Method and system for granting in-game resources for a telematics-based game. In some examples, a computer-implemented method includes: generating, based on a character profile, one or more virtual occurrences to be encountered by a virtual character; determining, based on a plurality of virtual ratings of the virtual character, one or more outcomes associated with the one or more virtual occurrences; determining, based on a user's driving performance during one or more real trips, a first quantity of a first game resource at least for purchasing outcome-modifying items, the outcome-modifying items being exclusively purchasable using the first game resource; upon receiving the user's selection to use a first outcome-modifying item: updating the one or more outcomes according to a predetermined adjustment; and determining, based on the updated one or more outcomes, a second quantity of a second game resource at least for purchasing character cosmetic upgrades, unlocking in-game items, and unlocking regions of a virtual map.

A modular system for creating a location-based gamified application configured to be played by one or more player units on a playground, uses a location-based mobile game application configured to track and supervise the creation of the location-based gamified application. A gaming content module is configured to store a plurality of contents of different media required for creation of the gamified application. A database storing a plurality of customization and relocation tools, is provided wherein the tools are organized in a plurality of hierarchical templates. Tools include a Generic Gaming Core template for creating a basic skeleton of the gamified application, a Setup Design template for incorporating a relocation component into the Generic Gaming Core corresponding to a specific location and environment, and a User Customization template for enhancing the gamified application experience.

Virtual entities are displayed alongside real world entities in a wearable reality overlay device worn by the user. Information related to an environment proximate to the wearable device is determined. For example, a position of the wearable device may be determined, a camera may capture an image of the environment, etc. Virtual entity image information representative of an entity desired to be virtually displayed is processed based on the determined information. An image of the entity is generated based on the processed image information as a non-transparent region of a lens of the wearable device, enabling the entity to appear to be present in the environment to the user. The image of the entity may conceal a real world entity that would otherwise be visible to the user through the wearable device. Other real world entities may be visible to the user through the wearable device.

Method and system for training a virtual character of a telematics-based game. In some examples, a computer-implemented method includes: determining, based at least in part upon telematics data, a plurality of skill points associated with a plurality of real skills exhibited by the user during the one or more real trips; training a virtual character by at least updating, based at least in part upon the plurality of skill points, the plurality of virtual ratings; generating, based at least in part upon the character profile, one or more virtual occurrences to be encountered by the virtual character; determining, based at least in part upon the updated plurality of virtual ratings, one or more outcomes associated with the one or more virtual occurrences; updating the character profile by at least applying the one or more virtual occurrences based on the associated one or more outcomes to the virtual character.

A method for dynamic adjustment of interactive game play includes identifying a game session for a game played between first and second players, with the first and second players being connected from geographic locations having first and second elevations, respectively. The method also includes determining an objective in the game that the first and second players are predicted to achieve, and identifying a first path to be traversed by the first player to reach the objective in the game and identifying a second path to be traversed by the second player to reach the objective in the game. Each of the first and second paths includes a respective plurality of game actions to be accomplished by the first and second players. The method further includes adjusting a physical activity rating of select ones of the respective plurality of game actions based on a difference between the first and second elevations.

A system provides an augmented reality (AR) experience in a parallel-reality application in which a geography of a virtual world parallels a geography of the real world. The system receives a connection request from a client device and receives a route that the client device traversed in the real world. The route comprises a plurality of locations in the real world. The system determines a plurality of virtual locations to place virtual elements at, where each virtual element corresponds to a location in the real world of the route. The system updates a global state of the AR experience to include the plurality of virtual elements at the plurality of virtual locations. The system provides, to a second client device, AR data including some of the virtual locations for display of some of the virtual elements at the corresponding locations in the real world.

A convenience gaming system is provided. The convenience gaming system allows users to access applications via gaming communication devices coupled to a communication network. At least a portion of the network may be wireless. The gaming applications include gambling, financial, entertainment service, and other types of transactions. The system may include a user location determination feature to prevent users from conducting transactions from unauthorized areas.

A server device that incorporates teachings of the present disclosure may include, for example, a memory and a processor. The processor can identify first and second players present at first and second physical locations, to identify first and second boundary and topographical information of the first and second physical locations, to map the first and second boundary and topographical information of the first and second physical locations to a virtual gaming space, to capture first and second position and orientation information for the first and second players, to map the first and second position and orientation information to the virtual gaming space, to generate first and second virtual players corresponding to the first and second players, and to transmit to first goggles information representative of the second virtual player for display superimposed onto a transparent viewing apparatus for viewing of the virtual gaming space. Additional embodiments are disclosed.

The present disclosure relates to augmented reality, virtual reality, mixed reality, and extended reality systems, and more specifically, to systems and methods for managing multiplayer communications seamlessly across platforms and distributed geographic locations.

A computer-implemented method is provided for enabling virtual gameplay. Access is provided to at least one video game in which a player is able to interact with the video game according to a storyline. A player location is detected and stored. A local element is retrieved from a database based on the player location and the local element is correlated to a local element script actuatable in the video game. This local element script is retrieved and actuated in the video game to supplement or replace the video game's storyline.