On-site soil porosity measurement methodology and apparatus

What is claimed is: 1 . A computer-assisted method to monitor soil porosity at a field study site using a portable apparatus, the method comprising: acquiring, at the field study site, a soil sample using a first container of the portable apparatus; automatically recording a first measurement of a mass and a volume of the soil sample acquired by the first container; gradually adding the soil sample to a second container that is larger than the first container in volume until the soil sample is added in entirety, wherein the second container is pre-filled with a fluid medium to a pre-determined level, wherein the soil sample is added to the second container without causing soil clustering, and wherein a second measurement of a mass of the second container with the fluid medium pre-filled to the pre-determined level is automatically recorded; automatically recording a third measurement of a mass of the second container with the soil sample fully immersed in the fluid medium; automatically calculating a porosity of the soil sample based on the first measurement, the second measurement, and the third measurement; and automatically providing, on a display of the portable apparatus and at the field study site, the calculated porosity of the soil sample. 2 . The method of claim 1 , further comprising: drying, using a microwave, the soil sample inside the first container until the soil sample reaches a pre-defined dryness level; and monitoring, using a build-in moisture sensor on the portable apparatus, a moisture level of the soil sample inside the first container. 3 . The method of claim 2 , further comprising: comparing the moisture level of the soil sample inside the first container with the pre-defined dryness level; and responsive to the moisture level of the soil sample reaching the pre-defined dryness level, stopping the microwave. 4 . The method of claim 2 , further comprising: sieving the soil sample through a mesh with a pre-determined mesh size. 5 . The method of claim 4 , wherein: the pre-determined mesh size complies with an industry standard for laboratory testing. 6 . The method of claim 2 , wherein the pre-defined dryness level is provided by a user on an interactive user interface. 7 . The method of claim 1 , wherein the first measurement of the mass of the soil sample acquired by the first container is performed using a digital scale. 8 . The method of claim 1 , wherein the third measurement of the mass of the second container with the soil sample fully immersed in the fluid medium is performed using a digital scale. 9 . The method of claim 1 , wherein the porosity is calculated using a microprocessor configured to receive the first measurement, the second measurement, and the third measurement. 10 . The method of claim 1 , wherein the calculated porosity is provided on a recurring basis at the field study site using the portable apparatus such that soil porosity at the field study site is monitored according to the recurring basis. 11 . A portable apparatus for monitoring soil porosity at a field study site, the portable apparatus comprising: a first container sized and shaped to acquire, at the field study site, a soil sample; a second container sized to have a volume larger than the first container and operable to be pre-filled with a fluid medium to a pre-determined level such that the soil sample can be gradually added to the second container without causing soil clustering; a digital recording device coupled to the first and second containers and configured to automatically record a first measurement of a mass and a volume of the soil sample, a second measurement of a mass of the second container with the fluid medium pre-filled to the pre-determined level, and a third measurement of a mass of the second container with the soil sample fully immersed in the fluid medium; a control logic coupled to the digital recording device, wherein the control logic is configured to perform operations of: receiving recordings from the digital recording device; automatically calculating a porosity of the soil sample based on the first measurement, the second measurement, and the third measurement; and automatically providing, at the field study site, the porosity of the soil sample; and a display coupled to the control logic and configured to display the calculated porosity of the soil sample. 12 . The portable apparatus of claim 11 , further comprising: a microwave device compatible with the first container and configured to dry the soil sample inside the first container until the soil sample reaches a pre-defined dryness level; and a build-in moisture sensor operable to be immersed in the soil sample and configured to measure a moisture level of the soil sample inside the first container while the soil sample is being dried. 13 . The portable apparatus of claim 12 , wherein the control logic is configured to perform additional operations of: comparing the moisture level of the soil sample inside the first container with the pre-defined dryness level; and responsive to the moisture level of the soil sample reaching the pre-defined dryness level, stopping the microwave device. 14 . The portable apparatus of claim 12 , further comprising: a mesh with a pre-determined mesh size such that the soil sample can be sieved. 15 . The portable apparatus of claim 14 , wherein: the pre-determined mesh size complies with an industry standard for laboratory testing. 16 . The portable apparatus of claim 12 , further comprising an interactive user interface configured to allow a user to enter the pre-defined dryness level, and wherein the interactive user interface comprises the display where the porosity is displayed. 17 . The portable apparatus of claim 11 , wherein the digital recording device comprises a digital scale configured to perform the first measurement of the mass of the soil sample acquired by the first container. 18 . The portable apparatus of claim 11 , wherein the digital recording device comprises a digital scale configured to perform the third measurement of the mass of the second container with the soil sample fully immersed in the fluid medium. 19 . The portable apparatus of claim 11 , wherein control logic comprises a microprocessor configured to receive the first measurement, the second measurement, and the third measurement, and calculate the porosity based on the first measurement, the second measurement, and the third measurement. 20 . The portable apparatus of claim 11 , wherein the portable apparatus is configured to provide the calculated porosity on a recurring basis at the field study site such that soil porosity at the field study site is monitored according to the recurring basis.