Amidan

Brett Amidan, Kennewick, WA US

Patent application number	Description	Published
20100225316	METHOD AND APPARATUS FOR ENHANCED IN VIVO MRI IMAGING - A method and apparatus for detecting the presence of abnormal tissues of the present invention utilizing a magnetic resonance imaging system in communication with a computer. The apparatus is configured to define a confidence region using a probability based confidence interval calculation such as multivariate or bivariate analysis for at least two parameters in a normal tissue sample by making a magnetic resonance image, and then to evaluate a second sample by making a magnetic resonance image. Parameters detectable by magnetic resonance imaging	09-09-2010

Patent application number	Description	Published
20100137025	DISTRIBUTED COEXISTENCE SYSTEM FOR INTERFERENCE MITIGATION IN A SINGLE CHIP RADIO OR MULTI-RADIO COMMUNICATION DEVICE - A novel and useful apparatus for and method of distributed coexistence for mitigating interference in a single chip radio and/or a multi-radio (i.e. multi-transceiver) communications device. The invention enables coexistence ‘friendly’ radio IPs having frequency agility in that they are capable of shifting their clock frequencies thereby avoiding frequency bands of potential victim radios. Frequency agility on the aggressor radio side (rather than by mitigating the effect of interference on the victim radio side) prevents harmonics from the aggressor's clock scheme from falling in the operating frequency band of the victim radio, and in turn causing degradation to its performance. Each aggressor radio, based on information received from other radios, configures the root clock frequency of its RX and/or TX chain clock generation circuits.	06-03-2010

Patent application number	Description	Published
20090233646	Interference Cancellation in Sector Antenna - A method of communicating in a cellular network including a multi-sector point to multipoint base station, having a plurality of antennas covering primarily non-overlapping zones. The method includes allocating bandwidth to a subscriber station in each of the zones, which bandwidth is on a single channel, such that if the subscribers were adjacent each other their transmissions on the allocated bandwidth would interfere with each other, transmitting signals from the subscribers to the base station through the antennas of the respective zones in which they are located, on the allocated bandwidth and processing the signals from each of the subscribers so as to cancel interference from others of the subscribers in interpreting the signals by the base station.	09-17-2009