Antioxidant sensor, antioxidant signal obtaining method, and antioxidant level determining method

What is claimed is: 1. An antioxidant sensor, comprising: a first light source configured to emit light having a green wavelength onto an object; a second light source configured to emit light having a red wavelength onto the object; a third light source configured to emit light having a blue wavelength onto the object; a light receiver configured to receive light reflected or scattered from the object; and a processor configured to: drive the first light source and the second light source, and obtain a hemoglobin index by normalizing absorbance of the green wavelength based on absorbance of the red wavelength, and based on the hemoglobin index satisfying a condition, obtain an antioxidant signal of the object by using absorbance of the blue wavelength; and based on the obtained hemoglobin index being lower than a predetermined threshold value, drive the third light source and obtain the antioxidant signal by using the absorbance of the blue wavelength, and wherein the processor is further configured to preprocess the antioxidant signal based on a hemoglobin signal obtained by driving the first light source, wherein preprocessing the antioxidant signal comprises subtracting the hemoglobin signal from the antioxidant signal or dividing the antioxidant signal by the hemoglobin signal. 2. The antioxidant sensor of claim 1 , wherein the antioxidant signal is a signal associated with carotenoid. 3. The antioxidant sensor of claim 1 , wherein the processor is further configured to: obtain a hemoglobin signal of the object by driving the first light source; obtain a base signal by driving the second light source; and obtain the hemoglobin index by normalizing the hemoglobin signal based on the base signal. 4. The antioxidant sensor of claim 1 , wherein the obtained hemoglobin index is based on pressure applied to the object. 5. The antioxidant sensor of claim 1 , wherein the processor is further configured to normalize the antioxidant signal by subtracting the hemoglobin signal from the antioxidant signal or by dividing the antioxidant signal by the hemoglobin signal. 6. The antioxidant sensor of claim 1 , wherein in response to the obtained hemoglobin index being greater than or equal to a the predetermined threshold value, the processor is further configured to generate guide information indicating to increase pressure applied to the object, and provide the guide information to a user. 7. The antioxidant sensor of claim 1 , wherein the light receiver comprises at least one of a photodetector or a spectrometer. 8. The antioxidant sensor of claim 1 , further comprising at least one light source configured to emit light having one or more wavelengths to the object, wherein the processor is further configured to, in response to the obtained hemoglobin index being lower than a the predetermined threshold value, obtain the antioxidant signal by driving the third light source, obtain at least one preprocessing signal by driving the at least one light source, and preprocess the antioxidant signal based on the at least one preprocessing signal. 9. The antioxidant sensor of claim 8 , wherein the one or more wavelengths comprise the green wavelength or a wavelength that is the blue wavelength. 10. The antioxidant sensor of claim 1 , wherein the processor is further configured to determine an antioxidant level by analyzing the antioxidant signal. 11. The antioxidant sensor of claim 10 , wherein in response to the antioxidant level being lower than a predetermined threshold level, the processor is configured to generate recommendation information indicating to increase the antioxidant level and provide the recommendation information to a user. 12. An antioxidant sensor, comprising: a spectrum obtainer comprising at least one light source and configured to obtain a skin spectrum of an object; and a processor configured to: extract absorbance of a first wavelength and absorbance of a second wavelength from the skin spectrum; obtain a hemoglobin index by normalizing the absorbance of the first wavelength based on the absorbance of the second wavelength; and based on the obtained hemoglobin index being lower than a predetermined threshold value, extract absorbance of a third wavelength from the skin spectrum, and determine an antioxidant level of the object based on to the extracted absorbance of the third wavelength, wherein the first wavelength, the second wavelength, and the third wavelength are different from each other, and wherein, the processor is further configured to, based on the obtained hemoglobin index being greater than or equal to the predetermined threshold value, correct the extracted absorbance of the third wavelength based on the hemoglobin index and determine the antioxidant level of the object based on the corrected absorbance of the third wavelength, and wherein the processor is further configured to extract preprocessing absorbance of at least one wavelength from the skin spectrum, and preprocess the absorbance of the third wavelength based on the preprocessing absorbance, wherein preprocess the absorbance of the third wavelength comprises subtracting the preprocessing absorbance from the absorbance of the third wavelength or dividing the absorbance of the third wavelength by the preprocessing absorbance. 13. The antioxidant sensor of claim 12 , wherein the spectrum obtainer comprises: a plurality of light sources configured to emit light having different wavelengths onto the object; and a photodetector configured to receive light reflected or scattered from the object. 14. The antioxidant sensor of claim 12 , wherein the spectrum obtainer comprises: a plurality of light sources configured to emit light having different wavelengths onto the object; and a spectrometer configured to generate the skin spectrum by separating the light reflected or scattered from the object. 15. The antioxidant sensor of claim 12 , wherein the spectrum obtainer comprises: a light source configured to emit white light onto the object; and a spectrometer configured to generate the skin spectrum by separating the light reflected or scattered from the object. 16. The antioxidant sensor of claim 12 , wherein: the first wavelength is a green wavelength; and the second wavelength is a red wavelength. 17. The antioxidant sensor of claim 12 , wherein the obtained hemoglobin index is based on pressure applied to the object. 18. The antioxidant sensor of claim 12 , wherein: the third wavelength is a blue wavelength; and the at least one wavelength is the blue wavelength or a green wavelength. 19. The antioxidant sensor of claim 12 , wherein, the processor is further configured to, in response to the obtained hemoglobin index being greater than or equal to the predetermined threshold value, generate guide information indicating to increase pressure applied to the object, and provide the guide information to a user. 20. The antioxidant sensor of claim 12 , wherein the processor is further configured to correct the absorbance of the third wavelength by using a correction model which defines a relationship between the hemoglobin index and the absorbance of the third wavelength. 21. The antioxidant sensor of claim 12 , wherein in response to the antioxidant level being lower than a predetermined threshold level, the processor is configured to generate recommendation information indicating to increase the antioxidant level and provide the recommendation information to a user.