DATA PACKAGING PROTOCOLS FOR COMMUNICATIONS BETWEEN IoT DEVICES

Organization Name

intel corporation

Inventor(s)

Ned M. Smith of Beaverton OR (US)

Keith Nolan of Mullingar (IE)

Mark Kelly of Leixlip (IE)

DATA PACKAGING PROTOCOLS FOR COMMUNICATIONS BETWEEN IoT DEVICES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240205080 titled 'DATA PACKAGING PROTOCOLS FOR COMMUNICATIONS BETWEEN IoT DEVICES

Simplified Explanation: The patent application describes an Internet of Things (IoT) network that includes various components in IoT devices to facilitate communication and data transmission between devices.

• Key Features and Innovation:

   * IoT devices with a communicator for sending communications.
   * Protocol library builder to determine available protocols.
   * Frame analyzer to analyze incoming data frames.
   * Frame builder to construct outgoing frames.
   * Network discoverer to identify communication channels.
   * Payload fragmenter/packager to break down data for transmission.
   * Packet communicator to send data over parallel channels.
   * Hash calculator to identify neighboring devices.

Potential Applications: The technology can be applied in various IoT systems, smart home devices, industrial automation, and remote monitoring systems.

Problems Solved: The technology addresses the challenges of efficient communication, data transmission, and network discovery in IoT networks.

Benefits: The benefits include improved data transmission efficiency, enhanced network discovery capabilities, and optimized communication protocols.

Commercial Applications: The technology can be utilized in industries such as healthcare, agriculture, logistics, and smart cities for seamless IoT device communication and data exchange.

Prior Art: Prior research in IoT communication protocols, network discovery algorithms, and data fragmentation techniques can provide insights into related technologies.

Frequently Updated Research: Stay updated on advancements in IoT communication protocols, network optimization algorithms, and data transmission technologies to enhance the efficiency of IoT networks.

Questions about IoT Networks: 1. How does the IoT network technology improve communication efficiency between devices? 2. What are the potential security implications of using parallel communication channels in IoT networks?

1. A relevant generic question not answered by the article, with a detailed answer: How does the IoT network technology impact the scalability of IoT systems? The IoT network technology enhances the scalability of IoT systems by optimizing communication protocols, data transmission efficiency, and network discovery capabilities. This allows for seamless integration of a large number of IoT devices into the network without compromising performance or reliability.

2. Another relevant generic question, with a detailed answer: What are the key components of an IoT device in the described network? The key components of an IoT device in the network include a communicator for sending communications, a protocol library builder to determine available protocols, a frame analyzer to analyze incoming data frames, a frame builder to construct outgoing frames, a network discoverer to identify communication channels, a payload fragmenter/packager to break down data for transmission, a packet communicator to send data over parallel channels, and a hash calculator to identify neighboring devices. These components work together to facilitate efficient communication and data transmission in the IoT network.

Original Abstract Submitted

an internet of things (iot) network includes an iot device with a communicator to send a communication including egress frame, protocol library builder to determine available protocols, frame analyzer to analyze an ingress frame, and frame builder to build the egress frame from the ingress frame. an iot network includes an iot device with network discoverer to identify available parallel communication channels between the iot device and target device, payload, payload fragmenter/packager to fragment the payload into sub-objects for transmission, and packet communicator to send sub-objects to the target device over parallel communication channels. an iot network includes a plurality of iot devices, which each include a communication channel to an upstream device, a network link to another one of the plurality of iot devices, a hash calculator to identify a neighbor iot device, and a communicator to send out a message to the neighbor iot device.