Electrical impedance tomography using a virtual short measurement technique
First Claim
1. An electrical impedance tomography (“
- EIT”
) method for evaluating interior features of a region of a body under test with a plurality of electrodes, said method comprising;
attaching a plurality of electrodes to the region of the body to form an electrode array surrounding the region, wherein each electrode of the plurality of electrodes comprises an electrode pad with at least one voltage lead and one current lead;
designating a first one of the plurality of electrodes as a source electrode, and a second one of the plurality of electrodes as a sink electrode;
establishing a virtual short between said source electrode and all other electrodes of the plurality of electrodes other than said sink electrode, wherein the virtual short is established by maintaining the source electrode and the all other electrodes at a predetermined voltage;
applying a test current to said source electrode;
measuring a sense voltage between said source electrode and said sink electrode; and
repeating the designating, establishing, applying, and measuring steps for different source and sink electrodes in the plurality of electrodes; and
reconstructing an image of the region of the body under test based on the applied test current and the measured sense voltage.
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Accused Products
Abstract
Typical electrical impedance tomography (“EIT”) systems apply current to a body under test and measure the induced voltages on the surface and then through an inverse process, reconstruct an approximation to the electrical conductivity in the interior. The EIT system described herein employs a new approach to evaluating the interior electrical conductivity by using a virtual short that allows both current and voltages to be measured at various locations on the body under test. The architecture of this system is described, distinguishability of embedded conductive anomalies is evaluated, typical error sources associated with a virtual short measurement is discussed in the context of electrical impedance tomography, and a new imaging system is discussed.
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Citations
14 Claims
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1. An electrical impedance tomography (“
- EIT”
) method for evaluating interior features of a region of a body under test with a plurality of electrodes, said method comprising;attaching a plurality of electrodes to the region of the body to form an electrode array surrounding the region, wherein each electrode of the plurality of electrodes comprises an electrode pad with at least one voltage lead and one current lead; designating a first one of the plurality of electrodes as a source electrode, and a second one of the plurality of electrodes as a sink electrode; establishing a virtual short between said source electrode and all other electrodes of the plurality of electrodes other than said sink electrode, wherein the virtual short is established by maintaining the source electrode and the all other electrodes at a predetermined voltage; applying a test current to said source electrode; measuring a sense voltage between said source electrode and said sink electrode; and repeating the designating, establishing, applying, and measuring steps for different source and sink electrodes in the plurality of electrodes; and reconstructing an image of the region of the body under test based on the applied test current and the measured sense voltage. - View Dependent Claims (2, 3, 4, 5)
- EIT”
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6. An electrical impedance tomography (“
- EIT”
) method for evaluating interior features of a region of a body under test, said method comprising;attaching a plurality of electrodes to form an electrode array surrounding the region of the body under test, wherein each electrode of the plurality of electrodes comprises an electrode pad with at least one voltage lead and one current lead; controlling a switching network to designate, from said plurality of electrodes, a source electrode and a sink electrode; maintaining all of said plurality of electrodes, other than said sink electrode, at an identical voltage to establish a virtual short between the source electrode and all other electrodes of the plurality of electrodes except the sink electrode; applying a test current to said source electrode; measuring a sense voltage between said source electrode and said sink electrode; and repeating the controlling, maintaining, applying, and measuring steps for different source and sink electrodes in the plurality of electrodes; and reconstructing an image of the region of the body under test based on the applied test current and the measured sense voltage. - View Dependent Claims (7, 8, 9, 10)
- EIT”
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11. An electrical impedance tomography (“
- EIT”
) system for evaluating interior features of a body under test, said EIT system comprising;a plurality of electrodes configured to be attached to the body under test, each electrode comprises an electrode pad having a voltage lead and a current lead, wherein each electrode pad is configured to be attached to the body; a switching network coupled to said plurality of electrodes, said switching network being configured to designate a first one of said plurality of electrodes as a source electrode, to designate a second one of said plurality of electrodes as a sink electrode, and to establish a virtual short between said source electrode and all other electrodes of said plurality of electrodes other than said sink electrode, wherein the virtual short is established by maintaining the source electrode and the all other electrodes at a predetermined voltage; a current source coupled to said plurality of electrodes, said current source being configured to apply a test current to said source electrode, said test current producing a sense voltage between said source electrode and said sink electrode; a voltage measurement element coupled to the switching network, wherein the voltage measurement element is configured to measure the sense voltage between the source electrode and the sink electrode; an EIT processing unit coupled to said switching network, said EIT processing unit being configured to process test currents and corresponding sense voltage measurements generated in response to test currents; and wherein the switching network controls the current source and the voltage measurement element to repeat the designating, maintaining, applying, and measuring steps for different source and sink electrodes in the plurality of electrodes; and a display unit for displaying an image of the body under test, the image being created based on the applied test current and the measured sense voltage. - View Dependent Claims (12, 13, 14)
- EIT”
Specification