optimal supervisory control requires superior data acquisition capabilities, AND WRONSKIAN MATRIX RELATIONSHIPS BETWEEN SYSTEM OBSERVABILITY AND CONTROLLABILITY ARE NOT EVEN NECESSARY TO UNDERSTAND THIS PRINCIPLE, THOUGH THE POINT IS MATHEMATICALLY PROVEABLE AS SUCH, IN CASE YOU HAVE ADVANCED TRAINING IN LINEAR SYSTEMS.

 

 

 

electrical power t&d grids suffer from an inability to detect high impedance faults. 

 

ai models will never adequately compensate for the physical limitations of induction current transformers to solve this problem.

 

 

opticampere has invented the technology platform solution to address the problem at the primary layer of scada networks with a "FLYING SAUCER LASER HALO" INSULATOR-MOUNTED distributed FIBER OPTIC CURRENT SENSOR which optically samples the e-m wave on the conductor at the speed of light.

 

a continuous wave of polarized light from the opticampere "starfocs" interrogator records a photonic video of the 60 hz e-m wave on overhead power lines, with millions of frames captured for each electrical current wave cycle, for next-level imaging resolution of high-impedance faults and transients, resulting in total ONLINE scada visibility such as required for robust utility wildfire prevention.

 

 

 

fun facts:

 

opticampere fiber optic power sensors are inherently quantum in nature, as the polarized optical field behaves as a room-temperature entangled qubit, with physical properties controlled by superposition, enabling quantum power sensing, with no cryogenics required!

 

 

 

 

Contact: sales@opticampere.com