Flight control for flight-restricted regions

What is claimed is: 1 . An unmanned aerial vehicle comprising: one or more processors individually or collectively configured to (1) obtain a location of the unmanned aerial vehicle, (2) calculate a distance between the location of the unmanned aerial vehicle and a location of a flight restricted region, and (3) assess whether the distance falls within a distance threshold; and one or more propulsion units in communication with the one or more processors, the one or more propulsion units configured to (1) permit the unmanned aerial vehicle to take off when the distance exceeds the distance threshold and (2) prevent the unmanned aerial vehicle from taking off when the distance falls within the distance threshold. 2 . The unmanned aerial vehicle of claim 1 , wherein the location of the unmanned aerial vehicle comprises coordinates of the unmanned aerial vehicle at rest on a surface. 3 . The unmanned aerial vehicle of claim 1 , wherein the location of the unmanned aerial vehicle comprises coordinates of an external device in communication with the unmanned aerial vehicle. 4 . The unmanned aerial vehicle of claim 3 , wherein the coordinates of the external device are received with aid of a GPS signal at the external device. 5 . The unmanned aerial vehicle of claim 3 , wherein the external device is a mobile terminal capable of receiving data from the unmanned aerial vehicle. 6 . The unmanned aerial vehicle of claim 5 , wherein the mobile terminal is capable of transmitting control data to the unmanned aerial vehicle and controlling flight of the unmanned aerial vehicle. 7 . The unmanned aerial vehicle of claim 1 , wherein the location of the unmanned aerial vehicle is received with aid of a GPS signal at the unmanned aerial vehicle. 8 . The unmanned aerial vehicle of claim 1 , further comprising a local memory that stores the location of the flight-restricted region and further stores locations for a plurality of flight-restricted regions. 9 . The unmanned aerial vehicle of claim 8 , wherein the local memory is updated with the locations of the plurality of flight restricted regions when the unmanned aerial vehicle communicates with an external device via a wired or wireless connection. 10 . The unmanned aerial vehicle of claim 8 , wherein the local memory is updated with the locations of the plurality of flight restricted regions when the unmanned aerial vehicle communicates with a communication network. 11 . The unmanned aerial vehicle of claim 1 , wherein the flight-restricted region is an airport. 12 . The unmanned aerial vehicle of claim 1 , wherein the distance is calculated at specified time intervals when the unmanned aerial vehicle is turned on. 13 . The unmanned aerial vehicle of claim 1 , wherein the location of the flight restricted region is selected from a plurality of possible flight restricted regions based on proximity of the unmanned aerial vehicle to each of the plurality of possible flight restricted regions. 14 . The unmanned aerial vehicle of claim 1 , wherein the distance threshold is about 5 miles. 15 . A method for evaluating a takeoff condition for an unmanned aerial vehicle, said method comprising: assessing a location of the unmanned aerial vehicle of claim 1 ; assessing the location of the flight restricted region; calculating, with aid of the one or more processors, the distance between the unmanned aerial vehicle and the flight restricted region using the location of the unmanned aerial vehicle and the location of the flight restricted region; assessing, with aid of the one or more processors, whether the distance falls within the distance threshold; and preventing the unmanned aerial vehicle from taking off when the distance falls within the distance threshold. 16 . An unmanned aerial vehicle comprising: one or more processors individually or collectively configured to (1) obtain a location of the unmanned aerial vehicle, (2) calculate a distance between the location of the unmanned aerial vehicle and a location of a flight restricted region, and (3) assess whether the distance falls within a distance threshold; and one or more propulsion units in communication with the one or more processors, the one or more propulsion units configured to automatically land the unmanned aerial vehicle when the distance falls within the distance threshold. 17 . The unmanned aerial vehicle of claim 16 , wherein the location of the unmanned aerial vehicle is received with aid of a GPS signal at the unmanned aerial vehicle. 18 . The unmanned aerial vehicle of claim 16 , further comprising a local memory that stores the location of the flight-restricted region and further stores locations for a plurality of flight-restricted regions. 19 . The unmanned aerial vehicle of claim 18 , wherein the local memory is updated with the locations of the plurality of flight restricted regions when the unmanned aerial vehicle communicates with an external device via a wired or wireless connection. 20 . The unmanned aerial vehicle of claim 18 , wherein the local memory is updated with the locations of the plurality of flight restricted regions when the unmanned aerial vehicle communicates with a communication network. 21 . The unmanned aerial vehicle of claim 16 , wherein the flight-restricted region is an airport. 22 . The unmanned aerial vehicle of claim 16 , wherein the distance is calculated at specified time intervals when the unmanned aerial vehicle is turned on. 23 . The unmanned aerial vehicle of claim 16 , wherein the location of the flight restricted region is selected from a plurality of possible flight restricted regions based on proximity of the unmanned aerial vehicle to each of the plurality of possible flight restricted regions. 24 . The unmanned aerial vehicle of claim 16 , wherein the unmanned aerial vehicle is landed immediately when the distance falls within the distance threshold. 25 . The unmanned aerial vehicle of claim 16 , wherein the unmanned aerial vehicle is landed after a time period if the unmanned aerial vehicle has not been landed by an operator. 26 . The unmanned aerial vehicle of claim 16 , wherein the location of the unmanned aerial vehicle includes coordinates of an external device in communication with the unmanned aerial vehicle. 27 . The unmanned aerial vehicle of claim 26 , wherein the coordinates of the external device are received with aid of a GPS signal at the external device. 28 . The unmanned aerial vehicle of claim 26 , wherein the external device is a mobile terminal capable of receiving data from the unmanned aerial vehicle. 29 . The unmanned aerial vehicle of claim 28 , wherein the mobile terminal is capable of transmitting control data to the unmanned aerial vehicle and controlling flight of the unmanned aerial vehicle. 30 . A method for assessing flight response of an unmanned aerial vehicle, said method comprising: assessing the location of the unmanned aerial vehicle of claim 16 ; assessing the location of the flight restricted region; calculating, with aid of the one or more processors, the distance between the unmanned aerial vehicle and the flight restricted region using the location of the unmanned aerial vehicle and the location of the flight restricted region; assessing, with aid of the one or more pro