Fall-direction mannequin training system with fall-direction control and/or randomization

We claim: 1. A system comprising: a mannequin; a plurality of sensors coupled to the mannequin configured to generate at least one sensed signal; first and second latching mechanisms independently controlled, each of the first and second latching mechanisms having a latched state and an unlatched state; first and second pins providing an axis of rotation, the first pin being releasably coupled to the first latching mechanism and the second pin being releasably coupled to the second latching mechanism; and a computing device coupled to the plurality of sensors and the first and second latching mechanisms, the computing device to select a fall-direction from a plurality of different fall-direction options based on the at least one sensed signal and to cause the unlatching of the first latching mechanism to release the first pin or the second latching mechanism to release the second pin based on the selected fall-direction of the plurality of different fall-direction options. 2. The system of claim 1 , wherein the computing device being configured to release the other latching mechanism after a predetermined delay. 3. The system of claim 1 , wherein the fall-direction includes a right fall-direction or a left fall-direction; and wherein the first pin is a right pin and the first latching mechanism is a right latching mechanism when the fall-direction is a right fall-direction; and, alternately, the first pin is a left pin and the first latching mechanism is a left latching mechanism when the fall-direction is a left fall-direction. 4. The system of claim 3 , wherein the selected fall-direction is selected randomly. 5. The system of claim 4 , wherein options in the plurality of fall-direction options are configurable. 6. The system of claim 1 , wherein when the computing device causes the unlatching of the first latching mechanism to release the first pin, simultaneously the computing device to cause the second latching mechanism to release the second pin based on the selected fall-direction being a forward fall-direction. 7. The system of claim 1 , further comprising a fall-direction control platform, the fall-direction control platform includes: a first part having the first and second latching mechanism, a first upper member supported by an upright support member and a base coupled to the upright support member; and a second part having a second upper member, the first and second pins coupled to the second upper member and a mannequin interface configured to couple the mannequin to the second part. 8. The system of claim 1 , wherein the plurality of sensors includes a plurality of shock sensors, Multiple Integrated Laser Engagement System (MILES) sensors or a European laser tag standard. 9. A system comprising: a mannequin; a plurality of sensors coupled to the mannequin configured to generate at least one sensed signal; a computing device coupled to the plurality of sensors and the first and second latching mechanisms, the computing device to select a fall-direction from a plurality of different fall-direction options based on the at least one sensed signal and to cause the unlatching of the first latching mechanism to release the first pin or the second latching mechanism to release the second pin based on the selected fall-direction of the plurality of different fall-direction options; a fall-direction control platform including: a first part comprising: an upper member, a first latching mechanism coupled to the upper member on a first side; a second latching mechanism coupled to the upper member on a second side, the second side being horizontally aligned with the first side; an upright support member coupled to the upper member; and a base coupled to the upright support member; and a second part comprising: a second upper member; first and second latching pins coupled to the second upper member, the first and second latching pins being releasably coupleable to the first and second latching mechanism; and a mannequin interface configured to couple a mannequin to the second part; and communication interfaces to the first latching mechanism and the second latching mechanism, the communication interface to communicate control signals from the computing device to the first latching mechanism and the second latching mechanism based on a fall-direction sequence. 10. The system of claim 9 , wherein the computing device is configured to be coupled to a plurality of sensors and the first and second latching mechanisms via the communication interfaces; and the computing device is configured to select the fall-direction sequence from a plurality of different fall-direction sequences based on at least one sensed signal from the plurality of sensors and to cause the unlatching of the first latching mechanism to release the first pin or the second latching mechanism to release the second pin based on the selected fall-direction sequence. 11. The system of claim 10 , wherein the selected fall-direction sequence includes a right fall-direction sequence or a left fall-direction sequence; and wherein the first pin is a right pin and the first latching mechanism is a right latching mechanism when the fall-direction is a right fall-direction sequence; and, alternately, the first pin is a left pin and the first latching mechanism is a left latching mechanism when the fall-direction is a left fall-direction sequence. 12. The system of claim 10 , wherein the selected fall-direction sequence is selected randomly. 13. The system of claim 10 , wherein the plurality of fall-direction sequence are configurable. 14. The system of claim 10 , wherein when the computing device causes the unlatching of the first latching mechanism to release the first pin, simultaneously the computing device to cause the second latching mechanism to release the second pin based on the selected fall-direction sequence being a forward fall-direction sequence. 15. A method comprising: sensing, by a plurality of sensors, a parameter associated with a hit to a mannequin; selecting, by a computing device, a fall-direction sequence from a plurality of fall-direction sequences when a hit is sensed by at least one sensor; causing unlatching, by the computing device, of a first latching mechanism to release a first pin to cause the mannequin to begin to fall under gravitational forces in a direction associated with the selected fall-direction sequence; causing unlatching, by the computing device, of a second latching mechanism to release a second pin to cause a fall of the mannequin in the direction of the fall-direction sequence; independently controlling the first latching mechanism wherein the first latching mechanism has a latched state and an unlatched state; independently controlling the second latching mechanism wherein the second latching mechanism has a latched state and an unlatched state; providing an axis of rotation about the first pin, the first pin being releasably coupled to the first latching mechanism; and providing an axis of rotation about the second pin, the second pin being releasably coupled to the second latching mechanism. 16. The method of claim 15 , wherein the selecting by the computing device includes randomly selecting by the computing device the fall-direction sequence from the plurality of fall-direction sequences. 17. The method of claim 15 , wherein the causing of the unlatching of the first latching mechanism to release the first pin and the causing of the unlatching of the second latching mechanism to release the second pin occurs simultaneously based o