Capacitive measurement device with integrated electrical and mechanical shielding

What is claimed is: 1. A substance measurement device, comprising: a container portion having a sensing portion and a non-sensing portion, the non-sensing portion of the container portion configured to receive a substance from outside of the container portion; at least one sensor positioned within the sensing portion of the container portion, the at least one sensor configured for a measurement of a property of the substance within the sensing portion of the container portion, the property related to at least one of a flow rate of the substance into the container portion, a level of the substance within the container portion, or a volume of the substance within the container portion; and at least one shield positioned within the container portion between the sensing portion and the non-sensing portion, the sensing portion of the container portion configured to receive the substance from the non-sensing portion of the container portion through a plurality of paths, each of the plurality of paths including a gap, channel, void, or aperture below, around, or through the at least one shield, the at least one shield configured to provide at least one of: buffering between the substance entering the non-sensing portion of the container portion and the at least one sensor positioned within the sensing portion of the container portion by controlling flow of the substance from the non-sensing portion of the container portion to the sensing portion of the container portion; or shielding between the substance entering the non-sensing portion of the container portion and the at least one sensor positioned within the sensing portion of the container portion to block the at least one sensor from sensing outside of the sensing portion of the container portion. 2. The substance measurement device of claim 1 , wherein the substance is a liquid. 3. The substance measurement device of claim 1 , wherein the substance is urine. 4. The substance measurement device of claim 1 , wherein the at least one sensor includes a capacitive sensor. 5. The substance measurement device of claim 4 , further comprising: a controller communicatively coupled to the at least one sensor and configured to perform at least one of: capture raw data indicative of capacitance from the capacitive sensor and store it in at least one of a memory and a storage device; or calculate at least one of the flow rate of the substance into the container portion, the level of the substance within the container portion, and the volume of the substance within the container portion based on raw data from the capacitive sensor over time. 6. The substance measurement device of claim 5 , further comprising: an electronics portion removably coupled with the container portion, wherein the electronics portion includes the controller. 7. The substance measurement device of claim 6 , wherein the electronics portion further includes: a communication module communicatively coupled to the controller. 8. The substance measurement device of claim 1 , further comprising: an exterior shield positioned on the outside of the container portion and configured to isolate the at least one sensor from external disturbances caused by effects of an external environment outside of the container portion. 9. The substance measurement device of claim 1 , wherein the container portion includes at least one tapered side-wall that tapers from a smaller size at a lower portion of the container portion to a larger size at an upper portion of the container portion above the lower portion of the container portion. 10. The substance measurement device of claim 1 , further comprising: an electronics portion removably coupled with the container portion; wherein the container portion does not include a bottom wall; wherein a top surface of the electronics portion serves as a bottom for the container portion when the electronics portion is coupled with the container portion. 11. The substance measurement device of claim 10 , wherein the top surface of the electronics portion includes additional sensors that come into contact with the substance when it enters the container portion. 12. The substance measurement device of claim 1 , wherein the container portion includes at least one side-wall and a bottom wall. 13. The substance measurement device of claim 1 , further comprising: an electronics portion removably coupled with the container portion using complimentary coupling elements. 14. The substance measurement device of claim 13 , wherein the complimentary coupling elements include at least one of threads, bayonet mounts, tabs, clips, or fasteners. 15. The substance measurement device of claim 1 , wherein the at least one shield is configured to provide: buffering between the substance entering the non-sensing portion of the container portion and the at least one sensor positioned within the sensing portion of the container portion by controlling flow of the substance from the non-sensing portion of the container portion to the sensing portion of the container portion. 16. The substance measurement device of claim 1 , wherein controlling flow of the substance from the non-sensing portion of the container portion to the sensing portion of the container portion includes reducing disturbances, turbulence, or slosh of the substance entering the non-sensing portion of the container portion from being transferred to the sensing portion of the container portion, wherein the disturbances, turbulence, or slosh affect measurement of the property by the at least one sensor positioned within the sensing portion of the container portion, wherein the at least one shield and the plurality of paths act as a mechanical low-pass filter for the measurement of the property by the at least one sensor positioned within the sensing portion of the container portion. 17. A liquid measurement device, comprising: a container portion having a sensing portion and a non-sensing portion, the non-sensing portion of the container portion configured to receive liquid from outside of the container portion; a capacitive sensor positioned within the sensing portion of the container portion, the capacitive sensor configured for a measurement of changes in capacitance within the sensing portion of the container portion due to changes in the level of the liquid within the container portion; and a controller communicatively coupled to the capacitive sensor; at least one shield positioned within the container portion between the sensing portion and the non-sensing portion, the sensing portion of the container portion configured to receive the liquid from the non-sensing portion of the container portion through a plurality of paths, each of the plurality of paths including a gap, channel, void, or aperture below, around, or through the at least one shield, the at least one shield configured to provide at least one of: buffering between the liquid entering the non-sensing portion of the container portion and the capacitive sensor positioned within the sensing portion of the container portion by controlling flow of the liquid from the non-sensing portion of the container portion to the sensing portion of the container portion; or shielding between the liquid entering the non-sensing portion of the container portion and the capacitive sensor positioned within the sensing portion of the container portion by blocking the capacitive sensor from sensing outside of the sensing portion of the container portion; and wherein the controller is configured to perform at least one of: capture raw data ind