Apparatus and method for topographic display of multichannel EEG data
First Claim
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1. A system for displaying input data derived from the electrical activity of the brain comprising a source of multichannel input data signals derived from a plurality of brain electrical activity sensors and a video display for providing a topographic display at a display rate of at least one frame per second, the number of display elements within each frame being at least an order of magnitude greater than the number of sensors, the system further comprising:
- an electronic interpolator for receiving the multichannel input data signals from the source of multichannel input data signals at a rate at least as great as the display rate and operating on the data signals to generate expanded display data signals, the expanded display data signals being a weighted combination of input data signals from selected electrodes for each element of the display, the interpolator including means for generating a fresh set of display data signals after receiving a fresh set of input data signals at a rate at least as great as the display rate; and
display circuitry for providing a topographic display of the expanded display data signals.
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Abstract
In a system for displaying multichannel EEG data, data values received from a matrix of EEG electrodes are stored in a random access memory. Digital values to be displayed are interpolated from the input values by addressing selected ones of the inputs from memory, multiplying those inputs by predetermined coefficients taken from a coefficient memory and summing the products. Each element of the display can be determined in that way within one frame time of the display apparatus. The data can be interpolated in real time for a flicker free display at a rate of over 25 frames per second. By displaying separate values associated with each display element as a distinct color, the dimensionality of the display can be increased. The numeric matrix which underlies the expanded topographic display can be stored digitally and further utilized in further operations and displays.
30 Citations
18 Claims
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1. A system for displaying input data derived from the electrical activity of the brain comprising a source of multichannel input data signals derived from a plurality of brain electrical activity sensors and a video display for providing a topographic display at a display rate of at least one frame per second, the number of display elements within each frame being at least an order of magnitude greater than the number of sensors, the system further comprising:
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an electronic interpolator for receiving the multichannel input data signals from the source of multichannel input data signals at a rate at least as great as the display rate and operating on the data signals to generate expanded display data signals, the expanded display data signals being a weighted combination of input data signals from selected electrodes for each element of the display, the interpolator including means for generating a fresh set of display data signals after receiving a fresh set of input data signals at a rate at least as great as the display rate; and display circuitry for providing a topographic display of the expanded display data signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A system for displaying data derived from the electrical activity of the brain comprising a source of multichannel input data signals derived from a plurality of brain electrical activity sensors in a sensor matrix, signal processing electronic circuitry, and a video display for displaying a topographic map of the display data, the topographic display comprising a display matrix of a plurality of display elements, the number of display elements being an order of magnitude greater than the number of sensors, the signal processing electronic circuitry comprising:
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a digital random access data memory for storing an input data signal from each sensor matrix as an addressable data word; a pointer generator for generating a set of addresses of predetermined data words in the data memory for each element of the display matrix; data memory access circuitry for receiving the addresses generated by the pointer generator and accessing the predetermined data words; a coefficient generator for generating a predetermined coefficient associated with each data word accessed by the access circuitry; and a display data generator for multiplying each accessed data word for each element of the display matrix with its associated coefficient and summing the resultant products to provide a display data signal for that element of the display. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A system for displaying data derived from the electrical activity of the brain in a display comprising successive frames of a plurality of display elements, the system comprising a source of multichannel input data signals derived from a plurality of electrical brain activity sensors in a matrix and a video display for providing a topographic display, the number of display elements within each frame of the display being an order of magnitude greater than the number of sensors, the system further comprising:
an interpolator circuit for receiving the multichannel input data signals and generating interpolated output data signals, the interpolated output data signal Zp for each display element being generated by the interpolator circuit from three coefficients C1, C2 and C3 and three input data signals Z1, Z2, Z3 associated with three sensors and displayed nearest to the generated output data signal the interpolator circuit comprising coefficient generating means for generating the coefficients as a function of the X and Y co-ordinates of those three electrodes as follows;
space="preserve" listing-type="equation">Zp=(C1×
Z1)+(C2×
Z2)+(C3×
Z3)
space="preserve" listing-type="equation">C1=((Xp×
(Y2-Y3)+X2×
(Y3-Yp)+X3×
(Yp-Y2))/DELTA
space="preserve" listing-type="equation">C2=((X1×
(Yp-Y3)+Xp×
(Y3-Y1)+X3×
(Y1-Yp))/DELTA
space="preserve" listing-type="equation">C3=((X1×
(Y2-Yp)+X2×
(Yp-Y1)+Xp×
(Y1-Y2))/DELTA
space="preserve" listing-type="equation">DELTA=X1×
(Y2-Y3)+X2×
(Y3-Y1)+X3×
(Y1-Y2).
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17. A method of displaying multi-channel data derived from the electrical activity of the brain at a display rate of at least one frame per second, the number of display elements within an expanded display matrix of each display frame being an order of magnitude greater than the number of channels of input data, the method comprising:
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precomputing, for a particular input matrix of multichannel input data signals and for each individual display element of the expanded display matrix, coefficients for use in generating the expanded display matrix of display signals, and storing the precomputed coefficients in an electronic coefficient memory; providing multichannel input data signals; storing the multichannel input data signals in an electronic data memory; for each display element of the expanded matrix, generating a set of data memory addresses of input data signals; accessing the input data signals at the generated addresses; electronically generating expanded display data for each display element of the expanded display matrix as a weighted combination of the accessed input data signals and corresponding coefficients stored in the coefficient memory, the expanded display matrix being generated at a rate at least as great as the display rate; and displaying the expanded display matrix. - View Dependent Claims (18)
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Specification
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Current AssigneeNicolet Instrument Corporation
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Original AssigneeBraintech, Inc.
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InventorsCulver, Norman D.
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Primary Examiner(s)Kamm, William E.
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Application NumberUS06/221,830Time in Patent Office1,063 DaysField of Search128/731US Class Current600/544CPC Class CodesA61B 5/369 Electroencephalography [EEG...A61B 5/374 Detecting the frequency dis...A61B 5/742 using visual displays A61B5...A61B 5/743 Displaying an image simulta...
