QUANTITATIVE ANALYSIS DEVICE AND METHOD OF TEMPERATURE CHANGE USING INK COMPOSITION
The present invention refers to temperature according to ink change color become the sense amplifier senses a data and for quantitatively determining the temperature change relates to device and method. It all, display means being visible from the view we color are large and small portion while other regions are, eye color a for support of the. retarding a. Displaying graphic data and the total law various colors, a name of an colorimetric system andmunsell at CIE color system is connected to the semiconductor layer. method. munsellcolorimetric systemthey are three attributes color of color, brightness, color saturation in a manner that describes is representative colorimetric system. CIE colorimeter system objective color can be designated as defining a standard substantially color which the sensory nerve poem entitled and the human the physical value of the light for stimulating the shown is a psychological amount. A given the colorimetric system of CIE XYZ the integral circuit integrates the same color for providing an amount of stimulating mixing of the primary 3 X, Y, Z exhibits to. Such displaying graphic data and in the total law thus to distinguish color ghange of reagents light or can be used. One a very simple and ink eyesight a quantitative and exact data properties can be obtained unit is off. To technical terms the dyes can 'eyesight (thermocolor) color thermostat thermometric pigment ' , '' , '' . called. At elevated temperature surface colour intensify the color back to the original surface down is a reversible and returns to irreversible which the it does not product. two types. Hereinafter reference temperature ink eyesight reference color and unique in temperature above. transparent. Is not the large difference of temperatures between a returning and then sheered is disclosed color executes the focus which can be in that the organic compounds and the material stilbene derivatives. made. Essentially microcapsules are made of materials (Microcapsule) 1-10μm size of about which is, the capsule thus loses properties the same time, the flowing speed is destroyed in use the high pressure, high vacuum, the high-frequency microwave oven heating, etc.. of unintended users. Temperature surface see respect to a change in temperature but one amount of physical state not able of measurement by directly measuring the same thereby displacing the displacement, pressure, resistance, voltage, frequency such as metrology a converted into different physical quantities. Eyesight patent preceding associated patent publication number 10-2012-0070413 25th which to call an thermometer and as thermometer, amplified signal that is an AC signal of activation temperature eyesight according to temperature by using a color etc display control apparatus includes a display can be changed to an eyesight the converted musical representing thermometer thermometer and of wet liquid to flow down it. The present invention refers to said said and of solving a problem with a conventional so as by need for the present purpose of the invention an ink composition and are novel temperature change analysis using the electrode 104 is provided under the device. It is another object of the present invention provides temperature change analysis method by a rope.. Said end of the, the present invention refers to slide glass to surface-located ink composition, said slide glass disposed on the upper surface light emitting white light emitting diode, color filter, photodiode and said slide glass and consisting of an analog/digital converter has not exceeded a threshold value which is disposed lower surface, said ink composition, said white light emitting diode, located within said darkroom detector to characterized by ink composition provides temperature change analysis device. Of the present invention in one embodiment, said ink composition range activation temperature indicating that the portable computing device is particular color in, activation temperature out of a range in eyesight property that the transparent mixing dye and the generic dye is preferably ink composition not limited to, but. Of the present invention other in one embodiment, said ink composition in 5-15 ° C green, orange color in 25-35 ° C, 40 °C above three varies with temperature in yellow color ink including the paints eyesight is preferably a metal oxide; 400-200,000 not limited to, but. Of the present invention another in one embodiment, different ink composition said eyesight or more 2 mixing solution is preferably ink composition not limited to, but. Yet the present invention refers to a) cancerous screen in darkroom internal temperature of differential pressure is applied to; b) said temperature change according to color change of ink composition involves measuring the sensor; c) said IC regulates the analog/digital conversion of measurements for obtaining data step (RGB); and d) (RGB) data IC regulates temperature analysis after storage including a step of converting provides temperature change analysis method. Of the present invention in one embodiment, determining the sensor color change said white light-emitting diode in turn the light emitted from the light ink composition, color passing through the filter reaches the photo diode is preferably further including but not limited to.. Of the present invention other in one embodiment, IC regulates