Methods and apparatus for cross connection detection and mitigation in wireless power transfer networks

What is claimed is: 1. A method comprising: receiving first data from a first power transmitting unit (PTU); receiving second data from a second PTU, wherein the first PTU and the second PTU are capable of providing wireless power to power receiving units; generating, by executing an instruction with a processor of a gateway, a connected device association corresponding to the first PTU, the second PTU, and a power receiving unit (PRU) based on the first data and the second data; responsive to obtaining communication data from the second PTU, determining that the communication data is intended for the first PTU based on the connected device association, the PRU transmitting the communication data to the second PTU and the PRU receiving power from the first PTU; and transmitting the communication data to the first PTU. 2. The method of claim 1 , further including receiving third data from the first PTU, the third data corresponding to a communication connection between the PRU and the first PTU. 3. The method of claim 2 , further including determining that the PRU is cross connected by: in response to receiving the third data from the PTU, instructing the first PTU and second PTU to run a cross connection protocol, the cross connection protocol identifying which PTU is providing power to the PRU; when the PRU is receiving the power from the first PTU, determining that the PRU is not cross connected; and when the PRU is not receiving the power from the first PTU, determining that the PRU is cross connected. 4. The method of claim 3 , wherein, when the PRU is cross connected with the first PTU and the second PTU: correlating the PRU with the first PTU and the second PTU; and adding the correlation to the connected device association. 5. The method of claim 2 , wherein the communication data is first communication data, further including: receiving second communication data from the first PTU, the second communication data being generated by the first PTU; determining that the second communication data is intended for the PRU based on the connected device association; and transmitting the second communication data to the second PTU. 6. The method of claim 2 , wherein the third data includes at least one of an identifier of the PRU, a device type of the PRU, a cross connection status of the PRU, a timestamp, a class of the PRU, a power of the PRU, a status of the PRU, or a location of the PRU. 7. The method of claim 1 , wherein the communication data includes data related to the power. 8. An apparatus comprising: a receiver to (A) receive first data from a first power transmitting unit (PTU) and (B) second data from a second PTU, wherein the first PTU and the second PTU are capable of providing wireless power to power receiving units); a topology mapping generator to generate a connected device association corresponding to the first PTU, the second PTU, and a power receiving unit (PRU) corresponding to the first PTU, the second PTU, and a power receiving unit (PRU) based on the first data and the second data; a virtual connection controller to, responsive to obtaining communication data from the second PTU, determine that the communication data is intended for the first PTU based on the connected device association, the PRU transmitting the communication data to the second PTU and the PRU receiving power from the first PTU; and a transmitter to transmit the communication data to the first PTU. 9. The apparatus of claim 8 , wherein the receiver is to receive third data from the first PTU, the third data corresponding to a communication connection between the PRU and the first PTU. 10. The apparatus of claim 9 , wherein the topology mapping generator is to determine that the PRU is cross connected by: in response to receiving the third data from the PTU, instructing the first PTU and second PTU to run a cross connection protocol, the cross connection protocol identifying which PTU is providing power to the PRU; when the PRU is receiving the power from the first PTU, determining that the PRU is not cross connected; and when the PRU is not receiving the power from the first PTU, determining that the PRU is cross connected. 11. The apparatus of claim 10 , wherein the topology mapping generator is to, when the PRU is cross connected with the first PTU and the second PTU: correlate the PRU with the first PTU and the second PTU; and add the correlation to the connected device association. 12. The apparatus of claim 8 , wherein the communication data is first communication data, wherein: the receiver is to receive second communication data from the first PTU, the second communication data being generated by the first PTU; the virtual connection controller is to determine that the second communication data is intended for the PRU based on the connected device association; and the transmitter is to transmit the second communication data to the second PTU. 13. A non-transitory computer readable storage medium comprising instructions that, when executed, cause a machine to at least: receive first data from a first power transmitting unit (PTU); receive second data from a second PTU, wherein the first PTU and the second PTU are capable of providing wireless power to power receiving units; generate a connected device association corresponding to the first PTU, the second PTU, and a power receiving unit (PRU) based on the first data and the second data; responsive to obtaining communication data from the second PTU, determine that the communication data is intended for the first PTU based on the connected device association, the PRU transmitting the communication data to the second PTU and the PRU receiving power from the first PTU; and transmit the communication data to the first PTU. 14. The non-transitory computer readable storage medium of claim 13 , wherein the instructions cause the machine to receive third data from the first PTU, the third data corresponding to a communication connection between the PRU and the first PTU. 15. The apparatus of claim 8 , wherein: the first data includes at least one of an identifier of the first PTU, a class of the first PTU, a power of the first PTU, a maximum power of the first PTU, a timestamp associated with power-up of the first PTU, a status of the first PTU, or a physical location of the first PTU; and the second data includes at least one of an identifier of the second PTU, a class of the second PTU, a power of the second PTU, a maximum power of the second PTU, a timestamp associated with power-up of the second PTU, a status of the second PTU, or a physical location of the second PTU. 16. The non-transitory computer readable storage medium of claim 13 , wherein the receiver is to receive third data from the first PTU, the third data corresponding to the PRU connected to the first PTU. 17. The non-transitory computer readable storage medium of claim 14 , wherein the instructions cause the machine to determine that the PRU is cross connected by: in response to receiving the third data from the PTU, instructing the first PTU and second PTU to run a cross connection protocol, the cross connection protocol identifying which PTU is providing power to the PRU; when the PRU is receiving the power from the first PTU, determining that the PRU is not cross connected; and when the PRU is not receiving the power from the first PTU, determining that the PRU is cross connected. 18. The non-transitory computer readable storage medium of claim 17 , wherein the topology mapping generator is to, whe