Signal extraction techniques for time-domain analysis

This paper describes the issues involved in signal design for radio navigation satellite services. The formation of an e!ective signal structure is essential for any such system. However, the process is complex and involves a large number of parameters. It can be hard to identify all e!ects of a giv

Seasonal adjustment is performed in some data-producing agencies according to the ARIMA-model-based signal extraction theory. A stochastic linear process parametrized in terms of an ARIMA model is ®rst ®tted to the series, and from this model the models for the trend, cycle, seasonal, and irregular

A new time-domain technique for determining the radiation Q of an antenna is presented. The time integral of power returning to the antenna from the standing energy field upon source turn off is determined numerically, and is used as a measure of the peak standing energy for Q determination.

Time domain (or low resolution pulse) NMR can generate a range of relaxation curves (CPMG, I-R, P-S, HSE, FID, etc.) which may vary depending on the characteristic of the product being controlledÈwater content, hydration state, solid fat content, iodine number or even authenticity of origin. Very of

## Communicated by D. S. Jones We apply our recently developed distributional technique [2,3] to study time-domain asymptotics. This enables us to present a rigorous mathematical discussion and extensions of the results given by Chapman [1] and subsequent workers in this field. The present analysi

We wished to determine whether evoked force output from a human muscle could be inferred from the amplitude and the frequency of evoked muscular sounds. Sounds from adductor pollicis were recorded with a microphone and compared to evoked force changes produced by varying the intensity of nerve stimu