said analyzes after storage data (RGB) transforming the temperature further interpolation to characterized by including temperature change analysis method is preferably not less. Of the present invention another in one embodiment, the integer said temperature change analysis method including further the step of performing a method to characterized by temperature change analysis method which is desirably, said temperature change analysis method a function y=a0 xn + a1 xn-1 + a2 xn-2 +... an xn using regression analysis of relations among the pixel of x=b0yn + b1 yn-1 + b2 yn-2 +... bn yn in the form of further includes a pixel block having a predetermined size, said temperature information variable in formula x, an optical signal variable y, a0-an won resulting the modeled of coefficient values of data, b0-bn has modeling resulting modified inverse of converted coefficient values is further characterized by including temperature change analysis method is more desirable, but not limited to. As will be seen in the present invention the present invention refers to temperature change according to temperature/or mass flow caused by changes color of ink composition a detection of a change and quantitative analysis provides a method and device. Through the present invention according to-selective transmission of the light source respect to a change in temperature quantitative objectively and R, G, B that it is possible for code into a numeric value by value can be viewed. The present invention refers to medical and industrial contexts in temperature measuring, monitoring temperature, heat generating schemes to determine for can be applied in 2000. Figure 1 shows a method used in invention actual also indicative of the multiplex by picture. Also Figure 2 shows a method used in actual invention indicative of the mimetic of by picture. Dye LED white on a shot up the light dye transmits a reflecting transmitted to a concave the light the network server computer does not in photodiode via a color filter. Light the photodiode before the luminance reaches the resulting value for the auto gain a color filter because at R, G, each value B possible to obtain data. Actual Figure 3 by picture set-up used invention. Other light is blocked by both corresponding advertisement based on the shown list or thickness variation is measured by cancerous screen , locks the conformation infrared thermometer after maximum occured measuring temperature at such a condition. Figure 4 shows a mixing dye and the generic solution eyesight also ink composition card and in the use of heat shield numerical RGB by picture indicative of the change. The 4a also red + blue (generally dye) = hexaboride (eyesight solution) when the pump is connected directly to the numerical RGB by picture indicative of the change. Also 4b (eyesight solution) the blue + yellow = abstract (eyesight solution) when the pump is connected directly to the numerical RGB by picture indicative of the change. Eyesight also Figure 5 shows a for the dye ink composition card and in the use of heat shield numerical RGB by picture indicative of the change. In the embodiment 1. Due to the temperature change is a differential pressure is applied to the color ink composition Use an dye in the present invention. Dye pigment properties of and can be prepared fireable substrates, unit plays fireable substrates, dots made by mixing the pigment and the free surfaces. Eyesight i.e. mixing dye and the generic solution the ground terminal of ink composition. Price compared to pigment dye part inlet and the disk storing unit and can be even after time, retain the dip and macerate or color, quality and fracture occurs. does not. The dye and the generic dye eyesight http://swsciencemall.com/for use at. In the present invention first generally dye (red) (blue) and eyesight solution mixing paints in eyesight eyesight surface 30 degrees or higher color dye at least one colorless solution only displayed in a panel of preheated the dye, the result is a also showed to 4a. Eyesight solution yet in the present invention (yellow) (blue) and eyesight solution and selecting the associative polymer mixing the preheated, the result is a also showed to 4b. In the present invention in addition 10 °C in green, orange color in 28 °C, 40 °C above according to temperature three in yellow color three eyesight IC regulates according to temperature change using dye (RGB) is preheated measuring shifted centering showed to Figure 5. Said of dye a temperature step-by-step by restraining a hot wafer from being a low temperature an temperature is divided into user uses method, low temperature (10 °C), body temperature (28 °C), high temperature (40 °C). change the temperature. A another is greater than 30 °C product beneficial for the body. In the embodiment 2.To obtain an RGB results In the embodiment 1 a to determine the result of steps of PICkitTM Serial Analyzer for use in to, said device of a dye colors of RGB (Red-Green-Blue). is indicated as. IC regulates rotation (RGB) R (red), (green) G, B (blue) colour by the defined color model, or colour display system which, as little as a dominant primary color of 3 of light, rust, free by mixing a RGB color monitor of computer television or color scheme, other not print media or display comprising light device employed in of wet liquid to flow down. RGB a small manner, rust, via mixing allochromatic for making a desired color use an manner. I.e., and a name of the a point screen 3 which are built of color, and color formed by combination is as follows. R the red, the green G, B converts the blue, R+G = yellow, violet red R+B = (magenta) (cyan), B+G = resolution radar Image, R+G+B = white, R, G, if no any of B, i.e. any is located inside the beam case is black not. In the present invention using digital color PICkitTM Serial Analyzer the precise, and optical sensor to acquire a lighting chromaticity and color peripheral, 16 digital output at least one bit selected, and a minienvironment mounted it designed to provide light for redialling of telephone, provides digital output bit 16 resolution. Device are photoelectric diodes, an analogue-to-digital converter, including control function and of four diode photoelectric. 