Simultaneous traffic mapping for AI-assisted V2V and V2X in 5G/6G

The invention claimed is: 1. A method to localize vehicles in traffic, the method comprising: a) broadcasting, by a planning vehicle, a planning message specifying a time and requesting that each vehicle (a “cooperating” vehicle) that receives the planning message, simultaneously and at the specified time, determine a list of angles of other vehicles in view of the cooperating vehicle; b) receiving, from each cooperating vehicle, a reply message comprising the list of angles of each cooperating vehicle; c) determining, according to each list of angles, a traffic map comprising two-dimensional coordinates, relative to the planning vehicle, of each vehicle in view of each cooperating vehicle; and d) broadcasting a traffic map message comprising the traffic map. 2. The method of claim 1 , wherein the planning message and the traffic map are broadcast according to 5G or 6G technology. 3. The method of claim 1 , further comprising: a) determining, by the planning vehicle, one or more distances between the planning vehicle and one or more other vehicles in the traffic; and b) determining the two-dimensional coordinates of each of the vehicles according to the lists of angles and the distances. 4. The method of claim 1 , further comprising: a) receiving, in one or more of the reply messages, one or more distances measured by one or more of the cooperating vehicles; and b) determining the two-dimensional coordinates of each of the vehicles according to the lists of angles and the distances. 5. The method of claim 1 , further comprising: a) determining, by the planning vehicle, at the specified time, a first list of angles of vehicles in view of the planning vehicle; b) then receiving the reply messages; and then c) determining the traffic map according to the first list of angles and the lists of angles of the cooperating vehicles. 6. The method of claim 1 , wherein: a) each reply message further indicates a wireless address of the cooperating vehicle transmitting the reply message; and b) the traffic map is configured to indicate, for each cooperating vehicle, the wireless address associated with the two-dimensional coordinates of each cooperating vehicle. 7. The method of claim 1 , wherein: a) the reply message of each cooperating vehicle further indicates a color of each of the other vehicles in view of the cooperating vehicle; and b) the traffic map indicates the color of each vehicle in view of the cooperating vehicles. 8. The method of claim 7 , wherein: a) the color is encoded, in the reply message, according to a code comprising at most four bits. 9. The method of claim 1 , wherein: a) the reply message of each cooperating vehicle further indicates a vehicle type of each of the other vehicles in view of the cooperating vehicle; and b) the traffic map further indicates a color or vehicle type of each vehicle in view of the cooperating vehicles. 10. The method of claim 9 , wherein: a) the vehicle type is encoded, in the reply message, according to a code comprising at most four bits. 11. The method of claim 1 , wherein: a) a particular cooperating vehicle determines the list of angles of the particular cooperating vehicle at an acquisition time; and b) if the acquisition time differs from the specified time, the particular cooperating vehicle indicates, in the reply message, the acquisition time or a time difference between the acquisition time and the specified time. 12. The method of claim 1 , wherein: a) the planning message, the reply messages, and the traffic map message are broadcast on a predetermined frequency or frequency band allocated for wireless communications between vehicles. 13. The method of claim 12 , wherein: a) the wireless communications on the predetermined frequency or frequency band are restricted to a low transmission power level, wherein the low transmission power level comprises a power level high enough to provide communication at a first distance and low enough to prevent interference at a second distance larger than the first distance. 14. The method of claim 1 , wherein: a) each cooperating vehicle determines each angle of each other vehicle in view of the cooperating vehicle according to a centroid of the cooperating vehicle and a centroid of the other vehicle. 15. The method of claim 1 , wherein: a) each cooperating vehicle determines each angle of each other vehicle in view of the cooperating vehicle relative to a direction of a road. 16. The method of claim 1 , wherein: a) the reply message of each cooperating vehicle further comprises a latitude and a longitude of the cooperating vehicle according to satellite signals acquired at the specified time. 17. Non-transitory computer-readable media in an access point proximate to a roadway, the media including instructions that when implemented in a computing environment cause a method to be performed, the method comprising: a) broadcasting a planning message that requests each cooperating vehicle on the roadway to determine, at a specified time, an angle and a distance of each other vehicle in view of the cooperating vehicle, and transmit the angles and the distances to the access point; b) receiving, from each cooperating vehicle, a reply message comprising the angle and distance of each other vehicle in view of the cooperating vehicle; c) determining, according to the angles and distances, a traffic map or coordinate listing comprising a position, relative to the access point, of each of the vehicles on the roadway; and d) broadcasting the traffic map or the coordinate listing. 18. The non-transitory computer-readable media of claim 17 , wherein the method further comprises: a) determining, according to each reply message, a wireless address of each cooperating vehicle; and b) including, in the traffic map, the wireless address of each cooperating vehicle. 19. A cooperating vehicle configured to: a) receive a request message from a planning entity, the request message specifying a specified time and requesting that the cooperating vehicle measure, for each other vehicle in view of the cooperating vehicle at the specified time, an angle and a distance of the other vehicle, wherein the angle is relative to a road direction and the distance is relative to the cooperating vehicle; and b) transmit a reply message to the planning entity, the reply message indicating the angles and the distances measured by the cooperating vehicle, and a wireless address of the cooperating vehicle. 20. The cooperating vehicle of claim 19 , further configured to: a) receive, from the planning entity, a traffic map comprising two-dimensional coordinates of at least one other cooperating vehicle, and of each other vehicle in view of the at least one other cooperating vehicle; b) determine, according to the traffic map, that a collision is imminent between the cooperating vehicle and a second cooperating vehicle; and c) transmit, to the second cooperating vehicle, an emergency message.