USER INTERFACES RELATED TO PHYSIOLOGICAL MEASUREMENTS

Organization Name

Apple Inc.

Inventor(s)

Nicholas D. Felton of Sunnyvale CA (US)

Alexander Dickinson of San Francisco CA (US)

Eamon F. Gilravi of San Francisco CA (US)

Katherine Niehaus of San Francisco CA (US)

William R. Powers, Iii of San Francisco CA (US)

Adeeti V. Ullal of Los Altos CA (US)

USER INTERFACES RELATED TO PHYSIOLOGICAL MEASUREMENTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17982968 titled 'USER INTERFACES RELATED TO PHYSIOLOGICAL MEASUREMENTS

Simplified Explanation

The patent application describes a system for detecting and predicting changes in a user's physiological parameter based on their activities. Here is a simplified explanation of the abstract:

• The system detects a physiological parameter of a user during two different activities.
• It compares the physiological parameter at the first level during the first activity and at the second level during the second activity.
• Based on this comparison, the system predicts how the physiological parameter would change if the second activity was replaced with a different third activity.
• The predicted change in the physiological parameter is then displayed to the user.

Potential applications of this technology:

• Healthcare monitoring: The system can be used to monitor and predict changes in a user's physiological parameter, such as heart rate or blood pressure, during different activities. This can be useful for managing chronic conditions or providing early warnings for potential health issues.
• Fitness tracking: The system can help users track their physiological responses to different exercises or activities, allowing them to optimize their workouts and monitor their progress.
• Stress management: By detecting and predicting changes in physiological parameters, the system can provide insights into how different activities or situations affect a user's stress levels. This can help individuals manage and reduce stress in their daily lives.

Problems solved by this technology:

• Limited understanding of how different activities impact physiological parameters: This system provides a way to compare and predict changes in physiological parameters during different activities, allowing for a better understanding of how specific activities affect the body.
• Lack of personalized feedback: By displaying predicted changes in physiological parameters, the system can provide personalized feedback to users, helping them make informed decisions about their activities and health.

Benefits of this technology:

• Improved health monitoring: The system allows for continuous monitoring and prediction of physiological parameters, providing users with valuable insights into their health and well-being.
• Personalized feedback: By considering individual differences and activities, the system can provide personalized feedback and recommendations to users, helping them make healthier choices.
• Early detection of health issues: The predictive capabilities of the system can help identify potential health issues or abnormalities in physiological parameters, allowing for early intervention and treatment.

Original Abstract Submitted

Detecting a physiological parameter of a user at a first level during a first activity and at a second level during a second activity and displaying, based on the first level and the second level, a predictive change in the physiological parameter had the second activity been a third activity that is different from the second activity.