Mobile power transmitter

The invention claimed is: 1. A system comprising: one or more charger vehicles, each charger vehicle comprising: an energy storage device; a primary wireless power transceiver, wherein the primary wireless power transceiver is configured to transmit power from the energy storage device to authorized wireless power receivers located within a range of the primary wireless power transceiver; a controller configured to: determine a route in an area for the charger vehicle; determine a schedule according to which the charger vehicle travels along the route; deploy the charger vehicle in the area, wherein the charger vehicle is configured to travel along the route; as the charger vehicle travels along the route, cause the primary wireless power transceiver to couple with one or more authorized wireless receivers located within the range of the primary wireless power transceiver, wherein the primary wireless power transceiver couples to the one or more authorized wireless receivers by establishing a respective first wireless resonant coupling link with each of the one or more authorized wireless receivers; and cause the primary wireless power transceiver to transmit power to at least one of the authorized wireless receivers via the respective first wireless resonant coupling link, and one or more repeater vehicles, wherein each repeater vehicle comprises a secondary wireless power transceiver configured to regenerate a wireless resonant signal, and wherein the controller is further configured to: receive information indicative of an interference condition that affects the range of the primary wireless power transceiver; and determine, based on the received information, a number of repeater vehicles to deploy into the area so as to extend the range of the primary transceiver of the charger vehicle; deploy the determined number of repeater vehicles into the area; and cause each repeater vehicle to couple to the charger vehicle via a respective second wireless resonant coupling link. 2. The system of claim 1 , wherein the controller is configured to determine the route in the area based on a location of the one or more authorized wireless receivers in the area. 3. The system of claim 1 , wherein the controller is configured to determine the route in the area based on a respective price per unit of power that each of the one or more authorized wireless receivers in the area is willing to pay. 4. The system of claim 1 , wherein the controller is further configured to: determine, based on a location of the one or more authorized wireless receivers in the area, a number of repeater vehicles to deploy into the area so as to extend the range of the primary transceiver of the charger vehicle; deploy the determined number of repeater vehicles into the area; and cause each repeater vehicle to couple to the charger vehicle via a respective second wireless resonant coupling link. 5. The system of claim 4 , wherein the controller is further configured to: select at least one receiver of the one or more authorized wireless receivers coupled to the charging vehicle; and facilitate a handover of the at least one receiver from the charging vehicle to a respective repeater vehicle. 6. The system of claim 5 , wherein the controller configured to select at least one receiver comprises the controller configured to: determine a respective strength of each of the first wireless resonant coupling links; and determine that the respective strength of the respective first wireless coupling link of the at least one receiver is below a threshold. 7. The system of claim 5 , wherein the controller is further configured to: select a first receiver of the at least one receiver coupled to the respective repeater vehicle; and facilitate a handover of the first receiver from the respective repeater vehicle to the charger vehicle. 8. The system of claim 4 , wherein the controller is further configured to: detect a new authorized wireless receiver; determine a location of the new authorized wireless receiver; based on the location of the new authorized wireless receiver, estimate a respective strength of a respective hypothetical wireless resonant coupling link between the new authorized wireless receiver and each one of: the charging vehicle and each one of the repeater vehicles; based on the estimated respective strength of each of the respective hypothetical wireless resonant coupling links, select a vehicle from one of: the charging vehicle and or one of the repeater vehicles; and cause the new authorized wireless receiver to couple with the selected vehicle by establishing a third wireless resonant coupling link with the selected vehicle. 9. The system of claim 4 , wherein the controller is configured to: determine a strength of each respective second wireless resonant coupling link between the charger vehicle and each of the repeater vehicles; based on the strength of each respective second wireless resonant coupling link, determine, for each of the repeater vehicles, a respective position with respect to the charger vehicle; and cause each of the one or more repeater vehicles to substantially maintain the determined respective position with respect to the charger vehicle. 10. The system of claim 1 , wherein the system is a rapid transit system providing public transit in the area, and wherein the charger vehicle is a commuter bus vehicle. 11. The system of claim 1 , wherein one or more traffic signals are disposed in the area, and wherein the controller is further configured to: estimate, based on a location of the charger vehicle with respect to a first traffic signal, a time at which the charger vehicle will be a threshold distance away from the first traffic signal; and at the estimated time, cause the first traffic signal to indicate right-of-way for the charger vehicle. 12. The system of claim 1 , wherein the route comprises one or more stops at stop locations along the route, wherein a charging zone is located near at least one of the stop locations, and wherein the controller is configured to: determine that the charger vehicle is within a range of a charging zone; determine that the charger vehicle is coupled to a power source disposed within the charging zone; and cause the charger vehicle to receive electrical energy from the power source; and route the received electrical energy to the electrical storage device to charge the electrical storage device. 13. A method of controlling vehicles deployed in an area, the method comprising: calculating a respective coupling coefficient corresponding to a threshold coupling strength between a charger vehicle and each of one or more repeater vehicles coupled to the charger vehicle via a first wireless resonant coupling link, wherein the charger vehicle comprises a primary wireless power transceiver, wherein the charger vehicle travels in the area based on a route and a schedule, and wherein each of the one or more repeater vehicles comprises a respective secondary wireless power transceiver; based on the calculated coupling coefficients, determining, for each of the one or more repeater vehicles, a respective threshold distance from the charger vehicle corresponding to the threshold coupling strength; and causing the one or more repeater vehicles to travel on respective routes that keep each of the one or more repeater vehicles no greater than the determined respective threshold distance from the charger vehicle. 14. The method of claim 13 , further comprising: detecting an authorized wireless receiver; determining a location of the authorized wireless receiver;