UAV cellular communication service delivery

What is claimed is: 1. A system, comprising: one or more processors; and memory having instructions stored therein, the instructions, when executed by the one or more processors, cause the one or more processors to perform acts comprising: determining geolocations of a plurality of user devices in a geographical area that is serviced by an unmanned aerial vehicle (UAV) network cell, the UAV network cell extending network coverage of a wireless carrier network to at least a portion of the geographical area; sending a control command to the UAV network cell that dispatches the UAV network cell to travel according to a flight trajectory that provides network coverage to one or more specific user devices of the plurality user devices in the geographical area based on the geolocations of the plurality of user devices, the UAV network cell using a backhaul of a ground network cell to route communication of the one or more specific user devices to a core network of the wireless carrier network receiving a first signal robustness value for the ground network cell and a second signal robustness value for a particular network cell that is proximate to the ground network cell from a user device that is communicating with the ground network cell, the second signal robustness value being greater than the first signal robustness value; sending a command that directs the user device to switch from communicating with the ground network cell to communicating with the particular network cell in response to determining that the particular network cell is an additional UAV network cell that is not using the backhaul of the ground network cell to route communication of any user devices to the core network; and refraining from sending the command that directs the user device to switch from communicating with the ground network cell to communicating with the particular network cell in response to determining that the particular network cell is the UAV network cell that is using the backhaul of the ground network cell to route communication to the core network, despite the first and second robustness values indicating that the UAV network cell provides a stronger communication signal to the user device than the ground network cell. 2. The system of claim 1 , wherein the acts further comprise: receiving a request to provide network coverage for the geographical area, the request being manually inputted by a user or initiated by a fault detection software that detected a failure in a base station of the wireless carrier network; and sending an additional control command that dispatches the UAV network cell to the geographical area in response to determining at least that a ground vehicle for providing the network coverage is not deployable to the geographical area or not deployable to the geographical area in a predetermined amount of time. 3. The system of claim 2 , wherein the sending the additional control command includes sending the additional control command further in response the operation condition data indicating that the UAV is deployable to the geographical area. 4. The system of claim 1 , wherein the operation condition data includes one or more of meteorological data for the geographical area, flight performance and communication specification data for the UAV network cell, terrain data for the geographical area, flight schedule data for aircraft that traverses the geographical area, flight plan data for aircraft that traverse the geographical area, governmental flight regulation data for the geographical area, or governmental flight restriction data for the geographical area. 5. The system of claim 1 , wherein the refraining further comprises refraining from sending the command in response to determining that the particular network cell is the UAV network cell that is using the backhaul of the ground network cell to route communication to the core network and a difference between the second signal robustness value and the first signal robustness value does not exceed a maximum difference value. 6. The system of claim 1 , wherein the acts further comprise directing the UAV network cell to operate in a modified geographical area that is a portion of the geographical area, overlaps the geographical area, or is different from the geographical area in response to a modification to the geographical area. 7. The system of claim 1 , wherein the acts further comprise at least one of replacing or supplementing the UAV network cell with another UAV network cell in response to a trouble indication from the UAV network cell, or in response to an indication that communication capabilities of the UAV network cell are insufficient to sustain one or more quality of experience (QoE) metrics with respect to an audio communication quality or a video communication quality for the one or more specific user devices. 8. The system of claim 7 , wherein the one or more specific user devices are located in a particular portion of the geographical area, further comprising dispatching another UAV network cell to provide the network coverage to the one or more specific user devices in response to the flight trajectory not enabling the UAV network cell to reach the particular portion of the geographical area due to a terrain feature or a structure. 9. The system of claim 1 , wherein the one or more specific user devices includes a largest cluster of user devices, a selected group of user devices, or a particular group of one or more high priority user devices that belong to emergency responders. 10. The system of claim 1 , wherein the generating includes using a best fit algorithm to generate the flight trajectory that fits the UAV network cell within the geolocations of the one or more specific user devices. 11. The system of claim 1 , wherein the generating includes generating the flight trajectory based in part on operation condition data that indicate one or more of a natural or manmade structure in the geographical area that affects the flight trajectory, a terrain feature that blocks signal transmission, a weather phenomenon that the UAV network cell has to avoid, or a governmental flight regulation or flight restriction that forces an alteration of the flight trajectory. 12. The system of claim 1 , wherein the UAV network cell is a fixed wing aircraft, a rotary wing aircraft, a rigid buoyant gas airship, or a non-rigid buoyant gas airship. 13. The system of claim 1 , wherein a geolocation of a user device of the plurality of user devices is provided by a global positioning system (GPS) component of the user device or triangulated for the user device from multiple signal robustness measurements provided by the user, the multiple signal robustness measurements being obtained by the user device for communication signals transmitted by the UAV network cell. 14. One or more non-transitory computer-readable media storing computer-executable instructions that upon execution cause one or more processors to perform acts comprising: dispatching an unmanned aerial vehicle (UAV) network cell to a geographical area in response to determining at least that a ground vehicle for providing network coverage of a wireless carrier network is not deployable to the geographical area due to the lack of roadways in the geographical area; determining geolocations of a plurality of user devices in the geographical area that are serviced by the network cell, the UAV network cell extending the network coverage of the wireless carrier network to at least a portion of the geographical area; receiving operation condition data for the geographical area that affect at least one of UAV flight or UAV communicat