AI-Enabled Remote Locking System with Dual Access Control for Godowns

Abstract

The present invention introduces an AI-enabled dual access locking system designed specifically for godowns and warehouses, enabling remote control and monitoring via a mobile application. The system provides a unique dual access protocol, offering primary control to the owner and restricted access to clients. The locking mechanism is electronically managed by an AI-based system that processes commands received through a communication module supporting Bluetooth, WiFi, or GSM connectivity. The owner retains full administrative privileges through a dedicated mobile application, allowing remote locking/unlocking, access monitoring, and revoking or reinstating client permissions. The system features a dual authentication mechanism, ensuring secure access for both owner and client. Clients can gain temporary access, contingent on the owner’s approval through the app, with notifications and access history available for real-time monitoring. This invention addresses the limitations of conventional locking systems, which require physical presence for access control. By integrating AI and IoT technologies, it ensures a seamless, secure, and flexible approach to managing access in remote locations. The system is particularly beneficial for scenarios where remote management of restricted spaces, such as godowns, is critical. This innovative solution enhances convenience, security, and operational efficiency in access management.

Specification

Description:The following specification particularly describes the nature of the invention and the manner in which it is performed:

FIELD OF THE INVENTION

[1] This invention pertains to electronic locking systems, specifically AI-enabled remote locking mechanisms. It provides a dual access control system that allows the owner of a godown to control and restrict access remotely through a mobile application. The system allows clients limited access, which the owner can monitor and control from any location.

BACKGROUND OF THE INVENTION

[2] Conventional locking systems require physical presence for access control, which can be restrictive, especially when the owner is not in proximity to the location, such as a godown or warehouse. With advancements in AI and IoT technologies, remote access has become feasible, yet systems enabling simultaneous, owner-client-controlled access are limited.

[3] This invention introduces an AI-enabled locking system that provides dual access to both the owner and the client. The owner has primary control over access and can grant or revoke client access remotely using a mobile application. This approach is ideal for situations where remote access management is needed without physical intervention.

SUMMARY OF THE INVENTION
The invention is an AI enabled dual access locking system comprising:
[4] AI-Controlled Locking Mechanism: The lock is electronically controlled by an AI-based system that interprets commands from a mobile application to manage access.

[5] Owner Access: The owner has primary control over the lock through a mobile application. The owner can unlock or lock the system remotely, enabling full administrative access to the godown.

[6] Client Access: The client is granted a secondary, restricted access. The client can gain temporary access to the godown through the owner's authorization on the mobile application.

[7] Remote Control & Monitoring: The owner can revoke or reinstate client access through the mobile app, providing complete flexibility.
[8] The AI component is configured to recognize owner commands and respond accordingly, ensuring secure, authenticated access control that can override or permit client access as desired.


DETAILED DESCRIPTION OF THE INVENTION

The locking system consists of the following main components:

[9] AI Enabled Control Module: The module receives, processes, and interprets instructions from the owner's mobile app, enabling remote access control.

[10] Communication Interface: The locking system includes a communication interface (e.g., Bluetooth, WiFi, or GSM) allowing realtime communication with the owner's mobile application.

[11] Dual Authentication Mechanism: The system has two levels of authentication. The first level is for the owner, granting complete access. The second level is for clients, providing access under owner authorization.

[12] Mobile Application: The app serves as the owner's control center for realtime access monitoring, locking/unlocking the godown, and client access management.
, C , Claims:CLAIMS
We Claim

Claim 1: An AIenabled locking system for godowns, comprising:
a primary locking mechanism controlled by an AI system;
a communication module configured to connect with a mobile application, allowing remote access control;
a dual authentication protocol granting primary access to the owner and restricted, conditional access to a client;
wherein the owner can grant or revoke client access remotely via the mobile application.
Claim 2: The locking system of claim 1, wherein the AI system authenticates the owner and client based on separate access keys or codes, facilitating dual access control.
Claim 3: The locking system of claim 1, further comprising a communication interface that supports multiple connectivity options, such as Bluetooth, WiFi, or GSM, enabling realtime control from any location.
Claim 4: The locking system of claim 1, wherein the owner can monitor access history and receive notifications about client access via the mobile application.
Claim 5: A method for remotely controlling access to a godown comprising:
using an AIenabled locking system controlled by a mobile application;
authenticating the owner for primary access;
enabling client access based on the owner's authorization through the mobile application;
allowing the owner to revoke client access at any time, with remote monitoring capabilities.
Claim 6: The method of claim 5, wherein the locking system can operate autonomously upon authorization from the mobile app, ensuring seamless access control for the owner and client.

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