Verdoorn
Todd A. Verdoorn, Minneapolis, MN US
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20110190621 | Methods and Systems for Regional Synchronous Neural Interactions Analysis - Systems and methods for quantifying neurophysiologic activity of a subject. A set of subject data representing a time series of neurophysiologic activity acquired by each of a multiplicity of spatially distributed sensors arranged to detect neural signaling in the subject is received. A time series of data obtained from each of the sensors is associated with a corresponding neural population within the brain of the subject. Interaction sets among at least two neural populations in the brain of the subject are determined based on a statistical analysis of a plurality of time series of data from a corresponding plurality of sensors. A plurality of regional groupings of neural populations is stored, with each one of the plurality of regional groupings encompassing a plurality of neural populations having a predefined relationship. An aggregated representation of cross-regional interactions between the neural populations across a selected plurality of the regional groupings is produced based on a selected subset of the interaction sets. | 08-04-2011 |
Werner Verdoorn, Fuerstenfeldbruck DE
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20100031905 | Exhaust System for an Internal Combustion Engine - An exhaust system has first and second exhaust gas turbochargers for a V-8 internal combustion engine. A first cylinder bank includes four cylinders arranged in series side-by-side, and a second cylinder bank situated opposite the first cylinder bank includes the other four cylinders arranged in series side-by-side. The internal combustion engine has an ignition sequence of a 90° crank angle from one cylinder to the next. The exhaust system includes a first, a second, a third and a fourth exhaust line from the cylinders to the two exhaust gas turbochargers, with two cylinders respectively being assigned to an exhaust line. One exhaust turbocharger is respectively assigned to two exhaust lines. The two cylinders assigned to an exhaust line having an ignition interval of a 360° crank angle. The first and the second exhaust lines assigned to an exhaust gas turbocharger having an ignition sequence displaced with respect to one another by a 180° crank angle. As a result, the opening phase of the charge cycle intake valves can be prolonged, which leads to a significantly higher power of the internal combustion engine. | 02-11-2010 |
Werner Verdoorn, Furstenfeldbruck DE
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20080289323 | Exhaust Gas System - An exhaust gas system for an internal combustion engine, in particular a motor vehicle engine, is provided having, in one form, two cylinder banks arranged at an acute angle to one anther and each having at least one exhaust gas outlet, a so-called V-engine, having exhaust gas guide elements arranged in the region of the inner angle, including a housing surrounding the exhaust gas outlets of both cylinder banks in a gas tight manner and having at least one exhaust gas outlet opening is characterized in that the housing is made in two parts, with a first part which is connected to the one cylinder bank and surrounds its exhaust gas outlets and with a second part which is connected to the other cylinder bank and surrounds its exhaust gas outlets; in that the two parts each have a side facing the other part and having at least one housing opening via which the two parts communicate with one another; and in that an expansion compensation element is arranged between the two parts and surrounds the housing opening of the two parts in a gas tight manner. | 11-27-2008 |
William Garrett Verdoorn, Rochester, MN US
Patent application number | Description | Published |
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20080313369 | MULTI-NODE CONFIGURATION OF PROCESSOR CARDS CONNECTED VIA PROCESSOR FABRICS - Provided is a system comprising a first node comprising a plurality of processor cards each including a processor fabric, wherein the processor cards in the first node connect via their processor fabrics; a second node comprising a plurality of processor cards each including a processor fabric, wherein the processor cards in the second node connect via their processor fabrics; and a plurality of communication interfaces, wherein each interface connects one processor card in the second node to one processor card in the first node to enable communication between the connected processor cards to coordinate processor operations between the connected processor cards in the first and second nodes. | 12-18-2008 |