Farnoush
Farnoush Banaei-Kashani, Los Angeles, CA US
Patent application number | Description | Published |
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20140046593 | Efficient K-Nearest Neighbor Search in Time-Dependent Spatial Networks - The class of k Nearest Neighbor (k NN) queries in spatial networks has been studied in the literature. Existing approaches for k NN search in spatial networks assume that the weight of each edge in the spatial network is constant. However, real-world edge-weights are time-dependent and vary significantly in short durations, hence invalidating the existing solutions. The problem of k NN search in time-dependent spatial networks, where the weight of each edge is a function of time, is addressed herein. Two indexing schemes (Tight Network Index and Loose Network Index) are proposed to minimize the number of candidate nearest neighbor objects and reduce the invocation of the expensive fastest-path computation in time-dependent spatial networks. We demonstrate the efficiency of our proposed solution via experimental evaluations with real-world data-sets, including a variety of large spatial networks with real traffic-data. | 02-13-2014 |
20140108359 | SCALABLE DATA PROCESSING FRAMEWORK FOR DYNAMIC DATA CLEANSING - Methods and systems for reconstructing data are disclosed. One method includes receiving a selection of one or more input data streams at a data processing framework, and receiving a definition of one or more analytics components at the data processing framework. The method further includes applying a dynamic principal component analysis to the one or more input data streams, and detecting a fault in the one or more input data streams based at least in part on a prediction error and a variation in principal component subspace generated based on the dynamic principal component analysis. The method also includes reconstructing data at the fault within the one or more input data streams based on data collected prior to occurrence of the fault. | 04-17-2014 |
Farnoush Parsaie Nasab, Zuerich CH
Patent application number | Description | Published |
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20110207214 | NOVEL TOOLS FOR THE PRODUCTION OF GLYCOSYLATED PROTEINS IN HOST CELLS - The invention improves glycoprotein production and protein glycosylation engineering in eukaryotes, specifically the production of human-like complex or hybrid glycosylated proteins in lower eukaryotes such as yeasts. The invention provides glycosylation modified eukaryotic host cells capable of producing glycosylation optimized proteins useful as immunoglobulins and other therapeutic proteins, and provides cells capable of producing glycoproteins having glycan structures similar to glycoproteins produced in human cell. The invention further provides proteins with human-like glycan structures and novel compositions thereof producible by these cells. | 08-25-2011 |
20130040897 | GLYCOSYLATION OF PROTEINS IN HOST CELLS - The invention provides means and methods for an improved production of glycosylated recombinant proteins in lower eukaryotes, specifically the production of human-like complex or hybrid glycosylated proteins in yeast. The invention provides genetically modified eukaryotic host cells capable of producing glycosylation optimized proteins useful as immunoglobulins and other therapeutic proteins, and provides cells capable of producing glycoproteins having glycan structures similar to glycoproteins produced in human cell. The invention further provides proteins with human-like glycan structures and novel compositions thereof producible by these modified cells. | 02-14-2013 |
Farnoush Salarzaei, Cheshire GB
Patent application number | Description | Published |
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20160035548 | A DDA Experiment with Reduced Data Processing - A method of mass spectrometry is disclosed comprising: | 02-04-2016 |