Autonomous transportation system and methods

The invention claimed is: 1. A transportation system that manages the behavior of autonomous and manually driven vehicles (AVs and MVs) within a driving environment, the system comprising: a wireless communications interface that supports messaging between proximate AVs or MVs, infrastructure devices, pedestrians and any other active moving object in the driving environment; wherein the wireless communications interface is operative to send and receive encoded messages to and from vehicles, over an available radio-frequency band, in the driving environment enabling a subsystem of each AVs and a subsystem of each MVs to modify driving behavior including navigational adjustments along a planned driving path to improve traffic flow and avoid collisions based on a location of other AVs, MVs, pedestrians and moving objects in a proximal driving area of the AVs and MVs on roads in the driving environment, wherein the location is determined based on the encoded messages received over the available radio-frequency band and direct obstacle measurements by sensors, wherein the encoded messages include information regarding driving rules, the driving rules comprising route priority where the messages exchanged between vehicles determine a higher priority roadway and a lower priority roadway, and wherein for merging into a roadway, to enter the higher priority roadway, the vehicle on the lower priority roadway generates and encodes a request message, sends the encoded request message to AVs and MVs on the higher priority roadway over the available radio-frequency band, and waits to receive an acknowledgement message over the available radio-frequency band before entering the higher priority roadway; controlling the vehicle based on the received message to enter the higher priority roadway from the lower priority roadway. 2. The transportation system of claim 1 , wherein the infrastructure devices include status servers. 3. The transportation system of claim 1 , wherein the infrastructure devices includes a device operative to control intersection light sequencing or directional light functions. 4. The transportation system of claim 1 , wherein the same driving rules are shared by the AVs and the MVs. 5. The transportation system of claim 4 , wherein the driving rules contain one or more of the following: speed limits, lane keeping, lane change prohibitions, right-of-way, vehicle passing, vehicle spacing, and U-turns. 6. The transportation system of claim 4 , wherein the driving rules relate to one or more of the following: n-way stop intersections, traffic circles, open area navigation, and parking. 7. The transportation system of claim 4 , wherein messages exchanged between vehicles include route planning information. 8. The transportation system of claim 7 , wherein the route planning information includes route re-planning information when routes are determined to be blocked. 9. The transportation system of claim 1 , further including: a traffic controller is in wireless communication with devices carried by pedestrians and moving objects; and wherein the traffic controller is operative to send messages to the AVs and MVs enabling the AVs and MVs to determine the location of other AVs, MVs, pedestrians and moving objects in the proximal driving area of the AVs and MVs on roads in the driving environment. 10. The transportation system of claim 1 , further including: a traffic controller is in wireless communication with devices carried by pedestrians and moving objects; and wherein the traffic controller is operative to send messages to the AVs and MVs including information received from the navigation and roadway status servers. 11. The transportation system of claim 1 , further including: a traffic controller is in wireless communication with devices carried by pedestrians and moving objects; and wherein the traffic controller is operative to control intersection light sequencing or directional light functions to avoid accidents with the pedestrians and moving objects. 12. The transportation system of claim 11 , wherein: devices carried by pedestrians and moving objects are active localization and messaging tagging units; and the controller is operative to send messages to the AVs and the MVs regarding the position and movement of the pedestrians and moving objects. 13. The transportation system of claim 1 , wherein the sensors include one or more of the following: LADAR, LIDAR, RADAR, and optical, ranging or stereoscopic computer vision. 14. The transportation system of claim 1 , wherein: the AVs and MVs use inputs from the sensors and surroundings-to-vehicle information to allow for lateral deviations from a planned path. 15. The transportation system of claim 14 , including lateral deviations due to obstacles. 16. The transportation system of claim 14 , including lateral deviations due to road conditions. 17. The transportation system of claim 14 , including lateral deviations due to approaching construction or detours on the planned path. 18. The transportation system of claim 1 , wherein the available radio-frequency band includes a plurality of radio-frequency bands. 19. A transportation system that manages the behavior of autonomous and manually driven vehicles (AVs and MVs) within a driving environment, the system comprising: a wireless communications interface that supports messaging between proximate AVs or MVs, infrastructure devices, pedestrians and any other active moving object in the driving environment; wherein the wireless communications interface is operative to send and receive encoded messages to and from vehicles, over an available radio-frequency band, in the driving environment enabling a subsystem of each AVs and a subsystem of each MVs to modify driving behavior including navigational adjustments along a planned driving path to improve traffic flow and avoid collisions based on a location of other AVs, MVs, pedestrians and moving objects in a proximal driving area of the AVs and MVs on roads in the driving environment, wherein the location is determined based on the encoded messages received over the available radio-frequency band and direct obstacle measurements by sensors, wherein the encoded messages include information regarding driving rules, the driving rules comprising route priority where the messages exchanged between vehicles determine a higher priority roadway and a lower priority roadway, and wherein for entering a yield intersection, the vehicle on the lower priority roadway generates and encodes a message requesting creation of an entry hole, sends the encoded message requesting the creation of the entry hole to AVs and MVs on the higher priority roadway over the available radio-frequency band, and waits for a response message indicating availability of the entry hole, over the available radio-frequency band, before proceeding; controlling the vehicle based on the received message to enter the higher priority roadway from the lower priority roadway. 20. The transportation system of claim 19 , wherein the available radio-frequency band includes a plurality of radio-frequency bands.