CN1081780A - Computer processing system for electro-biohologram diagnosis - Google Patents

Abstract

Computer processing system for electro-biohologram diagnosis belongs to computer data image processing technique field.The present invention includes information collecting device, interface board, microcomputer main frame and monitor, printer etc., computer program mainly comprises collecting test voltage V, calculate R, R, r, r, carry out differentiation district, cave, form the tOy coordinate system with test duration t and y and draw wire frame, make the parallel lines of t axle in the frame, relatively the multiple size of multiple, r and the r of R and R, judge then, show and be printed as figure.Diagnosis effect of the present invention is reliable, and is easy to operate.

Description

Computer processing system for electro-biohologram diagnosis

The present invention relates to a kind of computer processing system, is the computer system that the ECIWO (Embryo Containing the Information of the Whole Organism) electrograph carries out visual display process for biological holographic electrogram particularly, belongs to computer data image processing technique field.

Existing medical diagnostic equipment such as CT, nuclear magnetic resonance diagnosis instrument, electrocardiograph, electroencephalograph etc. all can only be diagnosed a certain position of human body of appointment.When can not determine disease sites, or a certain position of human body is not under a cloud when focus is arranged, and then this position just can not diagnosed.87101319.3 number patent provides a kind of biological holographic electrogram diagnostic instrument, can diagnose at second metacarpal bone segmental appendage or other arbitrary long bone segmental appendages of staff, obtain a cave district-potential curve that can reflect each position physiological and pathological situation of whole body, curve can judge that each position of whole body has or not pathology thus.This curve is ECIWO (Embryo Containing the Information of the Whole Organism) electrograph (electroeciwogram) by example sentence, sees the 55th page of Zhang Yingqing work " ECIWO (Embryo Containing the Information of the Whole Organism) and medical application thereof " (English edition) book.

What in above-mentioned patent the analyzing and processing of ECIWO (Embryo Containing the Information of the Whole Organism) electrograph is used is that the retractable holographic acupuncture point scale made from elastomeric material carries out.When analyzing and processing, to carry out stretched operation, with the passing of time can make each position elasticity inequality of chi, directly impact analysis result's accuracy this chi.Therefore used the holographic acupuncture point positioning rule that No. 88219544.1 patent provided instead, though this chi has been avoided above-mentioned shortcoming, but still needed manual operations and artificial judgment, it is not quite convenient to use.

The present invention aims to provide a kind of computer processing system, can carry out MICROCOMPUTER PROCESSING to the measured ECIWO (Embryo Containing the Information of the Whole Organism) electric signal of biological holographic electrogram diagnostic instrument, and judges the health status at each position of whole body, the result is shown on computer display and or printing.

Computer processing system for electro-biohologram diagnosis of the present invention mainly comprises signal pickup assembly, and interface board contains the computing machine and the monitor of software program, the print record device, as shown in Figure 1.Test processes result is three figure subregion ECIWO (Embryo Containing the Information of the Whole Organism) electrographs arranged side by side.Said three figure are meant the holographic-embryo acupoint regions figure (as second metacarpal bone segmental appendage holographic-embryo acupoint regions figure) of a long bone segmental appendage of human body, human dissection profile diagram, ECIWO (Embryo Containing the Information of the Whole Organism) electrograph.Three figure are all with the relative scale subregion in each cave district of holographic-embryo acupoint regions figure, and stamp "+" in corresponding district and represent that promptly there is the lesion in the positive reaction district, stamp "-" expression negative reaction district and promptly do not have the lesion, perhaps stamping " ++ " expression reinforcing yin essence reaction zone is seriously ill district, does not beat any mark and represents suspicious district.

The signal pickup assembly of computer processing system of the present invention is in the sliding electrode system and skin electrical testing system-based of No. 87101319.3 patents, done the improvement that adapts with computer processing system, mainly contain and turn shape electrode test probe, motor, backguy, photoelectric tube and the composition of circuit correspondingly, as shown in Figures 2 and 3.The test probe below is provided with a photoemission cell, the mouth of pipe is downward, bore 1-5mm, below slide block, parallel and establish a flat board with the slide block traffic direction, vertically be provided with on it two groups of four photoelectric receiving tubes in a straight line that the slide block traffic direction parallels on, photoelectric tube under this straight line and the probe is on same vertical plane, and four photoelectric tube mouths of pipe make progress bore 1-5mm.Every group of two adjacent photoelectric tube are fixed together at a distance of 10-15mm, and the distance between two groups between adjacent two photoelectric tubes is regulated by screw rod or backguy, is generally 45-80mm.Be loaded with the slide block that turns the shape electrode by motor-driven backguy be pulled in do on the guide rail with the guide rail parallel direction on motion.

