METHODS TO SECURE ACCESS TO AN AUTOMOBILE AND AN AUTHENTICATED IGNITION SYSTEM

Organization Name

Micron Technology, Inc.

Inventor(s)

Sourin Sarkar of Bangalore (IN)

Gowrishankar Gajendiran of Bangalore (IN)

Kanika Mittal of Uttar Pradesh (IN)

METHODS TO SECURE ACCESS TO AN AUTOMOBILE AND AN AUTHENTICATED IGNITION SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 17831353 titled 'METHODS TO SECURE ACCESS TO AN AUTOMOBILE AND AN AUTHENTICATED IGNITION SYSTEM

Simplified Explanation

The patent application describes a method for enabling access and ignition of a vehicle using a wireless transceiver and biometric data of a legitimate user. Here is a simplified explanation of the abstract:

• A wireless transceiver installed in a vehicle receives a radio signal.
• The method determines if the radio signal is generated by a legitimate user by analyzing the biometric data of the user and a unique device identifier (UDI) included in the radio signal.
• If the radio signal is determined to be from a legitimate user, access to the vehicle is enabled.
• Additionally, the method enables ignition of the vehicle based on the biometric data and the UDI.

Potential Applications

This technology can have various applications in the automotive industry and beyond. Some potential applications include:

• Vehicle security systems: The method can enhance the security of vehicles by ensuring that only authorized users can access and start the vehicle.
• Car rental services: Rental companies can use this technology to streamline the process of renting vehicles, allowing customers to access and start the rented vehicle using their biometric data.
• Fleet management: Companies with vehicle fleets can use this method to monitor and control access to their vehicles, ensuring that only authorized drivers can operate them.

Problems Solved

The technology addresses several problems in vehicle access and security:

• Unauthorized access: By utilizing biometric data and a unique device identifier, the method ensures that only legitimate users can access and start the vehicle, reducing the risk of theft or unauthorized use.
• Keyless entry vulnerabilities: Traditional keyless entry systems can be vulnerable to hacking or signal interception. This method adds an additional layer of security by verifying the legitimacy of the user through biometric data.
• Identity theft: By using biometric data, the method reduces the risk of identity theft, as it is much more difficult for someone to replicate another person's unique biometric characteristics.

Benefits

The technology offers several benefits:

• Enhanced security: By combining biometric data and a unique device identifier, the method provides a robust security system for vehicles, reducing the risk of unauthorized access and theft.
• Convenience: Users can access and start the vehicle without the need for physical keys or key fobs, making the process more convenient and eliminating the risk of losing or misplacing keys.
• Personalization: The method can be customized to recognize multiple legitimate users, allowing for personalized vehicle settings and preferences for each user.

Original Abstract Submitted

In some aspects, the techniques described herein relate to a method including: receiving a radio signal by a wireless transceiver installed in a vehicle; determining that the radio signal was generated by and received from a legitimate user based on a biometric data of the legitimate user and a unique device identifier (UDI) included in the radio signal; enabling access to the vehicle; and enabling ignition of the vehicle based on the biometric data and the UDI.