16 is equipped with a static mixer for a red filter, four green filters, the, mountains shadowed by filter can have. A filter net and has do not go. Device to device, tolerances system is a very accurate 2001 a way so that the minimum is with a. In the embodiment 3. A/DConvertertoa digital output results 4 (A/D Converter) analog-to-digital converter integrated of a photo diode current by converting digital output is inputted to a processor micro then checks whether a RGB. it. 4 single photo diode, the integration of all channels in two 4 the nodes occur simultaneously and converts data in a period the channel data that the conversion result is completed is transmitted register. In addition chromaticity coordinates (X, Y) the display white balancing for color the purpose, use can be made of, shows the temperature measured. In the embodiment 4. Interpolation and inverse transform method an optical signal to the temperature, in terms of a product having a Interpolation acids to epoxygenated fatty acids therein 2 having any one or more parameters to xi value of the function value f (xi) when is known, any therebetween x a function value estimating numeral key, is obtained by an experiment using a computer to axial direction or undesirable viewed from the observation at point of to estimate the is a method. Experiment data obtained in each through Matlab R, G, B values and by which the range of temperatures at which the fitting (fitting). Rotation Matlab numerical analysis, matrix operation, signal processing, a simple graphic function calculation and numerical measurement of the high performance by integrating for providing function of visualization of result is programming language. Mathematical coding schemes Matlab and a character and simple C grammar which is, calculation associated with mathematical, algorithm development, situation modeling and analysis, various science an ergonomic and are used in such as graphical representation. In the present invention R, G, and allow entry of values corresponding when B temperature may be to find. Using a function for polynomial coefficient in an order of fitting (fitting) to find out. The light caused by change in fine in the present invention for observing changes position in order mat wrap using modeling the constant section. Fine changes in position of 7 from order polynomial 1 to Figure out until order polynomial modeling and determination are compared to coefficient value of been found out that the numerical formula suitable. The approximation function does not measure made also estimating the intermediate value function of the difference have been produced with n. At inverse transform method in particular temperature detection method progressively increasing data is a nonconductor (monotonically increase) when or reduces, use can be made of, inverse modeling method. When relations among the pixel of regression analysis of the inverse transform x=f (y) using form of. process which is converted. Means for and analyzing relationships between one regression analysis model return is by a state amount of a sampling timer doesn't reach a set time actually observed by a vacuum line regression of models thereof between estimates a coefficient a represents the relationship of linear regression under. in the steps. Determining coefficients a estimating observation specimen and line of regression some extent value observation number is the representative automate the entire show and of its suitability shown with codes coefficient measuring a commercial-scale, this value have a a value between 0 and 1. These determinations between two coefficients and a correlation coefficient indicative of the degree of correlation (correlation coefficient, generally as indicated by r) square area as weight, and is economical, thus represented by the R ² (R-Squared). R ² = 1 line of regression estimated value observation specimen all one case meaning that the only on estimated and therefore increase relationship between the parameters line of regression completely accounts capable of being utilized in.. While, the estimated the one case R ² = 0 relationship between the parameters line of regression accounts no. from the periphery circuit. Exhibits relations among the pixel of to. Y wherein x means an optical signal has the R, G, B, exhibits and each respective temperature. a0-an won resulting the modeled means of coefficient values of data b0-bn has modeling resulting modified inverse of converted coefficient value of.. RGBW gray scale data is performed to it is under, modeling difference difference 1-7, n order polynomial most suitable variable x using temperature information and inverse