The photoelectric tube of its below sends infrared beam during slide block movement, and when this light beam irradiates during to the relative photoelectric receiving tube in its below, photoelectric receiving tube promptly sends control signal, thereby this photoelectric receiving tube becomes optoelectronic switch.When surveying right hand second metacarpal bone segmental appendage, photoelectric tube 11 is shutdown switches of slide block operation, guarantee that slide block stops on test beginning 10～15mm position before, at this moment photoelectric tube 12 is the initial gauge tap of signals collecting, in service when just in time relative with photoelectric receiving tube 12 when the photoelectric tube on the slide block 10, the test probe that turns the shape electrode just in time places the initial test position in the neck cave district of second metacarpal bone side.Photoelectric tube 13 is that signals collecting stops and the slide block gauge tap that runs abort, in service when just in time relative with photoelectric receiving tube 13 when photoemission cell 10, the test probe that turns the shape electrode just in time places under the second metacarpal bone flank, the end of test position in sacrum, leg foot cave district.Because the distance between the photoelectric tube 12 and 13 is adjustable, thereby the testing length of the test probe operation of turning the shape electrode can be varied with each individual, though everyone second metacarpal bone segmental appendage length difference, but all begin acquired signal at the neck cave district of second metacarpal bone side distal end portion, and under the abdomen of second metacarpal bone side, sacrum, leg foot cave district proximal end stops acquired signal.When surveying left hand second metacarpal bone side, then change the function of each photoelectric receiving tube by a switch, at this moment, the photoelectric tube 11,12,13 when photoelectric tube 14,13,12 replaces respectively surveying the right hand.

The main composition that is provided with of circuit is in signal pickup assembly, and test loop is by 3-9V constant voltage dc source 15, and resistance value is R ₀Resistance 16, turn the test probe 17 that the shape electrode contacts with human body skin, form by the reference electrode 18 that measured's hand pinches, circuit diagram is seen Fig. 3.The signal that test receives is the voltage V between probe 17 and the reference electrode 18 _x, the resistance R at measured this position this moment _xTry to achieve by following formula:

$R_x=\frac{V_x}{V_0{\mathrm{-V}}_x}{R}_0$

V wherein ₀Be the voltage that D.C. regulated power supply provides.

The interface board of computer processing system of the present invention mainly comprises 19, two wave filters of amplifier 20,21, analog to digital converter 22, and it connects as shown in Figure 3.Amplifier provides very high input impedance, to guarantee the being unlikely disturbed test loop when extracting signal.Two wave filters filter radio signal and 50HZ AC signal respectively, and analog to digital converter is a digital signal with the analog signal conversion that records.Interface board is the plug-in unit that connects signal pickup assembly and main frame, and its input end links to each other with the output terminal of signal pickup assembly by cable, and its output terminal inserts in the host bus expansion slot, takies eight bus ducts of a standard A T.

Computer processing system software program of the present invention is mainly conceived as follows:

I. the magnitude of voltage V that collecting test arrives, when test probe moves to second metacarpal bone side neck cave district distal end portion, control signal by initial control photoelectric tube starts, (τ can get a certain fixed value between 1～10 millisecond to begin at regular intervals τ, as 2 milliseconds) gather the potential value of a test macro output terminal, the magnitude of voltage that records is followed successively by V ₁, V ₂, V _nWhen test probe runs under the second metacarpal bone flank, during sacrum, leg foot cave district proximal end, signals collecting stops optoelectronic switch and provides the signal terminating acquired signal.Beginning to stopping the used time from signals collecting is T, and the voltage data number that collects is T/ τ.

