Abstract: Disclosed are systems and methods for generating graphical displays of analyte data and/or health information. In some implementations, the graphical displays are generating based on a self-referential dataset that are modifiable based on identified portions of the data. The modified graphical displays can indicate features in the analyte data of a host.

Abstract: Disclosed are systems and methods for generating graphical displays of analyte data and/or health information. In some implementations, the graphical displays are generating based on a self-referential dataset that are modifiable based on identified portions of the data. The modified graphical displays can indicate features in the analyte data of a host.

Abstract: A system and method of estimating radio frequency (RF) background noise in a radio receiver system comprises determining a total receiver front-end noise based on a noise equivalent receiver bandwidth; estimating external noise associated with the radio receiver system; determining internal noise associated with the radio receiver system from a known noise value; combining the external noise with the internal noise; determining an absolute external (RF) background noise floor associated with the radio receiver system; estimating an out of band noise contribution based on radio receiver selectivity and known received noise levels of out of band sources; and generating a (RF) noise estimate in the radio receiver system based on the above steps. The invention utilizes the (RF) noise estimate to form a (RF) receiver signal to noise ratio enabling an estimate performance of (RF) radio links in the radio receiver system operating in a benign and hostile (RF) environment.

Abstract: A process for accurately predicting the effects of a sweep jammer signal, ose waveform is given, on a targeted radio receiver communication link whose signaling curve is known. The process analyzes the critical physical and electrical characteristics of both the sweep jamming signal and the targeted radio receiver, and determines whether the sweep jammer signal is perceived by the receiver as being a sweep jammer, a barrage jammer, or something in between the two. Moreover, the process determines the jamming signal's effect on the receiver's peak and background Bit Error Rates which are then used to accurately calculate the sweep jamming signal's effect on the average Bit Error Rate.