as a GPU, which sends the processed data to a display device. The user is therefore able to view complex visual data of certain design choices efficiently with added realism.

A lighting system includes a controller that is configured to provide thermal management for the lighting system by distributing excess energy in the lighting system through multiple power dissipation circuits. In at least one embodiment, the lighting system is a phase cut compatible, dimmable lighting system having one or more light sources selected from a group consisting of at least one light emitting diode and at least one compact fluorescent lamp. In at least one embodiment, the controller is configured to control the plurality of power dissipation circuits in accordance with a thermal management strategy to dissipate the excess energy in the phase cut compatible, dimmable lighting system. The particular thermal management strategy is a matter of design choice. The power distribution circuits include two of more of: a controlled switch path power dissipation circuit, a controlled link path power dissipation circuit, and a controlled flyback path power dissipation circuit.

A technique and user interface for the assignment of computer system resources and, particularly, for the assignment of storage system resources. The invention allows a user to make design selections through a user interface and, then, automatically provides an indication to the user as the effect of the selections. For example, various performance parameters for each of several applications may be displayed graphically as a chart. In response to the user adjusting a parameter for one application, the invention determines what effect this change will have on the other displayed parameters. A design for the computer system is developed. Levels of performance parameters for the design are predicted. The predicted levels of performance parameters are compared to the desired levels of performance parameters. When the predicted levels are lower than the desired levels, the design is modified. The design may be modified by reducing the desired levels of performance parameters based on utility functions. The results may then be displayed graphically on the chart. The invention is particularly useful for allocating data storage system resources among several different applications.

In one embodiment, a method includes but is not limited to: conditioning an inhalent environment; exposing a first organism to the inhalent environment for a first-organism duration of time; and exposing a second organism to the inhalent environment for a second-organism duration of time. In addition to the foregoing, other method embodiments are described in the claims, drawings, and text forming a part of the present application. In one or more various embodiments, related systems include but are not limited to circuitry and/or programming for effecting the foregoing-referenced method embodiments; the circuitry and/or programming can be virtually any combination of hardware, software, and/or firmware configured to effect the foregoing-referenced method embodiments depending upon the design choices of the system designer. In one embodiment, a system includes but is not limited to: an inhalent manifold; a first independently-controllable exposure unit coupled to said inhalent manifold; a second independently-controllable exposure unit coupled to said inhalent manifold; and an exposure control system operably coupled to either or both said first independently-controllable exposure unit and said second independently-controllable exposure unit.

In one embodiment, a method includes but is not limited to exposing an animal to an inhalant; acquiring near real time measurement of at least respiration during said exposing; and calculating a received dose of the inhalant in response to the near real time measurement of the at least respiration during said exposing. In one embodiment, a method includes but is not limited to automatically controlling an environment of an inhalant chamber; and automatically controlling a concentration of an inhalant in the inhalant chamber. In one embodiment, a method includes but is not limited to displaying near real time measurement data related to an animal in an inhalant chamber. In addition to the foregoing, other method embodiments are described in the claims, drawings, and text forming a part of the present application. In one or more various embodiments, related systems include but are not limited to circuitry and/or programming for effecting the foregoing-described method embodiments; the circuitry and/or programming can be virtually any combination of hardware, software, and/or firmware configured to effect the foregoing-described method embodiments depending upon the design choices of the system designer. In one embodiment, a system includes but is not limited to at least one inhalant chamber; and at least one animal respiration sensor integral with the at least one inhalant chamber.

A software program for use in designing interior and exterior spaces receives user input that is associated with one or more attributes. Subsequent user input, having other attributes, is resolved in light of the first input attributes to create a real-world depiction of design choices in real-time. For example, design choices that conflict with prior design choices are resolved (or modified as necessary) to ensure that each of the prior and present user input choices are represented in an appropriate way. The resolution by the design software is also used to create an accurate parts (and/or price) list so that when the user has completed the design of an exterior or interior space, the design can be submitted directly as an order to be fulfilled. Generally, continual resolution ensures that the user's design intent is captured in an accurate and efficient way in a user interface.

