MUMBAI, India, June 30 -- Intellectual Property India has published a patent application (202641070290 A) filed by Rv College Of Engineering on June 05, 2026, for Real-Time Resilient Multi-Factor Electromechanical Locking System With Dual-Channel Communication Failover And Sensor-Driven Intrusion Intelligence.

Inventors include Abhay Deshpande; Vighnesh Udupi; Harsha; and H V Ravish Aradhya.

The application for the patent was published on June 26, 2026, under issue no. 26/2026.

Abstract: Title: Real-Time Resilient Multi-Factor Electromechanical Locking System with Dual-Channel Communication Failover and Sensor-Driven Intrusion Intelligence A real-time resilient multi-factor electromechanical locking system (100) with dual-channel 5 communication failover and sensor-driven intrusion intelligence is disclosed. The system (100) includes controller (108), inbuilt WI-FI module and a 4G GSM/LTE module (114), a H-bridge motor driver (110), and a two-relay dual- contact actuation stage (126). The controller (108) is configured to receive one or more inputs from a Near Field Communication (NFC) reader (102), a tamper detection sensor (104), and a flame detection sensor (106). The tamper detection sensor 10 (104) is an IIS2DLPC ultra-low-power three-axis MEMS accelerometer with an embedded hardware impact-pattern recognition engine communicating over I2C. The inbuilt WI-FI module and a 4G GSM/LTE module (114) provides dual- network communication sub-system to automatically change from a primary wireless network to a backup cellular network upon a communication failure. The H-bridge motor driver (110) is configured to drive 15 electromechanical lock actuator (112) to lock or unlock based on control signal received from the controller (108). The two- relay dual-contact actuation stage (126) is configured to be electrically isolated from electromechanical lock actuator (112). FIG. 1

Disclaimer: Curated by HT Syndication.