II. the voltage signal V that will record every bit is scaled resistance value R, and conversion formula is R _n=V _nR ₀/ (V ₀-V _n), and calculate the average electrical resistance R of each measured point,

III. calculate second metacarpal bone side each point with respect to the rate of change r of neighbor point to the low resistance direction, formula is r _n=(R _n-R _N-1)/(R _N-1), if r wherein _n＜0, by looking r _nBe 0; And r _n=(R _N-1-R _n)/(R _n), wherein, work as r _n＜0, then look r _n=0.And calculate the average rate of change r to the low resistance direction of each measured point,

IV. draw three figure arranged side by side.Staff second metacarpal bone side holographic-embryo acupoint regions figure, relevant human body block plan, the ECIWO (Embryo Containing the Information of the Whole Organism) electrograph of subregion.As shown in Figure 5.The length ratio that hole pressing district holographic law and holographic embryo theory (seeing Zhang Yingqing work " holobiology " first volume 59-61 page or leaf) are determined, second metacarpal bone side arranged side by side and human dissection profile diagram are divided into corresponding some districts with number, as 15 districts, 10 districts or 5 districts.Generally being divided into 5 districts, is A. neck district successively, back of the body district, B. lung ambition, and the C. liver and stomach area, D. waist regiones mesogastrica is under the E. abdomen, sacrum, legs and feet area; Above-mentioned 5 section length ratios are A: B: C: D: E=(1.3-1.7): (2.15-2.55): (2.15-2.55): (1.9-2.3): (2.3-2.7).Optimal proportion is A: B: C: D: E=1.5: 2.35: 2.35: 2.1: 2.5.At the other rectangle ECIWO (Embryo Containing the Information of the Whole Organism) electrograph wire frame of drawing side by side of human anatomy picture, the top of wire frame and the right and intersection point O thereof are coordinate system tOy.Wire frame the right is the t axle, and its length overall T represents that biological holographic electrogram diagnostic instrument turns the initial back of moving of shape electrode from beginning acquired signal to the T.T. that stops acquired signal, and in coordinate system tOy, y is corresponding R of each test moment _n, y=f(t).In coordinate system tOy, mark each test R constantly _nValue, and adjacent 2 connections are whenever then drawn the y=f(t that reflects second metacarpal bone side each point resistance value) curve.In the wire frame from top to bottom in the relative length ratio subregion in each cave district of second metacarpal bone side.In three figure arranged side by side, corresponding subregion separator bar links to each other.

In ECIWO (Embryo Containing the Information of the Whole Organism) electrograph wire frame, also with 1 times, 2 times of R ... n doubly with t axle parallel scribing.Each R value in a certain district in the wire frame is if R＞m R(m is certain value of m≤5), then print "-" in this district; If m were R 〉=R＞P R, then would not do not print any symbol; As R≤p R, then print "+" in this district, m, p are positive number, m=3 for example, p=5 sees Fig. 5.

Also can be with r value trace in wire frame, at this moment the wire frame left side is the t axle of tOy coordinate system, y is each test corresponding resistance change rate r to the low resistance direction constantly, y=f(t).At this moment the vertical grid line in the wire frame then is the integral multiple of r, sees Fig. 6.At this moment ECIWO (Embryo Containing the Information of the Whole Organism) electrograph curve is reflecting that the resistance of second metacarpal bone side each point is with respect to the rate of change of neighbor point to the low resistance direction.Each r value in a certain district, certain value when r＜q r(q≤5) time, then should print "-" in the district; When q r≤r＜s r(s is certain value of 3≤s≤10) time, any symbol then do not printed; As r 〉=s r, then should print "+" in the district; Q, s are positive number, q=3 for example, s=5.

V. set up database.In database, can store the V measured to each case.Can retrieve by several forms such as case number, date, names.After accessing the V value that a certain case stores, still can be by above-mentioned IV program display, perhaps with original V value curve, the R value curve and the demonstration simultaneously in three wire frames arranged side by side of r value curve that convert and obtain, as Fig. 7.

VI. with three figure parallel test diagnostic results that in the program IV, obtain or the result who from database, accesses, both can on the microcomputer monitor screen, show, also can come out with the printer prints that links to each other with computing machine.

The invention will be further described below by description of drawings.

Fig. 1 is a computer processing system synoptic diagram of the present invention.Wherein, 1. signal pickup assembly, 2. interface board 3. contains the microcomputer main frame of computer program, 4. microcomputer monitor, 5. print record device.

Fig. 2 is a signal pickup assembly synoptic diagram of the present invention, wherein, and 6. test probe slide block, 7. motor, 8. backguy, 9. guide rail, 10. photoemission cell, 11-14 photoelectric receiving tube.

Fig. 3 is that signals collecting main circuit and interface board circuit connect synoptic diagram, wherein, and 15. constant voltage dc sources, 16. resistance R ₀, 17. test probes, 18. reference electrodes, 19. amplifiers, 20-21, wave filter, 22. analog to digital converters.

