FUTURE PROOFING AND PROTOTYPING AN INTERNET OF THINGS NETWORK

Organization Name

INTEL CORPORATION

Inventor(s)

Jerin C. Justin of San Jose CA (US)

Kumar Balasubramanian of Chandler AZ (US)

FUTURE PROOFING AND PROTOTYPING AN INTERNET OF THINGS NETWORK - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240048621 titled 'FUTURE PROOFING AND PROTOTYPING AN INTERNET OF THINGS NETWORK

Simplified Explanation

The abstract describes a system and method for representing events that occur in a real-world deployment. It involves identifying a real-world workload with multiple events and converting its characteristics into endpoint simulator workloads. The hardware characteristics of multiple gateways are also converted into modeling elements for simulated Internet of Things (IoT) networks. Simulations are performed for each endpoint simulator workload on each simulated IoT network, and statistics are collected about the performance of the simulated networks.

• The system represents events in a real-world deployment.
• It converts the characteristics of a real-world workload into endpoint simulator workloads.
• It converts gateway hardware characteristics into modeling elements for simulated IoT networks.
• It performs simulations for each endpoint simulator workload on each simulated IoT network.
• It collects statistics about the performance of the simulated IoT networks for the endpoint simulator workloads.

Potential applications of this technology:

• Testing and optimizing IoT network deployments.
• Evaluating the performance of IoT devices and gateways.
• Developing and refining IoT network protocols and algorithms.
• Analyzing the impact of different real-world workloads on IoT networks.

Problems solved by this technology:

• Lack of a comprehensive and efficient method for representing real-world events in a simulated environment.
• Difficulty in accurately testing and evaluating the performance of IoT networks.
• Inability to analyze the impact of different real-world workloads on IoT networks.
• Challenges in developing and refining IoT network protocols and algorithms.

Benefits of this technology:

• Enables accurate representation and simulation of real-world events in IoT deployments.
• Facilitates testing and optimization of IoT network deployments.
• Provides insights into the performance of IoT devices and gateways.
• Supports the development and refinement of IoT network protocols and algorithms.
• Allows analysis of the impact of different real-world workloads on IoT networks.

Original Abstract Submitted

a system and method for representing events that occur in a real world deployment is described. a real-world workload including multiple events is identified. multiple characteristics of the real-world workload are converted into multiple endpoint simulator workloads. multiple gateway hardware characteristics are converted into a modeling elements for simulated internet of things (iot) networks. further, a simulation is performed for each of the endpoint simulator workloads on each of the simulated iot networks. also, statistics are collected about the performance of the simulated iot networks for the endpoint simulator workloads.