Method and device for measuring signals for electrical impedance tomography by using correlation techinique
First Claim
1. A process for measuring the signals for an electric impedance tomography with a correlation technique, the process comprising:
- supplying one pair of electrodes among a plurality of electrodes arranged in an annular pattern on the body with a harmonically time-dependent excitation current of frequency ω
;
multiplying the measured voltage signals ui(t) of the other passive electrode pairs by a signal w(t)·
sin(ω
·
t) or w(t)·
cos(ω
·
t), wherein w is the frequency of the excitation current and w(t) is a window function determining the duration of the measurement interval, by representing the signal w(t)·
sin(ω
·
t) or w(t)·
cos(ω
·
t) in the time interval determined by the window function w(t) by a finite sequence of digital values, and these are sent to the digital input of a DA converter in phase with the harmonic excitation current, while the signals ui(t) are sent to the reference voltage input of the DA converter;
subsequently integrating the signal sent from the DA converter in order to obtain an indicator for the correlation; and
subjecting the analog signal to an AD conversion and sending a resulting digital signal to a computing unit for further processing.
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Accused Products
Abstract
A process for determining the correlation of signals of an electric impedance tomograph, in which one pair of electrodes each among a plurality of electrodes arranged in an annular pattern on the body is supplied with a harmonically time-dependent excitation current of frequency ω, and the measured voltage signals ui(t) of the other passive electrode pairs are multiplied by a signal w(t)·sin(ω·t) or w(t)·cos(ω·t). ω is the frequency of the excitation current and w(t) is a window function, and they are subsequently integrated in order to obtain the real and imaginary parts of the signal ui(t). To avoid a complicated multiplication by w(t)·sin(ω·t) or w(t)ωcos(ω·t) in a digital signal processor, provisions are made for a time interval of the signal w(t)·sin(ω·t) or w(t)·cos(ω·t) to be represented by a finite sequence of digital values and for sending these in phase with the harmonic excitation current of frequency ω to the digital input of a fast DA converter, while the signal ui(t) to is sent to the reference voltage input of the DA converter, after which the analog signal sent from the DA converter is integrated and [sic—Tr.Ed.] the integrated analog signal is subjected to an AD conversion and is sent to a computing unit for further processing.
35 Citations
7 Claims
-
1. A process for measuring the signals for an electric impedance tomography with a correlation technique, the process comprising:
-
supplying one pair of electrodes among a plurality of electrodes arranged in an annular pattern on the body with a harmonically time-dependent excitation current of frequency ω
;
multiplying the measured voltage signals ui(t) of the other passive electrode pairs by a signal w(t)·
sin(ω
·
t) or w(t)·
cos(ω
·
t), wherein w is the frequency of the excitation current and w(t) is a window function determining the duration of the measurement interval, by representing the signal w(t)·
sin(ω
·
t) or w(t)·
cos(ω
·
t) in the time interval determined by the window function w(t) by a finite sequence of digital values, and these are sent to the digital input of a DA converter in phase with the harmonic excitation current, while the signals ui(t) are sent to the reference voltage input of the DA converter;
subsequently integrating the signal sent from the DA converter in order to obtain an indicator for the correlation; and
subjecting the analog signal to an AD conversion and sending a resulting digital signal to a computing unit for further processing. - View Dependent Claims (2)
-
-
3. A device for measuring the signals for an electric impedance tomography with a correlation technique, the process comprising:
-
a device supplying one pair of electrodes among a plurality of electrodes arranged in an annular pattern on the body with a harmonically time-dependent excitation current of frequency ω
;
a memory which contains the sequence of digital values (D0, D1, . . . , DN−
1) representing the signal w(t)·
sin(ω
·
t) or w(t)·
cos(ω
·
t);
an address generator generating the addresses of the digital values in the memory as a function of the harmonic excitation current such that the sequence representing the signal w(t)·
sin(ω
·
t) or w(t)·
cos(ω
·
t) is polled in phase with the excitation current of frequency ω
;
a digital to analog (DA) converter multiplying the measured voltage signals ui(t) of the other passive electrode pairs by the signal w(t)·
sin(ω
·
t) or w(t)·
cos(ω
·
t) polled in phase with the excitation current of frequency ω
;
an analog integrator integrating the output of the DA converter; and
an analog to digital (AD) converter converting the integrated signal, wherein ω
is the frequency of the excitation current and w(t) is a window function determining the duration of the measurement interval. - View Dependent Claims (4, 5, 6, 7)
-
Specification