Fig. 4 is a computer processing system software block diagram of the present invention, wherein,

23. beginning acquired signal;

24. equal time τ gathers magnitude of voltage V at interval ₁, V ₂..., V _n;

25. acquired signal stops, the shared time is T;

26. database is gone in storage;

27. the drafting rectangular wire frame, ordinate length is T, reaches the standard grade to be the y axle, y=f(t);

28. staff second metacarpal bone side and human dissection profile diagram hole pressing district holographic law are carried out subregion, and separator bar links to each other, A: B: C: D: E=1.5: 2.35: 2.35: 2.1: 2.5;

Calculate: R _n=V _nR ₀/ (V ₀-V _n), , r _n=(R _n-R _N-1)/R _N-1And r _n=(R _n-R _N-1)/R _N-1,

29. R or r each point are linked to be curve; Simultaneously, in wire frame, make the parallel lines of t axle with R or r multiple; Relatively judge: and print "+" "-" number or do not beat symbol;

30. do not print any symbol;

31. on monitor, show a certain image;

32. print a certain image;

33. three figure resistance value curve map arranged side by side;

34. three figure resistance change rate curve map arranged side by side;

35. voltage-resistance-resistance change rate three curves are schemed side by side;

36. stop.

Fig. 5 is that the biological holographic electrogram diagnosis computer is handled visual synoptic diagram-three figure resistance curve demonstration arranged side by side.Wherein, A. neck district, back of the body district, B. lung ambition, the C. liver and stomach area, D. waist regiones mesogastrica is under the E. abdomen, sacrum, legs and feet area; The wire frame inner curve is the each point resistance plot among the figure, and 37. is the subregion separator bar.

Fig. 6 is that the biological holographic electrogram diagnosis computer is handled visual synoptic diagram-three figure resistance change rate curve display arranged side by side, and the same Fig. 5 of A-E, wire frame inner curve are the resistance change rate curve map.

Fig. 7 is that the biological holographic electrogram diagnosis computer is handled visual synoptic diagram-three-way demonstration arranged side by side, and wherein, three groups of wire frame inner curves are by left-to-right voltage curve, resistance curve, the resistance variations rate curve of being respectively.

The computer image display processing system of biological holographic electrogram diagnostic instrument of the present invention can carry out multiple computing to the data that record and obtain reflecting that second metacarpal bone side each point resistance value or every some resistance values are with respect to the change rate curve of phase adjoint point to the variation of low resistance direction, can carry out quantitative analysis, curve is divided into the zone of corresponding whole body each several part automatically, and can automatic decision provides and respectively distinguish ill anosis diagnosis result. This system can show, stores or print the case diagnosis result. Be suitable for that human body is not had the early stage whole body disease level diagnosis of damage, make disease early find early treatment.

Embodiment 1. Fig. 1-the 4th, present embodiment device, circuit and program synoptic diagram.Wherein, photoelectric tube 11 and 12 is at a distance of 10mm among Fig. 1, and photoelectric tube 12 is adjustable between 45-80mm apart with 13, among Fig. 2, and R ₀Be 500 kilo-ohms, stabilivolt voltage is 4.9 volts, and every 10ms gathers the magnitude of voltage of once being surveyed, and diagnostic result is with Fig. 6 form resistance relative change rate's curve display and printing, the long 150mm in the wire frame left side.q＝3，s＝5。Print and show that second metacarpal bone side figure and human dissection profile diagram fill with yellow, its edge and lines are with orange, wire frame and R multiple line purple, and curve and "+" "-" number use black, the literal green of expression cave realm name.The blue look of subregion separator bar.

Embodiment 2. is with embodiment 1, and different is that diagnostic result shows with Fig. 5 form resistivity curve and prints.M=3, q=5, print colors is black entirely.

Embodiment 3, and with embodiment 1, different is that diagnostic result is with Fig. 7 form voltage, resistance, the three-way demonstration arranged side by side of resistance change rate and printing.

