Claims:WE CLAIM
1. A method for identifying cancer comprising:
receiving, by a cancer identifying device, gamma photons emitted from cancer cells present in an organism through at least one photoreceptor cell;
converting, by the cancer identifying device, the gamma photons received through the at least one photoreceptor cell to a plurality of oscillating waves having a plurality of frequencies;
creating, by the cancer identifying device, a contour plot by projecting positive and negative peaks of each of the plurality of oscillating waves; and
comparing, by the cancer identifying device, pattern of the contour plot with a plurality of training contour plots to identify type of cancer affecting at least one body part of the organism, wherein each of the plurality of training contour plots are tagged with an associated type of cancer.
2. The method of claim 1, further comprising introducing radioactive tracers into the organism, wherein the radioactive tracers tag to the cancer cells and emit the gamma photos.
3. The method of claim 1, further comprising displaying a graphical image depicting the at least one body part affected by the type of cancer and indicating degree of spread of the type of cancer within the at least one body part.
4. The method of claim 1, wherein the contour plot is created on a millimeter graph comprising a positive-positive quadrant, wherein positive peaks of at least one of the plurality of oscillating waves are plotted in upper plane of the positive-positive quadrant and negative peaks of at least one of the plurality of oscillating waves are plotted in a lower plane of the positive-positive quadrant.
5. The method of claim 1, further comprising transforming the contour plot into a matrix image view to convert the contour plot into pixel value.
6. The method of claim 1, wherein an oscillating waves projector is used to create the contour plot, wherein the contour plot represents outline of the at least one body part affected by cancer.
7. The method of claim 1, further comprising computing ratio of cancer cells spreading in the organism over a period of time based on a plurality of contour plots created for the organism over the period of time.
8. The method of claim 7, further comprising periodically providing a treatment track for the type of cancer over the period of time based on the plurality of contour plots.
9. The method of claim 1, further comprising training the cancer identifying device to identify type of cancer by receiving diagnosis of contour plots created for a plurality of organisms from at least one physician.
10. The method of claim 1, wherein converting the gamma photons to the plurality of oscillating waves comprises:
converting the gamma photons into a plurality of electrical signals;
converting the plurality of electrical signals into a plurality of digital signals using analog to digital converter; and
converting the plurality of digital signals to the plurality of oscillating waves using an oscillator.
11. A cancer identifying device comprising:
a photoreceptor cell array comprising a plurality of photoreceptor cells and configured to receive gamma photons emitted from cancer cells present in an organism;
a processor communicatively coupled to the photoreceptor cell array; and
a memory communicatively coupled to the processor and having processor instructions stored thereon, causing the processor, on execution to:
convert the gamma photons received through the at least one of the plurality of photoreceptor cells to a plurality of oscillating waves having a plurality of frequencies;
create a contour plot by projecting positive and negative peaks of each of the plurality of oscillating waves; and
compare pattern of the contour plot with a plurality of training contour plots to identify type of cancer affecting at least one body part of the organism, wherein each of the plurality of training contour plots are tagged with an associated type of cancer.
12. The cancer identifying device of claim 11, wherein the processor instructions further cause the processor to display a graphical image depicting the at least one body part affected by the type of cancer and indicating degree of spread of the type of cancer within the at least one body part.
13. The cancer identifying device of claim 11, wherein the contour plot is created on a millimeter graph comprising a positive-positive quadrant, wherein positive peaks of at least one of the plurality of oscillating waves are plotted in upper plane of the positive-positive quadrant and negative peaks of at least one of the plurality of oscillating waves are plotted in a lower plane of the positive-positive quadrant.
14. The cancer identifying device of claim 1, wherein the processor instructions further cause the processor to transform the contour plot into a matrix image view to convert the contour plot into pixel value.
15. The cancer identifying device of claim 1, wherein the processor instructions further cause the processor to compute ratio of cancer cells spreading in the organism over a period of time based on a plurality of contour plots created for the organism over the period of time.
16. The cancer identifying device of claim 15, wherein the processor instructions further cause the processor to periodically provide a treatment track for the type of cancer over the period of time based on the plurality of contour plots.
17. The cancer identifying device of claim 11, wherein the processor instructions further cause the processor to train the cancer identifying device to identify type of cancer by receiving diagnosis of contour plots created for a plurality of organisms from at least one physician.
18. The cancer identifying device of claim 11, wherein to convert the gamma photons to the plurality of oscillating waves, the processor instructions further cause the processor to:
convert the gamma photons into a plurality of electrical signals;
convert the plurality of electrical signals into a plurality of digital signals using analog to digital converter; and
convert the plurality of digital signals to the plurality of oscillating waves using an oscillator.
19. The cancer identifying device of claim 11, wherein an oscillating waves projector is used to create the contour plot, wherein the contour plot represents outline of the at least one body part affected by cancer.

Dated this 11th day of August, 2017

Swetha SN
Of K&S Partners
Agent for the Applicant
, Description:TECHNICAL FIELD
This disclosure relates generally to identifying cancer and more particularly to method and device for identifying cancer.