Ring for optically measuring biometric data

What is claimed is: 1. A monitoring device, comprising: a housing, wherein the housing is a ring-shaped housing having an opening configured to at least partially receive a digit of a wearer; at least two light sources directed toward the opening of the housing and configured to emit light over at least two wavelengths; at least one photodetector; at least one processor; a motion-detecting sensor positioned in the housing and configured to detect motion data representative of motion of the monitoring device; and memory including instructions that, when executed by the at least one processor, cause the monitoring device to: activate the at least two light sources; acquire data to determine which of the at least two light sources have adequate contact with skin of the wearer; analyze the data to determine which, if any, of the at least two light sources have adequate contact with the skin of the wearer and which, if any, of the at least two light sources do not have adequate contact with the skin of the wearer by identifying measurements having sudden changes or low variance; deactivate any of the at least two light sources only if any of the at least two light sources are determined to not have adequate contact with the skin of the wearer; if it is determined that at least one light source has adequate contact with the skin of the wearer, detect, using the at least one photodetector, light emitted by the at least one light source having adequate contact with the skin of the wearer and corresponding to at least one light paths, wherein light activation and detection are triggered by a determination that motion data is indicative of the monitoring device being substantially still; and determine biometric information when light passes through the digit of the wearer based on the light detected by the at least one photodetector. 2. The monitoring device of claim 1 , further comprising: determining, based at least in part on a difference in absorption of the detected light at a red wavelength and at an infrared wavelength, a blood oxygenation level. 3. The monitoring device of claim 2 , wherein data corresponding to differences in absorption of the red wavelength and the infrared wavelength is collected over a time period where the monitoring device is substantially still. 4. The monitoring device of claim 1 , wherein the at least one processor is further capable of determining biometric information including at least one of pulse, blood pressure, glucose level, lipid concentration, or carboxyhemoglobin level. 5. A method, comprising: activating at least two light sources of a monitoring device, wherein the monitoring device includes a ring-shaped housing having an opening configured to at least partially receive a digit of a wearer, the at least two light sources directed toward the opening of the housing and configured to emit light over at least two wavelengths; acquiring data to determine which of the at least two light sources have adequate contact with skin of the wearer; analyzing the data to determine which, if any, of the at least two light sources have adequate contact with the skin of the wearer and which, if any, of the at least two light sources do not have adequate contact with the skin of the wearer by identifying measurements having sudden changes or low variance; deactivating any of the at least two light sources only if any of the at least two light sources are determined to not have adequate contact with the skin of the wearer; if it is determined that at least one light source has adequate contact with the skin of the wearer, detecting, using at least one photodetector of the monitoring device, light emitted by the at least one light source having adequate contact with the skin of the wearer and corresponding to at least one light path, wherein light activation and detection are triggered by a determination that motion data from at least one motion sensor is indicative of the monitoring device being substantially still; and determining biometric information when light passes through the digit of the wearer based on the light detected by the at least one photodetector. 6. The method of claim 5 , further comprising: determining, based at least in part on a difference in absorption of the detected light at a red wavelength and at an infrared wavelength, a blood oxygenation level. 7. The method of claim 6 , wherein the red wavelength is about 660 nm and the infrared wavelength is about 940 nm. 8. The method of claim 5 , wherein the biometric information includes data regarding at least one of pulse, blood pressure, glucose level, lipid concentration, or carboxyhemoglobin level. 9. The method of claim 5 , wherein the at least one photodetector is positioned on the housing and opposite at least one of the at least two light sources. 10. The method of claim 5 , further comprising: detecting a first light intensity at a first photodetector; and detecting a second light intensity at a second photodetector, wherein the biometric information is calculated based at least in part upon the first light intensity and the second light intensity. 11. The method of claim 10 , wherein the first photodetector and the second photodetector are configured to receive light emitted from a same light source. 12. A non-transitory computer-readable storage medium including instructions that, when executed by at least one processor, cause the at least one processor to: activate at least two light sources of a monitoring device, wherein the monitoring device includes a ring-shaped housing having an opening configured to at least partially receive a digit of a wearer, the at least two light sources directed toward the opening of the housing and configured to emit light over at least two wavelengths; acquire data to determine which of the at least two light sources have adequate contact with skin of the wearer; analyze the data to determine which, if any, of the at least two light sources have adequate contact with the skin of the wearer and which, if any, of the at least two light sources do not have adequate contact with the skin of the wearer by identifying measurements having sudden changes or low variance; deactivate any of the at least two light sources only if any of the at least two light sources are determined to not have adequate contact with the skin of the wearer; if it is determined that at least one light source has adequate contact with the skin of the wearer, detect, using at least one photodetector of the monitoring device, light emitted by the at least one light source having adequate contact with the skin of the wearer and corresponding to at least one light path, wherein light activation and detection are triggered by a determination that motion data from at least one motion sensor is indicative of the monitoring device being substantially still; and determine biometric information when light passes through the digit of the wearer based on the light detected by the at least one photodetector. 13. The non-transitory computer-readable storage medium of claim 12 , wherein the instructions, when executed, further cause the at least one processor to: determine, based at least in part on a difference in absorption of the detected light at a red wavelength and at an infrared wavelength, an oxygenation level in blood. 14. The non-transitory computer-readable storage medium of claim 12 , wherein the biometric information includes data regarding at least one of pulse, blood pressure, glucose level, lipid concentration, or carboxyhemoglobin level. 15. The non-transitory computer-readable sto