Claims (13)

1, computer processing system for electro-biohologram diagnosis, comprise signal pickup assembly, interface board, microcomputer and monitor and print record device, it is characterized in that, signal pickup assembly by the motor-driven backguy drive turn shape electrode test probe slide block and five photoelectric tubes are formed, one of them photoemission cell places below the test probe slide block, four photoelectric receiving tubes are relative with power valve and place on the same straight line and be positioned at same plane with photoemission cell, and a voltage is V ₀A constant voltage dc source and a R ₀Resistance and turn shape electrode test probe and another reference electrode is formed signals collecting main circuit; Interface board is made up of an amplifier, two wave filters and an analog to digital converter, and test probe links to each other with reference electrode in amplifier and the harvester, and the analog to digital converter of interface board directly links to each other with main frame.

2, computer processing system as claimed in claim 1 is characterized in that, photoemission cell and photoelectric receiving tube are positioned on the vertical plane of probe under the slide block.

3, computer processing system as claimed in claim 1, it is characterized in that four photoelectric receiving tubes divide two groups and establish in the signal pickup assembly, two the every group spacings that are fixed together are 10-15mm, adjacent two spacing is 450-80mm between two groups, and two group distances are adjustable.

4, computer processing system as claimed in claim 1 is characterized in that, said photoelectric tube bore is 1-5mm.

5, computer processing system as claimed in claim 1 is characterized in that, said interface board output terminal inserts in the host bus expansion slot, takies eight bus ducts of a standard A T.

6, a kind of computer program that is used for the said computer processing system of claim 1, its job step is as follows:

(1) collecting test magnitude of voltage V, interval time τ;

(2) signals collecting stops, used time T;

(3) set up database;

(4) V is scaled resistance R, conversion formula is R _n=V _nR ₀/ (V ₀-V _n), and calculate tested each point average resistance R, ;

(5) calculate each point with respect to the resistance change rate r of consecutive point to the low resistance direction, r _n=(R _n-R _N-1)/R _N-1(r _n, look r at＜0 o'clock _n=0) and r _n=(R _N-1-R _n)/R _n(r _n, look r at＜0 o'clock _n=0), calculate average rate of change r then,

;

(6) draw rectangular wire frame, its left side or the right are the t axle for time shaft, and t axial length is T, and the top is the y axle, and y=f(t), wire frame is formed a tOy coordinate system;

(7) with the R or the r of survey each point, be linked to be curve, when y was R, wire frame the right was the t axle, and y=f(t) curve is the resistance value curve of measuring point; When y was r, the wire frame left side was the t axle, and y=f(t) curve is that each point is with respect to the change rate curve of neighbor point to the low resistance direction;

(8) in the tOy wire frame, make the parallel lines of t axle with the multiple of R or r, and begin to judge: when R＞m R or r＜q r, "-" printed in this district, when m R 〉=R＞P R or q r≤r＜s r, any symbol is not printed in this district, when R≤p R or r 〉=s r, "+" (m is printed in this district, q, p, s is the positive number less than 10);

(9) at other second metacarpal bone side and the human dissection profile diagram drawn side by side of above-mentioned wire frame, this two figure and line frame graph from the top down all hole pressing district holographic law be divided into district with number, three figure are arranged side by side, the subregion separator bar links to each other among each figure;

(10) on monitor, show a certain diagnostic graph;

(11) print a certain diagnostic graph.

7, computer program as claimed in claim 6 is characterized in that, said acquired signal τ interval time is the 1-10 millisecond.

8, computer program as claimed in claim 6, it is characterized in that, human body second metacarpal bone side and human dissection profile diagram hole pressing district holographic law are divided into five districts of A-E, and each district's ratio is A: B: C: D: E=(1.3-1.7): (2.15-2.55): (2.15-2.55): (1.9-2.3): (2.3-2.7).

As claim 6 or 8 described computer programs, it is characterized in that 9, five districts of A-E optimal proportion is A: B: C: D: E=1.5: 2.35: 2.35: 2.1: 2.5.

10, computer program as claimed in claim 6 is characterized in that, q≤5,3≤s≤10, or m≤5,3≤p≤10.

11, computer program as claimed in claim 6 is characterized in that, also comprises in the program V, R, r value are shown in three wire frames arranged side by side simultaneously.

12, computer program as claimed in claim 6, it is characterized in that, the demonstration print routine is appointed as image color: second metacarpal bone side and human dissection profile diagram are orange, fill yellow therebetween, R or r multiple lines purple in wire frame and the frame, each distinguishes separator bar with blue, and electrograph curve and "+" "-" use black, and the cave realm name is with green.

13, computer program as claimed in claim 6 is characterized in that, shows that the print image color is black.

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