Integrating Posture & Vital Signs For Personalized Health Insights

Posture Sensing & Vital Sign linking is Bodylog’s proprietary technology which enables Bodylog to establish the user’s baseline status to accurately assess the user’s change of health status by comparing real-time data with the established individual baseline*. It offers real-time monitoring and emergency care for disease related incidents and accidental falls, tailored to individuals with different health conditions in various settings like hospitals, nursing homes, and homes. 


*Individual Baseline: When Bodylog is used, we establish an individual baseline by utilizing each person’s biometric readings and user feed backs automatically, evolving from static measurements to dynamic, personalized profiles through advanced technology and data analysis. This approach, integrating ongoing biometric data and lifestyle information with our proprietary technology, adapts to each individual’s changing health status, enabling us to deliver the most precise and customized care.

Bodylog emerges as an innovative solution that overcomes current solution’s unmet medical needs. It achieves this through emulating a controlled medical environment in daily life settings by converging vital signs with posture. This approach provides comprehensive range of biometric data analytics and personalized features tailored to individuals with specific medical conditions.

Posture & Vtial Sign Integration: 

HRV Utilization, Emergency Care

Heart rate variability (HRV) indicates the variation in time intervals between consecutive heartbeats, serving as a pivotal indicator for both physiological and psychological stress, as well as cardiac health.

Bodylog’s posture sensing technology emulates a controlled medical environment and diminishes user errors, ensuring highly precise and accurate biometric measurements in non-medical settings. This proprietary technology efficiently employs HRV data to gauge a user’s level of distress, creating individual baselines based on posture and vital signs.

By categorizing various biometric signals by posture status Bodylog can establish an individual baseline of the user’s health. Using this feature, Bodylog refines biometric signal data sets for post-emergency incident analysis (related to diseases or falls). By comparing the user’s real-time status with the established individual baseline, Bodylog can accurately assess the user’s distress level, aiding emergency responders and medical staff in providing effective treatments. Bodylog’s posture monitoring capability also allows it to detect user movement, a critical indicator in determining the severity of the incident

Posture Sensing & Vital Sign linking is Bodylog’s proprietary technology which enables Bodylog to establish the user’s baseline status to accurately assess the user’s change of health status by comparing real-time data with the established individual baseline*. 
It offers real-time monitoring and emergency care for disease related incidents and accidental falls, tailored to individuals with different health conditions in various settings like hospitals, nursing homes, and homes.


*Individual Baseline: When Bodylog is used, we establish an individual baseline by utilizing each person’s biometric readings and user feed backs automatically, evolving from static measurements to dynamic, personalized profiles through advanced technology and data analysis. This approach, integrating ongoing biometric data and lifestyle information with our proprietary technology, adapts to each individual’s changing health status, enabling us to deliver the most precise and customized care

Bodylog emerges as an innovative solution that overcomes current solution’s unmet medical needs. 

It achieves this through emulating a controlled medical environment in daily life settings by converging vital signs with posture. 

This approach provides comprehensive range of biometric data analytics and

 personalized features tailored to individuals with specific medical conditions. 


< Bodylog Main Features >

① Posture & Vital Sign Integration: HRV Utilization and Emergency Care

② Life Vitality Assessment

③ Multiple Patient Monitoring(Posture, ECG, Vital sign) & Emergency Detection

① Posture & Vital Sign Integration: HRV Utilization

Heart rate variability (HRV) indicates the variation in time intervals between consecutive heartbeats, 

serving as a pivotal indicator for both physiological and psychological stress, as well as cardiac health. 

Bodylog’s posture sensing technology emulates a controlled medical environment and diminishes user errors, ensuring highly precise and accurate biometric measurements in non-medical settings. This proprietary technology efficiently employs HRV data to gauge a user’s level of distress, creating individual baselines based on posture and vital signs 

Bodylog’s posture sensing technology emulates a controlled medical environment and diminishes user errors, 

ensuring highly precise and accurate biometric measurements in non-medical settings. 

This proprietary technology efficiently employs HRV data to gauge a user’s level of distress, 

creating individual baselines based on posture and vital signs 

By categorizing various biometric signals by posture status Bodylog can establish an individual baseline of the user’s health. Using this feature, Bodylog refines biometric signal data sets for post-emergency incident analysis (related to diseases or falls). By comparing the user’s real-time status with the established individual baseline, Bodylog can accurately assess the user’s distress level, aiding emergency responders and medical staff in providing effective treatments. Bodylog’s posture monitoring capability also allows it to detect user movement, a critical indicator in determining the severity of the incident

② Life Vitality Assessment

Individuals struggling with mental & physical distress, often display distinct body postures and delays in posture adjustments. 

Utilizing real-time measurements compared to personalized baseline data collected directly from the device enables a tailored, objective assessment of the user's mental and physical well-being.

Patent Status