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Abts
Dennis C. Abts, Chippewa Falls, WI US
| Patent application number | Description | Published |
|---|---|---|
| 20080285562 | FLEXIBLE ROUTING TABLES FOR A HIGH-RADIX ROUTER - A system and method for routing in a high-radix network. A packet is received and examined to determine if the packet can be routed adaptively. If the packet can be routed adaptively, the packet is routed adaptively, wherein routing adaptively includes selecting a column, computing a column mask, routing the packet to the column; and selecting an output port as a function of the column mask. If the packet can be routed deterministically, routing deterministically, wherein routing deterministically includes accessing a routing table to obtain an output port and routing the packet to the output port from the routing table. | 11-20-2008 |
Harry Abts, Oberursel DE
| Patent application number | Description | Published |
|---|---|---|
| 20110008895 | METHODS AND MATERIALS FOR THE REPRODUCIBLE GENERATION OF HIGH PRODUCER CELL LINES FOR RECOMBINANT PROTEINS - The invention lies in the field of production of recombinant gene products in eukaryotic cells. The invention refers to methods and materials for the fast and reproducible generation of production cells lines suitable for large scale production of recombinant gene products. The invention encompasses specific vector systems, genetic engineered host-cells and methods of use. | 01-13-2011 |
Kevin Abts, Omaha, NE US
| Patent application number | Description | Published |
|---|---|---|
| 20100032493 | Precision variable rate irrigation system - A method is described for automatically adjusting the water application rate of an irrigation system which is movable over an agricultural field, comprising the steps of: (a) processing one or more main field layers of geospatial data; (b) generating variable irrigation management zones dependent on the irrigation system in the field; and (c) adjusting water application from the irrigation system dependent on the spatial location of the irrigation system in the field and the underlying processed geospatial field data previously determined. The method may also use the step of utilizing one or more of the field layers to identify at least one optional crop sensor location within the field. The water application rate is adjusted by increasing or decreasing the speed of the irrigation system or by turning the irrigation system on or by turning the irrigation system off. | 02-11-2010 |
| 20100032495 | Environmental and biotic-based speed management and control of mechanized irrigation systems - A system that based on changes in agricultural crop or plant characteristics or dynamics, e.g., heat stress, water deficit stress, stem growth, leaf thickness, plant turgidity, plant color, nutrient composition, etc., or changes in environmental conditions, e.g., temperature, wind, pressure, relative humidity, dew point, precipitation, soil moisture, solar radiation, etc. or a combination of both, e.g., evapotranspiration, either automatically increases or decreases the speed or rate of movement or rotation of a mechanized irrigation system, e.g., center pivot, corner, linear, or lateral move irrigation system or similar, or reports a recommended increased or decreased speed or rate of movement or rotation of a mechanized irrigation system either directly or indirectly to the end user. The system responds directly or indirectly to data outputted from monitoring systems that gather and compile environmental (non-biotic), biotic or similar information from agricultural fields and crops. | 02-11-2010 |