MUMBAI, India, June 30 -- Intellectual Property India has published a patent application (202641066917 A) filed by Gopi Krishna Ratnakaram; and Vakkapatla Seetha Ramanjaneyulu on May 28, 2026, for “integrated Rider Safety Coordination System”.
Inventors include Gopi Krishna Ratnakaram; Vakkapatla Seetha Ramanjaneyulu; Vakkapatla Soma Sekhar; and Sandu Pavan Durga.
The application for the patent was published on June 26, 2026, under issue no. 26/2026.
Abstract: ABSTRACT TITLE: “INTEGRATED RIDER SAFETY COORDINATION SYSTEM" The present invention relates to an Integrated Rider Safety Coordination System configured to enhance rider safety through coordinated monitoring, environmental awareness, adaptive assistive safety response generation, and emergency communication mechanisms associated with transportation platforms, particularly two-wheeler vehicles. The system comprises a wearable rider monitoring unit configured to monitor rider-state conditions including helmet authentication, rider alertness, fatigue conditions, drowsiness conditions, alcohol influence conditions, and other rider safety parameters. The system further comprises a vehicle-mounted environmental awareness subsystem configured to generate environmental awareness information associated with surrounding obstacles, blind-spot conditions, proximity hazards, collision-risk situations, environmental structures, moving objects, and hazardous environmental conditions using one or more environmental sensing mechanisms including LiDAR-based sensing modules. A communication coordination subsystem is configured to synchronize rider-state information and environmental awareness information for generating adaptive assistive safety responses, rider notifications, hazard indications, environmental awareness alerts, warning signals, and safety recommendations. An emergency response subsystem comprising location-tracking and communication modules is configured to initiate emergency communication workflows including emergency alert transmission, location sharing, emergency contact notification, rescue coordination, and emergency response synchronization. The integrated rider safety coordination system further supports interoperable communication, plug-and-play integration, adaptive safety analytics, distributed sensing architectures, connected mobility ecosystems, fleet safety systems, and intelligent transportation infrastructures. The invention provides a scalable rider-centric safety coordination architecture capable of improving situational awareness, environmental responsiveness, emergency management, and adaptive mobility safety across consumer, commercial, industrial, logistics, fleet, institutional, and connected transportation applications.
Disclaimer: Curated by HT Syndication.
