System and method to adapt communications responsive to actionable intelligence

What is claimed is: 1. A computer system for dynamically modifying multi-path routing communication pathways responsive to a triggering event, the system comprising: a sensor communications receiver in electronic communication with one or more sensors and configured to receive one or more data sets associated with the triggering event; a network communications controller device including at least a processor, the network communications controller device for communication with the sensor communications receiver and configured to determine a required change in communications performance relative to current communications performance for a target device; and the network communications controller device configured to provision the change in communications performance by modifying one or more data routing paths associated with one or more other networked devices to prioritize or deprioritize communications between the target device and a communications station; wherein the modifying of the one or more data routing paths includes re-allocating network links previously allocated to the one or more other networked devices and using the re-allocated network links for multi-path routing between the target device and a communications station; and wherein the modifying of the one or more data routing paths associated with one or more other networked devices includes transmitting a data message to one or more cellular base stations including electronic instructions to re-allocate one or more cellular communications vectors to provide the changed communications performance. 2. The system of claim 1 , wherein the multi-path routing between the target device and the communications station includes bonding of two or more communication channels. 3. The system of claim 1 , wherein the modifying of the one or more data routing paths includes modifying assignments of error control roles and data transmission roles of the one or more network links. 4. The system of claim 3 , wherein the one or more other network devices includes a portable cellular router, the portable cellular router electronically coupled to the target device through a local area network connection; and wherein the one or more data routing paths associated with the cellular router are assigned error control roles. 5. The system of claim 1 , wherein the sensor communications receiver receives at least a second one or more data sets associated with at least a second triggering event; wherein the modifying of the one or more data routing paths associated with one or more other networked devices includes prioritizing the triggering events into at least one lower priority triggering event and at least one higher priority triggering event; and wherein communication performance relating to the at least one higher priority triggering event are prioritized and communication performance relating to the at least one lower priority triggering event are de-prioritized. 6. The system of claim 1 , wherein the one or more cellular communications vectors include specific cellular communications channels in accordance with a modulation scheme. 7. The system of claim 1 , wherein the required change in communications performance is designated for one or more target locations based on a route of a vehicle stored in electronic memory, and the modifying of the one or more data routing paths associated with one or more other networked devices to prioritize communications between the target device and the communications station is pre-emptively conducted at the one or more target locations while the vehicle is moving to the one or more target locations. 8. The system of claim 1 , wherein the required change in communications performance is designated for a route of a vehicle or a person stored in electronic memory, and the modifying of the one or more data routing paths associated with one or more other networked devices to prioritize communications between the target device and the communications station includes modifying the one or more data routing paths corresponding to subsets of the one or more other networked devices that are proximate to the vehicle or the person while the vehicle or the person is traversing the route. 9. The system of claim 1 , wherein the one or more sensors include at least one of a weapon securement device sensor or an emergency vehicle lighting activation sensor, and the target device includes at least one of a body camera, an identification friend or foe transponder, or a dashboard camera. 10. The system of claim 1 , wherein the target device is adapted to record both a low bandwidth data stream and a high bandwidth data stream, the low bandwidth data stream being transmitted through the one or more data routing paths and the high bandwidth data stream being stored on local data storage or local computer memory. 11. A computer implemented method for dynamically modifying multi-path routing communication pathways responsive to a triggering event, the method comprising: receiving one or more data sets associated with the triggering event; determining a required change in communications performance relative to current communications performance for a target device; and provisioning the change in communications performance by modifying one or more data routing paths associated with one or more other networked devices to prioritize or deprioritize communications between the target device and a communications station; wherein the modifying of the one or more data routing paths includes re-allocating network links previously allocated to the one or more other networked devices and using the re-allocated network links for multi-path routing between the target device and a communications station; and wherein the modifying of the one or more data routing paths associated with one or more other networked devices includes transmitting a data message to one or more cellular base stations including electronic instructions to re-allocate one or more cellular communications vectors to provide the changed communications performance. 12. The method of claim 11 , wherein the multi-path routing between the target device and the communications station includes bonding of two or more communication channels. 13. The method of claim 11 , wherein the modifying of the one or more data routing paths includes modifying assignments of error control roles and data transmission roles of the one or more network links. 14. The method of claim 13 , wherein the one or more other network devices includes a portable cellular router, the portable cellular router electronically coupled to the target device through a local area network connection; and wherein the one or more data routing paths associated with the cellular router are assigned error control roles. 15. The method of claim 11 , wherein the method further comprises: receiving at least a second one or more data sets associated with at least a second triggering event; wherein the modifying of the one or more data routing paths associated with one or more other networked devices includes prioritizing the triggering events into at least one lower priority triggering event and at least one higher priority triggering event; and wherein communication performance relating to the at least one higher priority triggering event are prioritized and communication performance relating to the at least one lower priority triggering event are de-prioritized. 16. The method of claim 11 , wherein the the one or more cellular communications vectors include specific cellular communications channels in accordance with a modulation sc