Sensor platform for context-aware experimental research

What is claimed is: 1. A platform for context-aware experimentation, comprising: at least one sensor platform, comprising: a housing, the housing being configured to hold at least some electronic components comprising the sensor platform; at least one sensor located within the housing, the sensor being configured for obtaining data pertaining to at least one parameter related to an on-going experiment; a communications subsystem located within the housing, the communications subsystem being configured for transmitting, in real-time, data obtained by the at least one sensor to a computer processor located outside the housing; and at least one microcontroller located within the housing, the microcontroller being connected to the at least one sensor and the communications subsystem and being configured for receiving data from the at least one sensor and providing it, in real-time, to the communications subsystem for transmission; and a computer processor located outside the housing, the computer processor specially configured for: receiving, in real-time from the communications subsystem, and analyzing, in real-time, the data obtained by the at least one sensor; determining, in real-time, from the received data, the experimental context in which the at least one sensor is operating; determining, in real-time, based on the determined experimental context and the received data, which experimental step in a protocol a particular user is performing; and reminding the user, in real-time, of upcoming required timings and other parameters for executing the steps in the protocol. 2. The platform of claim 1 , wherein the housing is a tube. 3. The platform of claim 2 , wherein the tube is further configured to hold a sample. 4. The platform of claim 2 , further comprising a tube cap. 5. The platform of claim 1 , wherein the housing is a waterproof, chemically inert package. 6. The platform of claim 5 , wherein the waterproof package has an opening to admit at least part of a sample. 7. The platform of claim 1 , wherein each of the at least one sensor is selected from the group consisting of: temperature sensor, optical density sensor, absorbance sensor, accelerometer, gyroscope, pH sensor, humidity sensor, CO 2 sensor, and conductivity sensor. 8. The platform of claim 1 , wherein the microcontroller is further configured for controlling the at least one sensor. 9. The platform of claim 1 , further comprising power source located within the housing. 10. The platform of claim 9 , wherein the power source comprises wireless charging circuitry. 11. The platform of claim 1 , further comprising a communications mesh network located outside the housing and configured for relaying, in real-time, the sensor data from the communications subsystem to the computer processor for analysis. 12. The platform of claim 11 , wherein the computer processor is further specially configured for receiving and analyzing, in real-time, data obtained from the communications mesh network about the location of at least one sensor. 13. The platform of claim 12 , wherein the computer processor is further specially configured for receiving and analyzing, in real-time, data obtained from the communications mesh network about the location of at least one user. 14. The platform of claim 1 , wherein the computer processor is further configured to receive user input about at least one experimental step in a protocol. 15. The platform of claim 14 , wherein the computer processor is further configured to receive, from the user, information about required timings and other parameters for the steps in the protocol.