A process and apparatus for measuring the catheter fluid pressure of a patient wherein a pressure transducer is used to convert the pressure into an electrical signal and a pressure indicator indicates the pressure corresponding to the electrical signal. A turnable active filter is disposed in the signal path between the transducer and the pressure indicator and the frequency parameters of the filter are adapted to that of the catheter in real time.

The invention relates to a method for the correction of measured value falsifications in invasive pressure measurements with a fluid-filled system, in which the measured pressure is passed via the fluid-filled system to an external pressure transducer, which converts the pressure signal into an electrical signal. To provide a method and a device for invasive pressure measurement with fluid-filled systems which are improved with respect to the correction of measured value falsifications, are cost-effective and versatile in their use, the electrical signal is passed through an analog/digital converter and the digitized signal is fed to a signal analyzing and processing unit, which operates on the basis of a digital Fourier analysis. Furthermore, a heartbeat-related or segmental analysis is carried out and the signal is combined with empirically determined correction data on the basis of the analysis. The correction data are emitted as Fourier coefficients and the signal corrected by the signal analyzing and processing unit is passed to an output and/or evaluating unit.

Method for determining, monitoring and updating correction data for correcting measured value distortions and for calibrating liquid-filled transmission systems, via which signals from the patient detected in the body of a patient are transmitted to an external measured value receiver, in particular for invasive pressure measurements in cardiology, intensive care medicine and anaesthesia. The correction data are determined in the frequency range for each frequency from statistics of the signals from the patient measured at this frequency, in particular from the transmission function obtained from the signal from the patient. In the determination of the correction data, empirically checked assumptions about the corresponding statistics of undistorted signals from the patient and general properties of the transmission function are used.

The present invention is a method and apparatus for providing anti-jam protection for GPS receivers. The anti-jam system of the present invention may require less space and less power than conventional anti-jam systems. The anti-jam circuitry of the present invention may provide anti-jam protection while reducing the number of high-power usage components and integrating the components into an overall reduced form factor. Complex signal processing may be avoided whereby hardware manipulations are handled by hardware components rather than a digital signal processor.

Methods and systems for operating a disposable transducer or other disposable apparatus, which may be subject to sterilization inimical to that disposable apparatus, determine parameters required for operation of the disposable apparatus and provide a record of that determined parameters on the disposable apparatus. These parameters are subsequently derived by machine-reading the record on the disposable apparatus in order to operate that disposable apparatus. The mentioned record may be made destructible by resterilization and the machine-reading and the operation of the disposable apparatus may be rendered impossible upon resterilization of that apparatus by destroying the mentioned record by said resterilization.