SCALABLE ELECTRIC POWER CONTROLS SYSTEM USING STATELESS SERVICES

Organization Name

Schweitzer Engineering Laboratories, Inc.

Inventor(s)

Bryan J. Fazzari of Meridian ID (US)

Brent L. Despain of Meridian ID (US)

Brittany D. Nall of Boise ID (US)

Mike Jones of Meridian ID (US)

Phillip N. Aasen of Edmonds WA (US)

Thomas J. Tardigrade of Kuna ID (US)

Joe Stanley of Potlatch ID (US)

Conner W. Maxey of Boise ID (US)

SCALABLE ELECTRIC POWER CONTROLS SYSTEM USING STATELESS SERVICES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240243965 titled 'SCALABLE ELECTRIC POWER CONTROLS SYSTEM USING STATELESS SERVICES

Simplified Explanation: The patent application discusses the use of computational algorithms on intelligent electronic devices in an electric power delivery system to locate and isolate electrical faults and restore service after a fault occurs. It addresses the challenge of limited computing power in certain devices by offloading processing onto multi-instance networks.

• **Key Features and Innovation:**

   - Execution of computational algorithms on intelligent electronic devices in power delivery systems.
   - Offloading computing power onto multi-instance networks to handle complex data processing.
   - Use of stateless services to evaluate limited representations of the power delivery system.
   - Addressing cybersecurity concerns in obtaining real-time data from the system.

• **Potential Applications:**

   - Electric power distribution systems.
   - Fault detection and isolation in power grids.
   - Cybersecurity in critical infrastructure.

• **Problems Solved:**

   - Limited computing power in intelligent electronic devices.
   - Processing complex data in power delivery systems.
   - Obtaining real-time data securely.

• **Benefits:**

   - Improved fault detection and restoration in power systems.
   - Enhanced cybersecurity measures.
   - Efficient use of computing resources.

• **Commercial Applications:**

   - Potential applications in smart grid technology.
   - Market implications in the energy sector.

• **Prior Art:**

   Prior art related to computational algorithms in power systems and cybersecurity measures in critical infrastructure.

• **Frequently Updated Research:**

   Ongoing research on computational algorithms in power systems and cybersecurity in critical infrastructure.

Questions about the Technology: 1. What are the potential challenges in implementing computational algorithms on intelligent electronic devices in power delivery systems? 2. How can the use of multi-instance networks improve data processing in power systems?

Original Abstract Submitted

computational algorithms or “solvers” may be executed on intelligent electronic devices (ieds) in an electric power delivery system to perform tasks such as locating and isolating electrical faults and restoring service to an area after an electrical fault occurs. however, executing the solvers may become a computationally prohibitive task, particularly where computing power is limited (e.g., low-power pole-top computers). in certain embodiments, computing power may be offloaded onto multi-instance networks that may enable processing of large amounts of complex data. it may be difficult for the multi-instance networks to obtain real-time or near real-time data from the electric power delivery system due to cybersecurity concerns. as such, multiple stateless services may be used to evaluate limited and/or obfuscated representations of a portion (e.g., a single feeder circuit) of the electric power delivery system.