Stephan W.
Stephan W. Gilges, Portland, OR US
Patent application number | Description | Published |
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20100223085 | MODULARIZATION OF DATA CENTER FUNCTIONS - In one example, a data center may be built in modular components that may be pre-manufactured and separately deployable. Each modular component may provide functionality such as server capacity, cooling capacity, fire protection, resistance to electrical failure. Some components may be added to the data center by connecting them to the center's utility spine, and others may be added by connecting them to other components. The spine itself may be a modular component, so that spine capacity can be expanded or contracted by adding or removing spine modules. The various components may implement functions that are part of standards for various levels of reliability for data centers. Thus, the reliability level that a data center meets may be increased or decreased to fit the circumstances by adding or removing components. | 09-02-2010 |
20120055012 | MODULARIZATION OF DATA CENTER FUNCTIONS - In one example, a data center may be built in modular components that may be pre-manufactured and separately deployable. Each modular component may provide functionality such as server capacity, cooling capacity, fire protection, resistance to electrical failure. Some components may be added to the data center by connecting them to the center's utility spine, and others may be added by connecting them to other components. The spine itself may be a modular component, so that spine capacity can be expanded or contracted by adding or removing spine modules. The various components may implement functions that are part of standards for various levels of reliability for data centers. Thus, the reliability level that a data center meets may be increased or decreased to fit the circumstances by adding or removing components. | 03-08-2012 |
Stephan W. Gilges, Seattle, WA US
Patent application number | Description | Published |
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20130163185 | DATA CENTER DOCKING STATION AND CARTRIDGE - A data center may be built from docking stations, and from removable and replaceable IT cartridges. In one example, a docking station is built that provides cooling capability, and other support capability, for IT equipment. An IT cartridge is coupled to the docking station, thereby allowing the IT equipment in the cartridge to receive cooling and other support from the docking station, without the cartridge having any cooling infrastructure (or without having a substantial cooling infrastructure). Since IT equipment may have a shorter useful life than cooling equipment (or other non-IT equipment), when the IT equipment has reached the end of its useful life, the IT cartridge can be retired, and replaced with a new IT cartridge, thereby allowing the longer-lived equipment in the docking station to be easily reused with new IT equipment. | 06-27-2013 |
Stephan W. Koch, Fronhausen DE
Patent application number | Description | Published |
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20100195675 | Terahertz and millimeter wave source - The present invention relates generally to a terahertz and millimeter wave source, and more particularly, but not exclusively, to structures for coupling the terahertz electromagnetic waves out of the source. | 08-05-2010 |
20130294467 | LASER-BASED SOURCE FOR TERAHERTZ AND MILLIMETER WAVES - A multi-wavelength VECSEL includes an active region comprising a plurality of semiconductor quantum wells having an intrinsically broadened gain with a wavelength selective filter disposed within the cavity to provide a laser output that oscillates at two or more separated wavelengths simultaneously. A non-linear crystal may be provided in the cavity to emit radiation at a frequency in the THz range that is the difference of the frequencies associated with two of the separated wavelengths. | 11-07-2013 |
Stephan W. Wegerich, Geneva, IL US
Patent application number | Description | Published |
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20090037772 | FUZZY CLASSIFICATION APPROACH TO FAULT PATTERN MATCHING - A method and apparatus are provided for diagnosing faults in a monitored system. Estimates of parameter data are generated from the system with reference parameter data characteristic of known behavior of the system. The generated estimates of the parameter data are compared with measured parameter data. A residual is determined for each of the parameters based on a relationship between the estimates of the parameter data and the measured parameter data. A fuzzy classification rule is implemented to determine a likelihood that a predetermined fault exists by using residuals for parameters used to indicate the existence of the predetermined fault. | 02-05-2009 |
20110172504 | Multivariate Residual-Based Health Index for Human Health Monitoring - Ambulatory or in-hospital monitoring of patients is provided with early warning and prioritization, enabling proactive intervention and amelioration of both costs and risks of health care. Multivariate physiological parameters are estimated by empirical model to remove normal variation. Residuals are tested using a multivariate probability density function to provide a multivariate health index for prioritizing medical effort. | 07-14-2011 |
20140107433 | Multivariate Residual-Based Health Index for Human Health Monitoring - Ambulatory or in-hospital monitoring of patients is provided with early warning and prioritization, enabling proactive intervention and amelioration of both costs and risks of health care. Multivariate physiological parameters are estimated by empirical model to remove normal variation. Residuals are tested using a multivariate probability density function to provide a multivariate health index for prioritizing medical effort. | 04-17-2014 |
20140275888 | Wearable Wireless Multisensor Health Monitor with Head Photoplethysmograph - Ambulatory monitoring of human health is provided by a multi-component multi-sensor wireless wearable biosignal acquisition system comprising a torso device and a peripheral device communicating wirelessly, and a mobile phone for receiving collected data and uploading it over cellular network or WiFi to a remote computer for multivariate analysis. Biosignals include EKG and PPG, from which a determination of pulse transit time can be made. | 09-18-2014 |
Stephan W. Wegerich, Glendale Heights, IL US
Patent application number | Description | Published |
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20080215291 | Complex signal decomposition and modeling - A system, method and program product for monitoring a complex signal for ultrasensitive detection of state changes, or for signature recognition and classification is provided. A complex signal is decomposed periodically for empirical modeling. Wavelet analysis, frequency band filtering or other methods may be used to decompose the complex signal into components. A library of signature data may be referenced for selection of a recognized signature in the decomposed complex signal. The recognized signature may indicate data being carried in the complex signal. Estimated signal data may be generated for determination of an operational state of a monitored process or machine using a statistical hypothesis test with reference to the decomposed input signal. | 09-04-2008 |