transform an output signal that is a variable y by modeling equation is obtained. Data is continuously increase of light absorbance the inverse transform is when a behavioural characteristic of the nonlinear can. can be modeled data. I.e., a given DCT can be in terms of a product having a temperature optical signal an openable, focused shallow thereby to enable a detection of a change temperature and to request only one output port. y=a0 xn + a1 xn-1 + a2 xn-2 +... an xn x=b0 yn + b1 yn-1 + b2 yn-2 +... bn yn After a (fitting) the fits data won data of integrally with the first fitting (fitting) the reporting by comparing the graph R, G, B, each decision coefficient to a won whether differs from that of how data, checks to see if similar may receive. A new solid for obtaining coefficient determined exhibits, table 1 of the present invention in. coefficient determined according to data value. [Formula for obtaining coefficient determined] Or Table 1 the crystal coefficient. Table 2 R of dye R I which is changed three phases of in, G, B measured at sensor sign-on with respect to blades, presenting a maximum and a minimum value. Table 2 the R, G, minimum value, maximum value, for B. The present invention relates to a device and a method for analyzing a temperature change using an ink composition, comprising: an ink composition placed on the surface of a slide glass; a white-light-emitting diode arranged on the upper surface of the slide glass to emit light; and a detection part consisting of a color filter, a photodiode and an analog-to-digital converter, and placed on the lower surface of the slide glass, wherein the ink composition, the white-light-emitting diode and the detection part are placed in a darkroom. According to the present invention, the temperature change, which is caused by the selective transmission of light, can be numerically expressed as objective and quantitative values of R, G and B. The present invention can be applied to temperature measurement, temperature monitoring and determination of whether or not heat has been generated in medical and industrial fields. Slide glass to surface-located ink composition, said slide glass disposed on the upper surface light emitting white light emitting diode, is disposed lower glass slide said said light emitted from a white light emitting diode passing through the color filter, said color filter is disposed lower said light color filter an optical current said diode and an optical signal photocurrent signal into a digital signal and consisting of an an analog to digital converter for converting said slide glass has not exceeded a threshold value which is disposed lower surface, said ink composition, said white light emitting diode, located within said darkroom detector to temperature change analysis device characterized by ink composition. According to Claim 1, said ink composition range activation temperature indicating that the portable computing device is particular color in, activation temperature out of a range in eyesight property that the transparent mixing dye and the generic dye ink composition characterized by temperature change analysis device. According to Claim 1, said ink composition in 5-15 ° C green, orange color in 25-35 ° C, 40 °C above three varies with temperature in yellow color ink including the paints eyesight temperature change analysis device characterized by a metal oxide; 400-200,000. According to Claim 1, said different ink composition mixing solution eyesight or more 2 ink composition characterized by temperature change analysis device. A) cancerous screen in darkroom internal temperature of differential pressure is applied to; b) said temperature change according to color change of ink composition involves measuring the sensor; c) said measurements (RGB) IC regulates the analog-to-digital converter for obtaining data step; and d) temperature analysis after storage data (RGB) IC regulates a step of converting; including a temperature change analysis method. According to Claim 5, said temperature change according to ink composition as measured by sensor color change of the step light emitted from the white light emitting diode is formed to ink composition, color passing through the filter reaches the photo diode to characterized by further including temperature change analysis method. According to Claim 5, said IC regulates analyzes after storage data (RGB) transforming the temperature further interpolation to characterized by including temperature change analysis method. According to Claim 7, said temperature change analysis method the integer including further the step of performing a method to characterized by temperature change analysis method. According to Claim 8, said temperature change analysis method a function y=a0 xn + a1 xn-1 + a2 xn-2 +... an xn using regression analysis of relations among the pixel of x=b0yn + b1 yn-1 + b2 yn-2 +... bn yn pixel block having a predetermined size in the form of further comprises, said temperature information variable in formula x, an optical signal variable y, a0-an won resulting the modeled of coefficient values of data, b0-bn has modeling resulting modified inverse of converted coefficient values is further characterized by including temperature change analysis method. Determining coefficient Red Blue Green 4a also 0.9960 0.9966 0.9940 4b also 1.0000 0.9876 0.9996 Also 5 0.9323 0.9496 0.9401 Max Min Red 27450 0 Green 48100 0 Blue 50370 0
