The present disclosure relates to methods and systems for calculating a food additive. A first method includes identifying chemical compounds of an averse food ingredient, identifying chemical compounds of a flavorful food ingredient and calculating a set of chemical compounds for the food additive
The present disclosure relates to methods and systems for calculating a food additive. A first method includes identifying chemical compounds of an averse food ingredient, identifying chemical compounds of a flavorful food ingredient and calculating a set of chemical compounds for the food additive such that an olfactory perception of a mixture of the averse food ingredient, the flavorful food ingredient and the food additive is the same as an olfactory perception of only the flavorful food ingredient. A first device includes a database storing information identifying chemical compounds of an averse food ingredient and identifying chemical compounds of a flavorful food ingredient, and a processor for calculating a food additive such that an olfactory perception of flavors of a mixture of the averse food ingredient, the flavorful food ingredient and the food additive is the same as an olfactory perception of only the flavorful food ingredient.
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1. A device, comprising: a database configured for storing information relating to individual chemical compounds;a processor communicatively coupled to the database and configured for formulating a food additive comprising a combination of the individual chemical compounds such that a first predicte
1. A device, comprising: a database configured for storing information relating to individual chemical compounds;a processor communicatively coupled to the database and configured for formulating a food additive comprising a combination of the individual chemical compounds such that a first predicted human olfactory perception is the same as a second predicted human olfactory perception, where the first predicted human olfactory perception is of flavors of a mixture of a first food ingredient comprising a first subset of the individual chemical compounds, a second food ingredient comprising a second subset of the individual chemical compounds that includes at least one chemical compound not included in the first subset of the individual chemical compounds, and the food additive, and the second predicted human olfactory perception is of only the second food ingredient; anda hardware compound mixer for physically mixing the combination of the individual chemical compounds, under the direction of the processor, to produce the food additive in a form that is suitable for human consumption. 2. The device of claim 1, wherein the processor performs steps comprising: minimizing a difference between a vector projection of the mixture in a perceptual space with a vector projection of the second food ingredient in the perceptual space. 3. The device of claim 2, wherein the minimizing the difference comprises normalizing a solution to a vector representation of an olfactory white in the perceptual space. 4. The device of claim 2, wherein the perceptual space comprises a multidimensional space where each dimension is associated with a different olfactory or flavor perceptual descriptor. 5. The device of claim 2, the perceptual space comprises a multidimensional space where at least one dimension is associated with at least two different olfactory or flavor perceptual descriptors. 6. The device of claim 2, wherein the formulating the food additive comprises determining a set of physicochemical properties for the food additive, where the determining the set of physicochemical properties for the food additive is based upon at least one correlation between the perceptual space and a physicochemical space. 7. The device of claim 1, wherein the processor performs steps comprising: determining a set of physicochemical properties for the food additive such that the predicted olfactory perception of flavors of the mixture is the same as the predicted olfactory perception of only the second food ingredient. 8. The device of claim 7, wherein the processor performs steps further comprising: selecting the combination of the individual chemical compounds such that, when the combination of the individual chemical compounds is combined to form the food additive, the food additive comprises the set of physicochemical properties. 9. The device of claim 1, further comprising: a gas chromatograph for identifying the first subset of the individual chemical compounds in the first food ingredient and the second subset of the individual chemical compounds in the second food ingredient. 10. The device of claim 1, wherein the combination of the individual chemical compounds making up the food additive is formulated based upon an availability of one or more individual chemical compounds present in the combination of the individual chemical compounds or such that a cost of the combination of the individual chemical compounds is minimized. 11. The device of claim 1, wherein the processor further performs steps comprising: determining a set of physicochemical properties of the first subset of the individual chemical compounds of the first food ingredient; anddetermining a set of physicochemical properties of the second subset of the individual chemical compounds of the second food ingredient. 12. The device of claim 11, wherein the determining the set of physicochemical properties of the first subset of the individual chemical compounds of the first food ingredient comprises performing a database lookup to match the first subset of the individual chemical compounds of the first food ingredient with their respective physicochemical properties, and wherein the determining the set of physicochemical properties of the second subset of the individual chemical compounds of the second food ingredient comprises performing a database lookup to match the second subset of the individual chemical compounds of the second food ingredient with their respective physicochemical properties. 13. The device of claim 11, wherein the processor further performs steps comprising: determining a first set of vectors in a physicochemical space based upon the set of physicochemical properties of the first subset of the individual chemical compounds of the first food ingredient; anddetermining a second set of vectors in the physicochemical space based upon the set of physicochemical properties of the second subset of the individual chemical compounds of the second food ingredient. 14. The device of claim 13, wherein the physicochemical space comprises a multidimensional space where each dimensions is associated with a different physicochemical property. 15. The device of claim 13, wherein the physicochemical space comprises a normed multidimensional space where at least one dimension is associated with at least two different physicochemical properties. 16. The device of claim 13, the processor further performs steps comprising: calculating a first vector projection associated with the mixture of the first food ingredient, the second food ingredient, and the food additive in a perceptual space, wherein the calculating the first vector projection is based on the first set of vectors in the physicochemical space and the second set of vectors in the physicochemical space; andcalculating a second vector projection associated with the second food in the perceptual space, wherein the second vector projection is based on the second set of vectors in the physicochemical space. 17. The device of claim 1, wherein the first food ingredient is predicted to be adversely perceived by a human based upon a correlation between a physicochemical space describing measurable qualities of the first subset of the individual chemical compounds of the first food ingredient and a perceptual space describing perceptual qualities of the first subset of the individual chemical compounds of the first food ingredient. 18. The device of claim 17, wherein the measurable qualities comprise relative intensities of the individual chemical compounds present in the first subset of the individual chemical compounds of the first food ingredient.
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