18325026. SYSTEMS AND METHODS FOR COMPONENT MESSAGING simplified abstract (Engineer.ai Corp.)
SYSTEMS AND METHODS FOR COMPONENT MESSAGING
Organization Name
Inventor(s)
Sachin Dev Duggal of Salt Lake City UT (US)
Joseph Rifkin of Salt Lake City UT (US)
SYSTEMS AND METHODS FOR COMPONENT MESSAGING - A simplified explanation of the abstract
This abstract first appeared for US patent application 18325026 titled 'SYSTEMS AND METHODS FOR COMPONENT MESSAGING
The abstract of the patent application describes a device that can receive outputs from various building block components, each unaware of the processes of the others. The device can then translate these outputs into messages that can be received by different adaptors, storing the state of the device application based on the output.
- The device can receive outputs from multiple building block components independently.
- It can translate these outputs into messages using component adaptors.
- The device can store the state of the device application based on the output.
- The building block components can receive the messages via the adaptors.
Potential Applications: - IoT systems - Industrial automation - Smart home devices
Problems Solved: - Integration of disparate building block components - Efficient communication between components - State management of device applications
Benefits: - Improved interoperability - Enhanced system efficiency - Simplified development process
Commercial Applications: Title: "Interoperable Device Communication System" This technology can be used in various industries such as IoT, industrial automation, and smart home devices to streamline communication between different components, leading to more efficient and integrated systems.
Questions about the technology: 1. How does this technology improve communication between building block components? 2. What are the potential challenges in implementing this system in real-world applications?
Frequently Updated Research: Stay updated on the latest advancements in IoT communication protocols and device integration technologies to enhance the capabilities of this system.
Original Abstract Submitted
A device may receive an output from a building block component of a multitude of building block components, each of the multitude of building block components are ignorant of processes of other building block components. The device may translate the output, with a component adapter of a multitude of adaptors, into a message that is receivable by at least one of the multitude of adaptors. The device may store a state of the device application based on the output, the state is accessible by the multitude of adapters where the multitude of building block components are capable of receiving the message via the multitude of adaptors.