shape image

Evaidya : Automobile

Problem Statement:

In the era of increasing pollution and health consciousness, there is a need for a comprehensive solution that not only ensures a healthy and comfortable environment inside the automobile but also monitors and responds to the health conditions of the occupants.


A smart device integrated into automobiles that combines a smart air quality system, an oxygen concentrator using PSA technology, and a health monitoring system. This device will ensure a balanced oxygen level, provide the proper concentration of O2, improve the skin tone of the occupants, and offer an emergency O2 supply when needed.


  1. Improved Air Quality: The smart air quality system will ensure a healthy and comfortable environment inside the vehicle by continuously monitoring and controlling the air quality.

  2. Balanced Oxygen Level: By maintaining a balanced oxygen level inside the vehicle, the device can help prevent hypoxia and other health issues related to low oxygen levels.

  3. Proper O2 Concentration: The device can adjust the O2 concentration based on the health condition of the occupants and the quality of the outside air.

  4. Improved Skin Tone: By ensuring a healthy environment and proper oxygen level, the device can help improve the skin tone of the occupants.

  5. Emergency O2 Supply: In case of a medical emergency, the device can provide an emergency O2 supply, potentially saving lives.

  6. Integration with Vehicle Systems: The device can be integrated with the vehicle’s infotainment system, providing real-time health and air quality updates to the occupants.

  7. Oxygen Concentrator using PSA Technology: Oxygen concentrators using Pressure Swing Adsorption (PSA) technology are widely used for oxygen provision in healthcare applications1. They operate by filtering ambient air to provide patients with 90–98% pure oxygen1.

  8. ECG Monitoring System: ECG monitors measure and record heart rate and rhythm, displaying this information in a wave-like pattern. Many ECG monitors are available for at-home use, and they can help track heart rhythm and rate.

  9. SPOS Monitoring System: The Ship Performance Optimization System (SPOS) optimizes shipping routes, considering sea conditions such as wind, waves, swell, currents, and other weather elements.

  10. Heart Attack Monitoring and Prediction System: IoT-based health monitoring systems can collect medical data of a patient, including heart rate, temperature, and ECG, and send the data to the patient’s doctor, providing a reliable and fast healthcare service. They can also predict heart attacks using AI technology.

  11. Driver Health Monitoring: Major OEMs in the automotive sector are integrating robust driver health monitoring systems into their vehicles. These systems integrate driver information, such as wearable devices used, primary care, and prescription details, into vehicle information, environmental data, and mobile. This helps indicate precise driver health.

  12. Emergency Response: In case of a detected health issue, the system could alert emergency services with the vehicle’s location for immediate assistance.

  13. Integration with Vehicle Infotainment System: Health data could be displayed on the vehicle’s infotainment system, allowing drivers to monitor their health in real-time.

  14. Predictive Health Alerts: Based on the health data, the system could provide predictive alerts about potential health issues, allowing drivers to seek medical help before a serious condition arises.

  15. IOT-based system (Health monitoring system)

Respiratory conditions & Indian market

© Copyright 2022-2024 Jivanrath

Form WhatsApp

This order requires the WhatsApp application.

Order now