Systems And Methods For Noise Removal In An Optical Measurement System

1 . An optical measurement system comprising: a light source configured to emit light directed at a target within a user, the target being covered by a superficial layer; an array of photodetectors configured to detect photons of the light after the light is scattered; an array of time-to-digital converters (TDCs) configured to: record, during a first time period, a first set of timestamp symbols based on a first subset of the array of photodetectors detecting a first subset of the photons that are scattered by the superficial layer; and record, during a second time period, a second set of timestamp symbols based on a second subset of the array of photodetectors detecting a second subset of the photons that are scattered by the target and the superficial layer; and a processing unit configured to: determine, based on the first set of timestamp symbols, a first set of histogram data corresponding to the superficial layer; determine, based on the second set of timestamp symbols, a second set of histogram data corresponding to both the target and the superficial layer; filter, based on the first set of histogram data, the second set of histogram data; and determine, based on the filtering, histogram data corresponding to the target. 2 . The optical measurement system of claim 1 , wherein: the target comprises a region of a brain of the user; and the superficial layer comprises one or more of a scalp, a skull, cerebrospinal fluid, and a blood brain barrier of the user. 3 . The optical measurement system of claim 1 , wherein the filtering the second set of histogram data comprises using a machine learning algorithm. 4 . The optical measurement system of claim 3 , wherein the machine learning algorithm comprises a supervised machine learning model trained using data corresponding to known behavioral choices. 5 . The optical measurement system of claim 4 , wherein the processing unit is further configured to determine, based on the histogram data corresponding to the target, a behavioral prediction of the user. 6 . The optical measurement system of claim 5 , wherein the determining the behavioral prediction of the user comprises further filtering the histogram data corresponding to the target using the machine learning algorithm. 7 . The optical measurement system of claim 1 , wherein the filtering the second set of histogram data comprises using independent component analysis. 8 . A wearable system for use by a user comprising: a head-mountable component configured to be attached to a head of the user, the head-mountable component comprising an array of photodetectors configured to detect photons from a light pulse after the light pulse reflects off at least one of a target within the head and a superficial layer covering the target; an array of time-to-digital converters (TDCs) configured to: record, during a first time period, a first set of timestamp symbols based on a first subset of the array of photodetectors detecting a first subset of the photons that are scattered by the superficial layer; and record, during a second time period, a second set of timestamp symbols based on a second subset of the array of photodetectors detecting a second subset of the photons that are scattered by the target and the superficial layer; and a processing unit configured to: determine, based on the first set of timestamp symbols, a first set of histogram data corresponding to the superficial layer; determine, based on the second set of timestamp symbols, a second set of histogram data corresponding to both the target and the superficial layer; filter, based on the first set of histogram data, the second set of histogram data; and determine, based on the filtering, histogram data corresponding to the target. 9 . The wearable system of claim 8 , wherein: the target comprises a region of a brain of the user; and the superficial layer comprises one or more of a scalp, a skull, cerebrospinal fluid, and a blood brain barrier of the user. 10 . The wearable system of claim 8 , wherein the filtering the second set of histogram data comprises using a machine learning algorithm. 11 . The wearable system of claim 10 , wherein the machine learning algorithm comprises a supervised machine learning model trained using data corresponding to known behavioral choices. 12 . The wearable system of claim 11 , wherein the processing unit is further configured to determine, based on the histogram data corresponding to the target, a behavioral prediction of the user. 13 . The wearable system of claim 12 , wherein the determining the behavioral prediction of the user comprises further filtering the histogram data corresponding to the target using the machine learning algorithm. 14 . The wearable system of claim 8 , wherein the filtering the second set of histogram data comprises using independent component analysis. 15 . A system comprising: a memory storing instructions; a processor communicatively coupled to the memory and configured to execute the instructions to: access a first set of timestamp symbols based on a first subset of an array of photodetectors detecting a first subset of photons that are scattered by a superficial layer that covers a target within a user, the first set of timestamp symbols representing times within a first time period; determine, based on the first set of timestamp symbols, a first set of histogram data corresponding to the superficial layer; access a second set of timestamp symbols based on a second subset of the array of photodetectors detecting a second subset of the photons that are scattered by the target and the superficial layer, the second set of timestamp symbols representing times within a second time period; determine, based on the second set of timestamp symbols, a second set of histogram data corresponding to both the target and the superficial layer; filter, based on the first set of histogram data, the second set of histogram data; and determine, based on the filtering, histogram data corresponding to the target. 16 . The system of claim 15 , wherein: the target comprises a region of a brain of the user; and the superficial layer comprises one or more of a scalp, a skull, cerebrospinal fluid, and a blood brain barrier of the user. 17 . The system of claim 15 , wherein the filtering the second set of histogram data comprises using a machine learning algorithm. 18 . The system of claim 17 , wherein the machine learning algorithm comprises a supervised machine learning model trained using data corresponding to known behavioral choices. 19 . The system of claim 18 , wherein the processor is further configured to execute the instructions to determine, based on the histogram data corresponding to the target, a behavioral prediction of the user. 20 . The system of claim 19 , wherein the determining the behavioral prediction of the user comprises further filtering the histogram data corresponding to the target using the machine learning algorithm. 21 . The system of claim 15 , wherein the filtering the second set of histogram data comprises using independent component analysis. 22 - 28 . (canceled)