초록 ▼

The methods and systems described herein may involve determining at least one lifeotype of at least one individual, analyzing the at least one lifeotype, and delivering content to at least one individual based on the analysis. The methods and systems described herein may involve providing a game, de

The methods and systems described herein may involve determining at least one lifeotype of at least one individual, analyzing the at least one lifeotype, and delivering content to at least one individual based on the analysis. The methods and systems described herein may involve providing a game, determining at least one lifeotype of at least one player of the game, analyzing the at least one lifeotype, and affecting the game play based on the analysis. The methods and systems described herein may involve providing an interactive space, determining at least one lifeotype of at least one individual in the space, analyzing the at least one lifeotype, and modifying at least one attribute of the space based on the analysis.

대표청구항 ▼

1. A computer-system-implemented method, the computer system having at least one programmed processor to implement the method, the method comprising: continuously collecting data components with respect to an individual from a wearable sensor device; andcollecting another set of data components with

1. A computer-system-implemented method, the computer system having at least one programmed processor to implement the method, the method comprising: continuously collecting data components with respect to an individual from a wearable sensor device; andcollecting another set of data components with respect to the individual from a source separate from the wearable device; the computer system— (i) assembling a byte data structure for the individual that includes at least one bit determined from the collected data components from the wearable sensor device and at least one bit determined from said another set of data components;(ii) accessing data stored with respect to at least one other individual;(iii) determining a lifeotype for the individual by matching the byte data structure to the byte data structure of at least one other individual; and(iv) based on the determined type and the individual's collected data components, predicting at least one component of the individual's daily routine. 2. The method of claim 1, wherein the stored data structure for at least one other individual is a database of stored data structures for a plurality of individuals. 3. The method of claim 1, wherein the determining the lifeotype is based on similarity to data for an aggregated group of individuals. 4. The method of claim 1, wherein said another set of data components is selected from the group consisting of: derived data, analytical status data, contextual data, continuous data, discrete data, time series data, event data, raw data, processed data, metadata, third party data, physiological state data, psychological state data, survey data, medical data, genetic data, environmental data, transactional data, economic data, socioeconomic data, demographic data, psychographic data, sensed data, continuously monitored data, manually entered data, inputted data, continuous data and real-time data. 5. The method of claim 1, wherein said set of data components from a wearable sensor device is selected from the group consisting of: derived data, analytical status data, contextual data, continuous data, discrete data, time series data, event data, raw data, processed data, metadata, third party data, physiological state data, psychological state data, survey data, medical data, genetic data, environmental data, transactional data, economic data, socioeconomic data, demographic data, psychographic data, sensed data, continuously monitored data, manually entered data, inputted data, continuous data and real-time data. 6. The method of claim 1, wherein individuals are associated with a plurality of aggregate data groups. 7. The method of claim 1, further comprising publishing an individual's aggregate data group association. 8. The method of claim 1, wherein the source separate from the wearable device is a user input. 9. The method of claim 1, wherein the disease-related condition comprises at least one of a disease, disorder, ailment, treatment plan, and a recovery plan. 10. The method of claim 1, wherein at least one data component collected from a wearable sensor device is a data component that is derived from a plurality of sensors that is distinct from the output of any single sensor. 11. The method of claim 1, wherein the assembled data structure that includes at least one component from the collected data components from the wearable sensor device includes at least one data component collected from a wearable sensor device is a data component that is derived from a plurality of sensors that is distinct from the output of any single sensor.