Stripe, inc. (20240346105). EMBEDDED USER INTERFACE ELEMENTS simplified abstract
Contents
EMBEDDED USER INTERFACE ELEMENTS
Organization Name
Inventor(s)
Gabriel Hurley of Oakland CA (US)
Julia Chaves of Oakland CA (US)
Konstantin Tennhard of Pointe-Claire (CA)
Jorge Eugenio Aguirre Gonzalez of Bothell WA (US)
EMBEDDED USER INTERFACE ELEMENTS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240346105 titled 'EMBEDDED USER INTERFACE ELEMENTS
The abstract describes a patent application for an electronic device that facilitates secure communication between embedded interface elements and processor servers by using session keys and permissions associated with the elements and apps.
- The device transmits a request for an account session key and receives it along with permissions for the interface element and embedded app.
- It then requests an embedded app key and receives it along with permissions for the app.
- The device acts as a proxy for communication between the interface element and the processor server, as well as between the embedded app and the processor server, based on the respective keys and permissions.
Potential Applications: - Secure communication in embedded systems - Enhanced data protection in IoT devices - Improved privacy controls for user interactions with apps
Problems Solved: - Mitigating security risks in communication between embedded devices and servers - Ensuring data privacy and integrity in IoT environments - Simplifying access control for embedded apps
Benefits: - Enhanced security for sensitive data transmission - Streamlined communication processes for embedded systems - Customizable permissions for different elements and apps
Commercial Applications: Title: Secure Communication Solution for Embedded Systems This technology could be utilized in various industries such as healthcare, finance, and smart home devices to ensure secure and efficient communication between embedded systems and servers, enhancing data protection and user privacy.
Questions about the technology: 1. How does this technology improve security in IoT devices? - This technology enhances security by using session keys and permissions to facilitate secure communication between embedded devices and servers, reducing the risk of unauthorized access. 2. What are the potential implications of this technology for data privacy in embedded systems? - This technology allows for customizable permissions for different elements and apps, enabling users to control access to their data and enhance privacy in IoT environments.
Original Abstract Submitted
in some embodiments, an electronic device is configured to transmit a first request for an account session key, receive the account session key associated with a first set of permissions corresponding to the embedded interface element and a second set of permissions corresponding to the embedded app, transmit a second request for an embedded app key, receive the embedded app key associated with a third set of permissions corresponding to the embedded app, and proxy communications between the embedded interface element and the processor server, based on the account session key associated with the first set of permissions, and between the embedded app and the processor server, based on the embedded app key associated with the third set of permissions.