Arnold W.
Arnold W. Evdokimo, Chandler, AZ US
Patent application number | Description | Published |
---|---|---|
20090056050 | MULTIPLE BLADE WINDSHIELD WIPER - A windshield wiper blade assembly has a blade arm to which a blade subassembly is pivotally coupled. The blade subassembly includes a first blade, a second blade, and a third blade located side-by-side. The first and third blades are formed of a scrubbing material for debris and the second blade is formed of a rubber-like material. Movement in a first direction causes engagement with the windshield to exert a force that pivots the blade subassembly into a first position in which the first and second blades contact the windshield and the third blade is spaced from the windshield. Movement in an opposite second direction causes engagement with the windshield to exert another force which pivots the blade subassembly into a second position in which the second and third blades are in contact with the windshield and the first blade is spaced from the windshield. | 03-05-2009 |
Arnold W. Nordsieck, Seattle, WA US
Patent application number | Description | Published |
---|---|---|
20150102661 | Modular Equipment Center Distributed Primary Power Architecture - A plurality of modular equipment centers (MECs) spatially distributed throughout a vehicle servicing equipment loads. Each MEC independently provides localized power and communication to service the equipment loads and each equipment load is serviced by the nearest MEC. In at least one embodiment, only primary power is distributed across section breaks of the vehicle to minimize the number of connections between section breaks, reduce overall vehicle weight, and to increase vehicle build rate. | 04-16-2015 |
Arnold W. Pittler, Ft. Lauderdale, FL US
Patent application number | Description | Published |
---|---|---|
20090144633 | SECURE PAYMENT OF VIRTUAL ITEMS | 06-04-2009 |
20100106525 | SYSTEM AND METHOD FOR REMOTE HEALTH MANAGEMENT - A system for remote health management includes: (a) a communicating management unit; (b) a decision support unit; (c) at least one communication network coupled with at least one of the communicating management unit and the decision support unit; (d) at least one care rendering unit coupled with at least one of the communicating management unit and the decision support unit via a communication network; (e) a plurality of remote communicating units coupled with at least one care rendering entity via a communication network and at least one of the communicating management unit and the decision support unit; at least one of the communicating management unit and the decision support unit participating in selected communications among a selected care rendering entity and a remote communicating unit to present a recommended result based upon a predetermined set of parametric values to effect the remote health management. | 04-29-2010 |
Arnold W. Yanof, Gilbert, AZ US
Patent application number | Description | Published |
---|---|---|
20100045820 | GAIN CONTROLLED THRESHOLD IN DENOISING FILTER FOR IMAGE SIGNAL PROCESSING - An image processing system is disclosed which uses gain information from an input image to determine a threshold value used to filter the input image. The gain information is indicative of the amount of illumination of the input image and thus the noise level. The image processing system includes an image processor, a converter and a filter. The image processor receives and processes first image information into second image information and extracts the gain information from the first image information. The converter converts the gain information into a filter threshold, which is used by the filter to filter the second image information to provide filtered image information. The converter may include a lookup table storing noise characteristic estimates or the threshold values. The threshold values may further be based on subband size. The filter may be a wavelet-based transform denoising filter. | 02-25-2010 |