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Fearing
Douglas Stephen Fearing, Austin, TX US
| Patent application number | Description | Published |
|---|---|---|
| 20110276439 | Configuration Representation and Modeling Using Configuration Spaces - Configuration spaces facilitate the useful presentation of data, particularly configuration data used for representing configured products. Products include features and common features can be grouped by families. For example, an automobile can include a transmission family. The transmission family could include features such as automatic transmission and 4-speed manual transmission. Configuration spaces can be achieved by consolidating selected data without loosing useful information. The degree of consolidation achieved can be significant enough to permit display of data using conventional display technology. Configuration spaces break down the “universe” of possible configurations into constituent spaces defined by groups of rules for a selected feature. Common dependencies between the selected feature and related features can be consolidated to produce a more minimal form of the data used for representing the selected features and related features. Configuration spaces can provide a useful graphical view of the breakdown of all rules written for a single feature or multiple features. The data present in this view can be analyzed to, for example, study the dependency paths of an existing configuration and better understand the impact of revising configuration relationships. Thus, configuration spaces aid in the creation and modification of configuration models. | 11-10-2011 |
Nicole Marie Fearing, Columbia, MO US
| Patent application number | Description | Published |
|---|---|---|
| 20100106233 | BIONANOCOMPOSITE FOR TISSUE REGENERATION AND SOFT TISSUE REPAIR - The present invention provides a bionanocomposite including a pre-selected decellularized tissue crosslinked with a pre-selected nanomaterial. Also provided is a process for fabricating the bionanocomposite. Additionally, applications for using the bionanocomposite as soft tissue repair materials or scaffolds for tissue engineering are described. | 04-29-2010 |
Roger N. Fearing, Woodland Hills, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20120089715 | Systems and methods for communicating across various communication applications using single address strings - Systems and methods are disclosed for providing addressing strings formats and associated system implementations to minimize the number of different addressing strings used for communicating across different communication applications. The systems and methods receive a valid address string that can be inputted into a communication applications selected from a collection of communication applications wherein the same address string can be inputted for any selected communication application from that collection. | 04-12-2012 |
Ronald S. Fearing, Orinda, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100062208 | COMPLIANT BASE TO INCREASE CONTACT FOR MICRO- OR NANO-FIBERS - A fabricated microstructure includes a substrate, a primary fiber, and a plurality of base fibers. The primary fiber has a width less than about 5 microns. Each base fiber of the plurality of base fibers has a first end attached to the primary fiber and a second end attached to the substrate. Each base fiber has a width less than the width of the primary fiber. | 03-11-2010 |
Ronald S. Fearing, El Cerrito, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20080308953 | FABRICATED ADHESIVE MICROSTRUCTURES FOR MAKING AN ELECTRICAL CONNECTION - An integrated circuit chip has one or more electrically conductive nano-fibers formed on one or more contact pads of the integrated circuit chip. The one or more electrically conductive nano-fibers are configured to provide an adhesive force by intermolecular forces and establish an electrical connection with one or more contact pads disposed on the surface of a chip package. | 12-18-2008 |
| 20090146320 | FABRICATED ADHESIVE MICROSTRUCTURES FOR MAKING AN ELECTRICAL CONNECTION - An integrated circuit chip has one or more electrically conductive nano-fibers formed on one or more contact pads of the integrated circuit chip. The one or more electrically conductive nano-fibers are configured to provide an adhesive force by intermolecular forces and establish an electrical connection with one or more contact pads disposed on the surface of a chip package. | 06-11-2009 |