Data processing/GUIs for NFT block chain data to “tell the story” of ownership or highlight “cool” aspects of a computer game-related NFT in simplified way. Machine learning (ML) may be used to boil down the complexity of data to what people need or want to understand. The displayed timeline of ownership as presented in a GUI can be interactive. Types of metadata to encapsulate in the NFT are discussed.

Systems and methods for integrating biometric data into gameplay of interactive content titles are provided. More specifically, such systems and methods may provide a healthcare gamification hub in an online gaming system. whereby players are incentivized to reach health and wellness goals that may be translated into in-game or metagaming resources for interactive content titles. Earning game resources may be associated stored health gamification rules that specify actions associated with corresponding biometric data and a virtual reward that is redeemable towards one or more in-game rewards associated with one or more interactive content titles. Real-time biometric data regarding a user may be received and the biometric data may be captured by one or more sensor devices.

Systems and methods for integrating biometric data into gameplay of interactive content titles are provided. More specifically, such systems and methods may provide a healthcare gamification hub in an online gaming system. whereby players are incentivized to reach health and wellness goals that may be translated into in-game or metagaming resources for interactive content titles. Earning game resources may be associated stored health gamification rules that specify actions associated with corresponding biometric data and a virtual reward that is redeemable towards one or more in-game rewards associated with one or more interactive content titles. Real-time biometric data regarding a user may be received and the biometric data may be captured by one or more sensor devices.

A variable-resistance exercise machine with network communication for smart device control and brainwave entrainment, comprising an exercise machine with a plurality of moving surfaces, that each provide an independent degree of resistance to movement, a sensor that detects movement and provides output to a controller, a brainwave entrainment manager that selects a brainwave entrainment frequency based on the sensor output, and a controller that receives an input from a user device, changes the operation of the plurality of moving surfaces based on the input, and sends the brainwave entrainment frequency to the user device.

A variable-resistance exercise machine with network communication for smart device control and brainwave entrainment, comprising an exercise machine with a plurality of moving surfaces, that each provide an independent degree of resistance to movement, a sensor that detects movement and provides output to a controller, a brainwave entrainment manager that selects a brainwave entrainment frequency based on the sensor output, and a controller that receives an input from a user device, changes the operation of the plurality of moving surfaces based on the input, and sends the brainwave entrainment frequency to the user device.

Among other things, in general, a permutation puzzle game is provided whose object is to arrange a set of tiles in a prescribed arrangement, starting from an initial arrangement or a series of initial arrangements, using permitted game moves. Such a puzzle game can be played using physical tiles, or virtually upon a computer. Methods, systems, and computer-readable media related to permutation puzzle games are also provided.

The virtual location of a player in a location-based game is determined from the real-world location of the player's client device. The location-based game provides the player access to one or more chat room based on their location. To determine the locations of chat room, a server analyzes player locations in a geographic region, clusters player locations to identify centroids, and adjusts the clusters based on constraints. The server selects chat room locations (e.g., at points of interest) to more evenly balance the number of players in each chat room while complying with one or more restraints on the size of the geographic area served by each chat room.

The virtual location of a player in a location-based game is determined from the real-world location of the player's client device. The location-based game provides the player access to one or more chat room based on their location. To determine the locations of chat room, a server analyzes player locations in a geographic region, clusters player locations to identify centroids, and adjusts the clusters based on constraints. The server selects chat room locations (e.g., at points of interest) to more evenly balance the number of players in each chat room while complying with one or more restraints on the size of the geographic area served by each chat room.

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.

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.