Lanahan
James W. Lanahan, San Jose, CA US
Patent application number | Description | Published |
---|---|---|
20140122985 | SYSTEM AND METHODS FOR AUTOMATIC MEDIA POPULATION OF A STYLE PRESENTATION - A method for automatic media population of a style presentation comprises collecting presentation media; positioning the collected presentation media on a storyboard; and selecting a style presentation; wherein the selection of the style presentation results in the automatic population of the style presentation with the presentation media positioned on the storyboard is described herein. | 05-01-2014 |
Matthew C. Lanahan, East Fairfield, VT US
Patent application number | Description | Published |
---|---|---|
20130315022 | MULTI-BANK RANDOM ACCESS MEMORY STRUCTURE WITH GLOBAL AND LOCAL SIGNAL BUFFERING FOR IMPROVED PERFORMANCE - Disclosed are embodiments of a multi-bank random access memory (RAM) structure that provides signal buffering at both the global and local connector level for improved performance. Specifically, inverters are incorporated into the global connector(s), which traverse groups of memory banks and which transmit signals (e.g., address signals, control signals, and/or data signals) from a memory controller, and also into alternating groups of local connectors, which connect nodes on the global connector(s) to corresponding groups of memory banks, such that any of the signals that are received by the memory banks from the memory controller via the global and local connectors are buffered by an even number of inverters and are thereby true signals. Signal buffering at both the global and local connector level results in relatively fast slews, short propagation delays, and low peak power consumption with minimal, if any, increase in area consumption. | 11-28-2013 |
Michael Lanahan, Cary, MA US
Patent application number | Description | Published |
---|---|---|
20130269061 | METHODS AND COMPOSITIONS FOR PROCESSING BIOMASS WITH ELEVATED LEVELS OF STARCH - Genetically engineered plants having altered levels of one or more starch regulation enzymes and a polysaccharide degrading enzyme are provided. Methods of genetically engineering plants to express products altering expression of one or more starch regulation enzymes and polysaccharide degrading enzymes, and genetic constructs are provided. Methods of agricultural processing and animal feed using the genetically engineered plants are described. | 10-10-2013 |
20130318656 | PLANTS WITH ALTERED LEVELS OF VEGETATIVE STARCH - Vectors for altering the expression of one or more starch regulation enzymes are provided. Methods of transformation of plant tissues to express elements altering expression of one or more starch regulation enzymes, and resulting transgenic plants are provided. Methods of using the transgenic plants are provided. | 11-28-2013 |
Michael B. Lanahan, Cary, NC US
Patent application number | Description | Published |
---|---|---|
20090119800 | METHODS FOR INCREASING STARCH CONTENT IN PLANTS - Methods and compositions for increasing the starch content in green tissues of a plant are provided. The method comprises down-regulating me activity of starch degradation enzymes in a plant. The resulting transgenic plants of the invention have increased starch content in green tissues and exhibit a starch excess phenotype. In one embodiment the method involves manipulating a monocot plant to down-regulate the activity of a starch degradation enzyme. The plants are useful for improving the yield of free sugars from plant biomass and increase dried green tissue storage stability. | 05-07-2009 |
20090205080 | CHLAMYDOMONAS GLUCAN DIKINASE GENE, ENZYME AND MODIFIED STARCH, USES, METHODS FOR PRODUCTION THEREOF - The present invention relates the nucleotide sequence from | 08-13-2009 |
20090288232 | SELF PROCESSING PLANTS AND PLANT PARTS - The invention provides polynucleotides, preferably synthetic polynucleotides, which encode processing enzymes that are optimized for expression in plants. The polynucleotides encode mesophilic, thermophilic, or hyperthermophilic processing enzymes, which are activated under suitable activating conditions to act upon the desired substrate. Also provided are “self-processing” transgenic plants, and plant parts, e.g., grain, which express one or more of these enzymes and have an altered composition that facilitates plant and grain processing. Methods for making and using these plants, e.g., to produce food products having improved taste and to produce fermentable substrates for the production of ethanol and fermented beverages are also provided. | 11-19-2009 |
20090320831 | SELF PROCESSING PLANTS AND PLANT PARTS - The invention provides polynucleotides, preferably synthetic polynucleotides, which encode processing enzymes that are optimized for expression in plants. The polynucleotides encode mesophilic, thermophilic, or hyperthermophilic processing enzymes, which are activated under suitable activating conditions to act upon the desired substrate. Also provided are “self-processing” transgenic plants, and plant parts, e.g., grain, which express one or more of these enzymes and have an altered composition that facilitates plant and grain processing. Methods for making and using these plants, e.g., to produce food products having improved taste and to produce fermentable substrates for the production of ethanol and fermented beverages are also provided. | 12-31-2009 |
Michael B. Lanahan, Research Triangle Park, NC US
Patent application number | Description | Published |
---|---|---|
20080289066 | Self-Processing Plants and Plant Parts - The invention provides polynucleotides, preferably synthetic polynucleotides, which encode processing enzymes that are optimized for expression in plants. The polynucleotides encode mesophilic, thermophilic, or hyperthermophilic processing enzymes, which are activated under suitable activating conditions to act upon the desired substrate. Also provided are “self-processing” transgenic plants, and plant parts, e.g., grain, which express one or more of these enzymes and have an altered composition that facilitates plant and grain processing. Methods for making and using these plants, e.g., to produce food products having improved taste and to produce fermentable substrates for the production of ethanol and fermented beverages are also provided. | 11-20-2008 |
Samuel Lanahan, Portland, OR US
Patent application number | Description | Published |
---|---|---|
20110271633 | STRUCTURED ARRAYS AND ELEMENTS FOR FORMING THE SAME - A plurality of structural members configured to be coupled together to form an array. Each structural member includes a top portion having a plurality of top extending members spaced apart from one another and a bottom portion having a plurality of bottom extending members spaced apart from one another. The top extending members and bottom extending members can be vertically offset from each other. The top portion of each structural member can be coupled to the bottom portion of another structural member, and each top extending member of a structural member can be coupled to a bottom extending member of another structural member. | 11-10-2011 |
Samuel J. Lanahan, Portland, OR US
Patent application number | Description | Published |
---|---|---|
20090263615 | Structured Polyhedroid Arrays and Ring-Based Polyhedroid Elements - An array comprises a plurality of ring elements and a plurality of mortar elements. The ring elements comprise polyhedroids interconnected to one another to form a closed ring shape, with the polyhedroids having a generally polyhedral shape. The mortar elements are configured to connect ring elements to each other. | 10-22-2009 |
William D. Lanahan, Marlboro, NJ US
Patent application number | Description | Published |
---|---|---|
20080294780 | AUTOMATED ADJUSTMENT OF IP ADDRESS LEASE TIME BASED ON USAGE - A method is provided for predicting and/or setting a lease time for packet-switched data communication network resources based on historical usage data of a network system provider subscriber. The packet-switched data communication network resources may include, but are not limited to, IP addresses and bandwidth. As a result, network resources may be allocated more prudently and network traffic may be reduced. | 11-27-2008 |