Piggybacking Unmanned Aerial Vehicle

What is claimed is: 1 . A method of operating an unmanned aerial vehicle (UAV), comprising: determining, by a processor of the UAV, whether to dock on a vehicle to reach a UAV destination; identifying, by the processor, one or more candidate vehicles for docking in response to determining to dock on the vehicle; determining, by the processor, travel profile characteristics of the one or more candidate vehicles; selecting, from among the one or more candidate vehicles, a first vehicle having one or more travel profile characteristics that will assist the UAV in reaching the UAV destination; and docking the UAV with the first vehicle. 2 . The method of claim 1 , wherein determining whether to dock on the vehicle comprises: determining, by the processor, whether a charge level of an onboard battery of the UAV is sufficient to meet a mission power parameter for reaching the UAV destination; and determining to dock on the vehicle is in response to determining that the charge level of the onboard battery of the UAV is insufficient to meet the mission power parameter. 3 . The method of claim 1 , wherein determining whether to dock on the vehicle comprises: determining, by the processor, whether docking on the vehicle is more cost effective for reaching the UAV destination than not docking on the vehicle. 4 . The method of claim 1 , wherein determining, by the processor, travel profile characteristics of the one or more candidate vehicles comprises: receiving from each of the one or more candidate vehicles the one or more travel profile characteristics via an established communication link. 5 . The method of claim 1 , wherein determining, by the processor, travel profile characteristics of the one or more candidate vehicles comprises: receiving from a server computing device the one or more travel profile characteristics. 6 . The method of claim 1 , wherein identifying the one or more candidate vehicles for docking comprises: receiving an approval to dock from each of the one or more candidate vehicles. 7 . The method of claim 1 , wherein identifying the one or more candidate vehicles for docking comprises: receiving an approval to dock from a vehicle that does not include a docking mechanism specifically for receiving the UAV. 8 . The method of claim 1 , wherein the one or more travel profile characteristics include information selected from a group consisting of a current speed of the one or more candidate vehicles, a type of docking station with which the one or more candidate vehicles is equipped, whether the one or more candidate vehicles is willing to take small deviations from a course or route to allow the UAV to dock, whether the one or more candidate vehicles is willing to slow down to allow the UAV to dock, the maximum UAV weight the candidate vehicle may accept, the maximum UAV size the candidate vehicle can accept, traffic conditions, a location of the one or more candidate vehicles, a designated destination of the one or more candidate vehicles, a designated route of the one or more candidate vehicles, and contextual information from which an inferred destination or route may be determined by the processor. 9 . The method of claim 1 , wherein determining, by the processor, travel profile characteristics of the one or more candidate vehicles comprises receiving candidate vehicle destination information associated with the one or more candidate vehicles, and wherein selecting from among the one or more candidate vehicles a first vehicle having one or more travel profile characteristics that will assist the UAV in reaching the UAV destination comprises: comparing candidate vehicle destination information of each of the one or more candidate vehicles to the UAV destination; and selecting a candidate vehicle with destination information that is compatible with the UAV destination. 10 . The method of claim 1 , wherein selecting the first vehicle from the one or more candidate vehicles is based on one or more of: a first proximity of the first vehicle to the UAV; a second proximity of a designated destination of the first vehicle to the UAV destination; and an average speed of the first vehicle toward the designated destination of the first vehicle. 11 . The method of claim 1 , wherein selecting, from among the one or more candidate vehicles, the first vehicle having one or more travel profile characteristics that will assist the UAV in reaching the UAV destination comprises: estimating a docking duration that the UAV will be able to remain docked with each of the one or more candidate vehicles based on a destination of each candidate vehicle; and selecting the first vehicle based at least in part on whether the estimated docking duration enables the UAV to recharge an onboard battery to a level meeting mission power parameters that will assist the UAV in reaching the UAV destination. 12 . The method of claim 1 , wherein selecting, from among the one or more candidate vehicles, the first vehicle having one or more travel profile characteristics that will assist the UAV in reaching the UAV destination comprises: estimating a quantity of energy that may be harvested once docked with the first vehicle; and selecting the first vehicle based at least in part on whether the estimated quantity of energy enables the UAV to recharge an onboard battery to a level meeting mission power parameters that will assist the UAV in reaching the UAV destination. 13 . The method of claim 1 , wherein selecting, from among the one or more candidate vehicles the first vehicle having one or more travel profile characteristics that will assist the UAV in reaching the UAV destination comprises: determining a net recharge quantity of an onboard battery is estimated to be recharged once docked with the first vehicle, wherein the net recharge quantity takes into account an energy expenditure associated with the UAV completing a course deviation to reach the first vehicle; and selecting the first vehicle based at least in part on whether the net recharge quantity enables the UAV to recharge the onboard battery to a level meeting mission power parameters that will assist the UAV in reaching the UAV destination. 14 . The method of claim 1 , wherein selecting, from among the one or more candidate vehicles, the first vehicle having one or more travel profile characteristics that will assist the UAV in reaching the UAV destination comprises: determining a level of risk associated with docking on each of the one or more candidate vehicles, wherein the level of risk is selected from a group consisting of a disturbance likelihood, an ability of the UAV to remain stable while docked with the first vehicle, an availability of reliable fixation elements with the first vehicle, and a success rate of prior UAV piggybacking with the first vehicle; and selecting the first vehicle based at least in part on the determined level of risk. 15 . The method of claim 1 , wherein docking the UAV to the first vehicle comprises: flying the UAV to within a predetermined proximity of a docking mechanism of the first vehicle; and engaging a latching mechanism on the docking mechanism with a structure of the UAV. 16 . The method of claim 15 , further comprising charging an onboard battery of the UAV via a power connection or wireless charging mechanism on the docking mechanism while the UAV is docked to the first vehicle. 17 . The method of claim 1 , further comprising charging an onboard battery of the UAV by using rotors to harvest energy from wind caused by