The present invention provides a part management system that facilitates an automated process for the design or electronic components such as printed circuit boards. Manufacturing rules can be stored with part data to ensure that the manufacturing rules are considered throughout all aspects of the design process. A part research engine is provided that performs various functions to aid a designer in selecting parts to be included in the design of a component. The part research engine performs a global part number search. Entering a full or partial part number results in list of part numbers from which selections can be made. The part research engine also can perform a comparative part search. This function is used for finding an equivalent device within and across different manufacturers based on top-level parameters such as the density, package type, I/O requirements, and other factors. Users can select multiple components from the competitive part list for comparing them side-by-side using a direct compare feature of part research engine. A unified part file, part repository and database solve the problems of fragmented part libraries, use of generic part data, and lack of manufacturing rules. A unified part file is used to store part data required to support a suite of design and validation activities throughout the design cycle including the schematic (logical) design, PCB design and layout, thermal analysis, signal integrity and BMI analysis, and manufacturing analysis. The part data represent a manufacturer specific part identified by the manufacturer part number (MPN) instead of a generic part. Upon selection of a part for the schematic design, engineers of various disciplines can start investigating or preparing for the effect of the part selection on various aspects of the design while purchasing people can check pricing and availability of the part.

Herein disclosed is a centrifugally cast pole having a substantially uniform wall thickness along the long axis of the pole. During centrifugal casting, molten metal is poured inside a rotating, tapered mold. As chilled liquid is poured over the outside of the rotating mold, the metal forms, or paints, to the contour of the mold interior creating a metal pole. By precisely controlling casting gyrations such as the spin, travel, pitch, and yaw of the rotating mold and the calibration and physical mechanisms of the casting machine, hollow, tapered, tubular metal poles are produced with previously unknown uniformity of wall thickness. The controlling principles, designs, and mechanisms of this centrifugal casting method enable wall uniformity to extremely high tolerances. By extension, the ability to precisely control the metal volume painted inside the mold allows, as a design choice, wall thickness variation in any embodiment if so desired.

A method and structure for an integrated system for fabricating components for a customer's selected wood-based project, including at least one computer for providing an interface with a consumer to input inquiries and design choices directed to a project having at least one component to be machined in a tandem machine system in which a wood-based project component can be fabricated, regardless whether the component is based on dimensional stock or on sheet material stock. The customer interacts with either a database showing previously-designed projects for implementation using the tandem machine or a CAD (Computer Aided Design) module to develop a new project or a modification of a project in the database.

Methods and systems which provide for standardized inpatient-outpatient nomenclatures and accepting both outpatient and inpatient data to commonly accessible storage. In a first method embodiment, the first method is characterized by accepting user input identifying at least two different names for a substantially similar grouping of one or more medical criteria; and accepting user input specifying at least one of the at least two different names as forming at least a part of an outpatient-inpatient standardized nomenclature for the substantially similar grouping of one or more medical criteria. In a second method embodiment, the second method is characterized by accepting either outpatient or inpatient data to commonly accessible storage. In one or more various embodiments, related systems include but are not limited to circuitry and/or programming for effecting the foregoing-referenced method embodiments; the circuitry and/or programming can be virtually any combination of hardware, software, and/or firmware configured to effect the foregoing-referenced method embodiments depending upon the design choices of the system designer.

A system is provided for allowing collaborative, web-enabled design of content for print on demand output. Categories of standardized products are provided, and upon selection of any particular product type a designer's choice will be utilized as a default which incorporates design selection categories including backgrounds, graphics, products, text boxes, headlines, logos, and text elements capable of manipulation. Previews are displayed in live, real time images incorporate low resolution equivalents of the final images. These low resolution images suffice for design decision, and allow such decisions to be communicated over the Internet(™) by any number of authorized users. At each element selection, as the preview is displayed so are selection thumbnails. Selection of alternate elements cause the preview to become interactive with the user, allowing true live manipulation of the active element(s). Position, content, and display elements can all be made active parameters. As this layered menu system is navigated, a final low resolution design can be completed and be available on-line for approval and selection. Once selected, the low-resolution equivalent is used to construct a full size, high resolution electronic document distribution format and, eventually, to a print ready design for transfer to print-on-demand production through conversion to a standard print format output.