Placement of virtual elements in a virtual world associated with a location-based parallel reality game

What is claimed is: 1. A computer-implemented method of locating virtual elements in a virtual world, the method comprising: hosting, at a server, a parallel reality game associated with the virtual world, the virtual world having a geography that parallels at least a portion of the real world such that a player can navigate the virtual world by moving to different geographic locations in the real world, the parallel reality game including interactions with virtual elements in the virtual world stored in a game database; receiving, at the server, location data indicating a geographic location of a mobile device associated with the player; predicting, based on a previous geographic location of the mobile device associated with the player and a current geographic location of the mobile device associated with the player, the player's future travel path in the virtual world; selecting a location in the virtual world on the player's predicted future travel path at which to add a new virtual element in the virtual world; placing the new virtual element at the selected location in the virtual world by updating the game database to include the new virtual element at the selected location; and transmitting, by the server to other mobile devices associated with other players, information for displaying the new virtual element at the selected location in the virtual world. 2. The computer-implemented method of claim 1 , wherein the location data includes data associated with aggregate locations of a plurality of individuals in the real world, and the location of the virtual element is one with high individual traffic. 3. The computer-implemented method of claim 2 , wherein selecting the location at which to add the new virtual element comprises: determining a number of individuals in an area that includes the location based on the location data; and determining the location is one with high individual traffic if the number of individuals in the area exceeds a threshold. 4. The computer-implemented method of claim 2 , wherein the data associated with the aggregate locations of the plurality of individuals comprises a heat map generated based on the locations of the plurality of individuals in the real world. 5. The computer implemented-method of claim 2 , wherein predicting the player's future travel path is additionally based on the aggregate locations of the plurality of individuals in the real world. 6. The computer-implemented method of claim 4 , wherein the heat map includes a plurality of cells, each cell associated with a specific geographic location. 7. The computer-implemented method of claim 6 , wherein each cell in the heat map is associated with a value for a number of locations of individuals located within the specific geographic location corresponding to the cell. 8. The computer-implemented method of claim 1 , wherein the player's future travel path is predicted further based on at least one of: current player direction, past location history of the player, aggregate movements of other players, or map data providing traversable paths. 9. The computer-implemented method of claim 1 , wherein the new virtual element is collectable by a first player of the other players responsive to user selection of the new virtual element in the virtual world. 10. The computer implemented-method of claim 1 , wherein predicting the player's future travel path comprises: accessing a database of aggregate player data and geographic conditions; determining, using the aggregate player data and geographic conditions, traversable paths proximate the current geographic location of the mobile device; and selecting one of the traversable paths as a current traversable path of the player based on the current geographic location of the mobile device and a direction of travel of the mobile device. 11. A computer-based system for implementing a parallel reality game, the computer-based system comprising: a game server operable to host the parallel reality game, the parallel reality game associated with a virtual world, the game server having one or more computer-readable media, one or more processors, and a network interface, wherein the virtual world has a geography that parallels at least a portion of the geography of the real world such that a player can navigate the virtual world by moving to different geographic locations in the real world; and a game database, communicatively coupled to the game server, configured to store locations of virtual elements in the virtual world and interactions with virtual elements by players of the parallel reality game, wherein the game server is configured to: receive, via the network interface, location data indicating a geographic location of a mobile device associated with the player; determine, based on location data, a location at which to add a new virtual element by predicting, based on a previous geographic location of the mobile device associated with the player and a current geographic location of the mobile device associated with the player, the player's future travel path in the virtual world, and selecting a location in the virtual world in the player's future travel path as the location; place the new virtual element at the determined location in the virtual world by updating the game database to include the new virtual element at the determined location; and transmit, to other mobile devices associated with other players via the network interface, information for displaying the new virtual element at the determined location in the virtual world. 12. The computer-based system of claim 11 , wherein the location data comprises data associated with aggregate locations of a plurality of individuals in the real world, and the location of the new virtual element is one with high individual traffic. 13. The computer-based system of claim 12 , wherein the game server selects the location for the new virtual element by performing operations including: determining a number of individuals in an area that includes the location based on the location data; and determining the location is one with high individual traffic if the number of individuals in the area exceeds a threshold. 14. The computer-based system of claim 12 , wherein the data associated with the aggregate locations of the plurality of individuals comprises a heat map generated based on the locations of the plurality of individuals in the real world. 15. The computer-implemented method of claim 14 , wherein the heat map includes a plurality of cells, each cell associated with a specific geographic location. 16. The computer-implemented method of claim 15 , wherein each cell in the heat map is associated with a value for a number of locations of individuals located within the specific geographic location corresponding to the cell. 17. A non-transitory computer-readable storage medium comprising instructions executable by a processor, the instructions comprising: instructions for sending, from a mobile device associated with a player, location data indicating a geographic location of the mobile device to a server, wherein the server hosts a parallel reality game associated with a virtual world, the virtual world having a geography that parallels at least a portion of the geography of the real world such that the player can navigate the virtual world by moving to different geographic locations in the real world, wherein the parallel reality game includes interactions with virtual elements in the virtual world stored in a game database; and instructions for receiving, by the mobile device