Solid instrumented spherical blast impulse recording device (SISBIRD)

What is claimed is: 1. An explosive testing system comprising: at least one Solid Instrumented Spherical Blast Impulse Recording Device (SISBIRD) comprising: a spherical housing formed of material that is resistant to an explosive blast wave from a test weapon and having a test payload bore shaft accessible through an opening in the spherical housing; a test data module received in the test payload bore shaft and comprising: a three-axis acceleration sensor; a memory; a controller communicatively coupled to the three-axis acceleration sensor and the memory and that executes a data acquisition utility to record, in the memory, acceleration data in three-dimensions from the three-axis acceleration sensor during exposure of the spherical housing to the explosive blast wave; and a door fastened over the opening in the spherical housing; at least one pedestal at a respective predefined location from an explosive device and that supports one of the at least one SISBIRD; a test controller that triggers the explosive device to produce a blast impulse that propels each of the at least one SISBIRD from their respective at least one pedestal through the air; and a computer that analyzes the acceleration data caused by the blast impulse and retrieved from the at least one SISBIRD. 2. The SISBIRD explosive testing system of claim 1 , wherein: the test data module comprises a pressure sensor that communicates to an exterior of the spherical housing; and the controller communicatively is coupled to the pressure sensor and the memory and that executes the data acquisition utility to record, in the memory, pressure data from the pressure sensor during the exposure of the spherical housing to the explosive blast wave. 3. The explosive testing system of claim 1 , wherein: the test data module comprises a temperature sensor that communicates to an exterior of the spherical housing; and the controller communicatively is coupled to the temperature sensor and the memory and that executes the data acquisition utility to record, in the memory, temperature data from the temperature sensor during the exposure of the spherical housing to the explosive blast wave. 4. The explosive testing system of claim 1 , wherein: the test data module comprises a geographic location sensor; and the controller communicatively is coupled to the geographic location sensor and the memory and that executes the data acquisition utility to record, in the memory, geographic location data from the geographic location sensor during the exposure of the spherical housing to the explosive blast wave. 5. The explosive testing system of claim 1 , wherein: the test data module comprises a beacon; and the controller communicatively is coupled to the beacon and the memory and that executes the data acquisition utility to activate the beacon in response to the exposure of the spherical housing to the explosive blast wave. 6. The explosive testing system of claim 1 , wherein the test controller wirelessly receives test data from the at least one SISBIRD.