Systems and methods for wirelessly transmitting power from a transmitter to a receiver by determining refined locations of the receiver in a segmented transmission field associated with the transmitter

What is claimed is: 1. A computer-implemented method comprising: transmitting, by a transmitter device, into a transmission field associated with the transmitter device one or more first power waves and a first communications signal, the first communications signal containing a first set of transmission parameters defining one or more characteristics of the one or more first power waves; in response to the transmitter device receiving via a receiver communications signal from a receiver device, device data indicating a location of the receiver within a segment of the transmission field: transmitting, by the transmitter device, one or more second power waves and a second communications signal including a second set of transmission parameters into respective sub-segments within the segment of the transmission field in accordance with the device data, the second set of transmission parameters defining the one or more characteristics of the one or more second power waves; determining, by the transmitter device, one or more refined characteristics for one or more refined power waves defined by a set of refined parameters, wherein the set of refined parameters is determined based upon refined location data received from the receiver device indicating a refined location within a sub-segment; generating, by the transmitter device, the one or more refined power waves having the one or more refined characteristics, according to the set of refined parameters; and transmitting, by the transmitter, the one or more refined power waves into the sub-segment of the transmission field, thereby forming a pocket of energy at the refined location. 2. The method according to claim 1 , wherein determining the one or more refined characteristics further comprises: receiving, by the transmitter device, from the receiver device the refined location data indicating the refined location of the receiver relative to the transmitter, wherein the refined location is within the sub-segment of the transmission field. 3. The method according to claim 2 , wherein generating the one or more refined power waves having the one or more refined characteristics further comprises: determining, by the transmitter device, whether the refined location satisfies a predetermined sub-segment threshold level, wherein satisfying the predetermined sub-segment threshold level indicates that the refined location is sufficiently granular to define the pocket of energy at the refined location. 4. The method according to claim 3 , wherein the transmitter device continues, while transmitting the one or more refined power waves, to sequentially transmit one or more other power waves defined by respective sets of transmission parameters into respective segments of the transmission field to identify additional receivers within the transmission field. 5. The method according to claim 1 , wherein generating the one or more refined power waves having the one or more refined characteristics further comprises: increasing, by the transmitter device, a power level in the one or more characteristics of the power waves. 6. The method according to claim 1 , wherein a transmission parameter for a power wave is selected from the group consisting of: a power level, a radial distance, an azimuth angle, an elevation angle, a relative height of the receiver, a height coordinate, a relative horizontal location of the receiver, a horizontal coordinate, a relative distance to the receiver, and a distance coordinate. 7. The method according to claim 1 , further comprising continuously and sequentially scanning, by the transmitter device, the transmission field. 8. The method according to claim 7 , wherein continuously scanning the transmission field further comprises: continuously receiving, by the transmitter device and from the receiver, updated location data indicating a relative location of the receiver device to the transmitter device; and identifying, by the transmitter device, a displacement of the receiver device based upon the updated location data. 9. The method according to claim 7 , wherein continuously scanning the transmission field further comprises: sequentially transmitting, by the transmitter device, a plurality sets of power waves and a plurality of communications signals each including a set of transmission parameters into a plurality of sequential sub-segments of the transmission field respectively, wherein each sub-segment is associated with a respective set of power waves and a respective communications signal including a set of transmission parameters for the respective set of power waves. 10. The method according to claim 7 , wherein the transmitter device comprises a plurality of transmitter antennas including a first subset of transmitter antennas continuously scanning the transmission field, and a second subset of transmitter antennas continuously transmitting one or more power waves to the receiver device. 11. The method according to claim 1 , wherein determining the one or more refined characteristics for the power waves further comprises: updating, by the transmitter device, a heat-map memory according to location data received from the receiver, the heat-map memory comprising non-transitory machine-readable storage configured to store location data of one or more receiver devices for each sub-segment of the transmission field. 12. The method according to claim 1 , wherein the first set of transmission parameters define (1) a first energy level of the one or more first power waves, wherein the first energy level is lower than a second energy level of the one or more refined power waves, and/or (2) identifications of respective segments within the transmission field to which the one or more first power waves were transmitted. 13. The method according to claim 12 , wherein the one or more second power waves are transmitted using the first energy level. 14. The method according to claim 1 , wherein the receiver communications signal received from the receiver device further comprises (1) an efficiency indicator associated with the one or more first power waves received at the receiver device, and/or (2) a battery level of the receiver device. 15. A wireless power transmitter comprising: an antenna array; a communications component; and a transmitter processor configured to execute instructions for: transmitting, by the wireless power transmitter, into a transmission field associated with the wireless power transmitter one or more first power waves and a first communications signal, the first communications signal containing a first set of transmission parameters defining one or more characteristics of the one or more first power waves; in response to the wireless power transmitter receiving via a receiver communications signal from a receiver device, device data indicating a location of the receiver within a segment of the transmission field: transmitting, by the wireless power transmitter, one or more second power waves and a second communications signal including a second set of transmission parameters into respective sub-segments within the segment of the transmission field in accordance with the device data, the second set of transmission parameters defining the one or more characteristics of the one or more second power waves; determining, by the wireless power transmitter, one or more refined characteristics for one or more refined power waves defined by a set of refined parameters, wherein the set of refined parameters is determined based upon refined location data received from the receiver device indicating a refined location within a sub-segm