Method for Measuring Physiological Parameter and Electronic Device

Organization Name

Huawei Technologies Co., Ltd.

Inventor(s)

Jiahui Peng of Shenzhen (CN)

Xi Huang of Shenzhen (CN)

Lingzhi Qiu of Shenzhen (CN)

Lian Wu of Nanjing (CN)

Method for Measuring Physiological Parameter and Electronic Device - A simplified explanation of the abstract

This abstract first appeared for US patent application 18258710 titled 'Method for Measuring Physiological Parameter and Electronic Device

Simplified Explanation

The method described in the patent application involves displaying a user interface that allows for the measurement of physiological parameters. This interface includes multiple identifiers for different physiological parameters. The method then involves selecting two specific physiological parameters from the identifiers and measuring them using a physiological parameter sensor.

• The patent application describes a method for measuring physiological parameters using a user interface and a sensor.
• The user interface displays a range of physiological parameter identifiers.
• The method involves selecting two specific physiological parameters from the identifiers.
• A physiological parameter sensor is used to measure the selected parameters.
• The measured parameters are associated with a measured object, which could be a person or an animal.
• The method is implemented on an electronic device.

Potential applications of this technology:

• Healthcare and medical monitoring: The method can be used in healthcare settings to measure and monitor physiological parameters of patients, such as heart rate, blood pressure, or oxygen levels.
• Fitness and sports tracking: The method can be applied in fitness devices or sports equipment to track and measure physiological parameters during workouts or physical activities.
• Biometric authentication: The measured physiological parameters can be used for biometric authentication purposes, ensuring the identity of individuals based on their unique physiological characteristics.

Problems solved by this technology:

• Convenient measurement: The method provides a user-friendly interface for selecting and measuring physiological parameters, making it easier for individuals to monitor their health or track their fitness progress.
• Real-time monitoring: The method allows for real-time measurement of physiological parameters, enabling prompt detection of any abnormalities or changes.
• Non-invasive measurement: The use of a physiological parameter sensor eliminates the need for invasive procedures or blood samples, making the measurement process more comfortable and less risky.

Benefits of this technology:

• Improved health management: The method enables individuals to monitor their physiological parameters regularly, leading to better management of their health conditions and early detection of any potential issues.
• Enhanced fitness tracking: By accurately measuring physiological parameters during physical activities, the method provides more precise data for tracking fitness progress and optimizing workouts.
• Efficient authentication: The use of physiological parameters for biometric authentication can enhance security and convenience, as individuals do not need to remember passwords or carry physical identification cards.

Original Abstract Submitted

A method includes displaying a physiological parameter measurement interface comprising a plurality of physiological parameter identifiers, receiving a physiological parameter measurement operation, wherein the physiological parameter measurement operation comprises an operation of selecting, among the physiological parameter identifiers, a first physiological parameter identifier and a second physiological parameter identifier; and measuring, in response to the physiological parameter measurement operation, a first physiological parameter and a second physiological parameter of a measured object using a physiological parameter sensor of the electronic device.