SECURITY SYSTEMS FOR ENTRY AND DELIVERY WITH AI INTEGRATION

Abstract

ABSTRACT Security Systems for Entry and Delivery with AI Integration The present disclosure introduces a security systems for entry and delivery with AI integration 100 which enhances access control and threat detection. The system incorporates an AI processing module 102 for real-time data analysis, biometric sensors 104 for multi-factor authentication, and access control unit 108 for secure entry management. It leverages IOT connectivity 110 to integrate smart devices, while cloud-based data management platform 112 stores security logs and supports remote access. Temporary access credentialing system 116 issues time-bound credentials for delivery personnel. Anomaly detection system 118 monitors for unusual behaviour, with predictive security alert and smart lockdown mechanism 120 pre-emptively triggering alerts. Additional components are self-diagnosing security and maintenance alerts 122 for proactive maintenance, mobile or web-based application 114 for remote monitoring, and real-time weather and environment adaptation system 152 to adjust for optimal visibility. This system ensures adaptable, robust, and user-friendly security. Reference Fig 1

Specification

Description:DETAILED DESCRIPTION

[00023] The following detailed description illustrates embodiments of the present disclosure and ways in which they can be implemented. Although some modes of carrying out the present disclosure have been disclosed, those skilled in the art would recognise that other embodiments for carrying out or practising the present disclosure are also possible.

[00024] The description set forth below in connection with the appended drawings is intended as a description of certain embodiments of security systems for entry and delivery with AI integration and is not intended to represent the only forms that may be developed or utilised. The description sets forth the various structures and/or functions in connection with the illustrated embodiments; however, it is to be understood that the disclosed embodiments are merely exemplary of the disclosure that may be embodied in various and alternative forms. The figures are not necessarily to scale; some features may be exaggerated or minimised to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present invention.

[00025] While the disclosure is susceptible to various modifications and alternative forms, specific embodiment thereof has been shown by way of example in the drawings and will be described in detail below. It should be understood, however, that it is not intended to limit the disclosure to the particular forms disclosed, but on the contrary, the disclosure is to cover all modifications, equivalents, and alternatives falling within the scope of the disclosure.

[00026] The terms "comprises", "comprising", "include(s)", or any other variations thereof, are intended to cover a non-exclusive inclusion, such that a setup, or system that comprises a list of components or steps does not include only those components or steps but may include other components or steps not expressly listed or inherent to such setup or system. In other words, one or more elements in a system or apparatus preceded by "comprises... a" does not, without more constraints, preclude the existence of other elements or additional elements in the system or apparatus.

[00027] In the following detailed description of the embodiments of the disclosure, reference is made to the accompanying drawings and which are shown by way of illustration-specific embodiments in which the disclosure may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the disclosure, and it is to be understood that other embodiments may be utilized and that changes may be made without departing from the scope of the present disclosure. The following description is, therefore, not to be taken in a limiting sense.

[00028] The present disclosure will be described herein below with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the description with unnecessary detail.

[00029] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is disclosed in accordance with one embodiment of the present invention. It comprises of AI processing module 102, biometric sensors 104, multi-factor biometric authentication module 106, access control unit 108, IOT connectivity 110, cloud-based data management platform 112, mobile or web-based application 114, temporary access credentialing system 116, anomaly detection system 118, predictive security alert and smart lockdown mechanism 120, self-diagnosing security and maintenance alerts 122, automated incident reporting with compliance data 124, voice-activated panic alert system 126, legacy system integration module 128, energy management system for entry points 130, augmented reality (AR) monitoring interface 132, privacy-optimized facial recognition with encrypted biometric data 134, health screening module 136, voice-guided authentication interface 138, risk profiling and access scoring system 140, package tracking and access logging system 142, on-demand AI model training and updates module 144, integrated compliance reporting and access log analytics 146, emergency communication link with AI triage 148, geo-fenced access control system for mobile-enabled users 150 and real-time weather and environment adaptation system 152.

[00030] Referring to Fig. 1, the present disclosure provides details of security systems for entry and delivery with AI integration 100. It is designed to enhance security and efficiency at entry points across residential, commercial, and industrial properties using biometric authentication, real-time monitoring, and AI-based anomaly detection. In one embodiment, the AI-integrated security system comprise of AI processing module 102, biometric sensors 104, and access control unit 108 to secure and manage entry access. The system incorporates IOT connectivity 110 and cloud-based data management platform 112 for seamless integration and remote access. Additional features are predictive security alert and smart lockdown mechanism 120 and self-diagnosing security and maintenance alerts 122 to proactively manage risks. Other components, such as package tracking and access logging system 142 and geo-fenced access control system 150, enhance security and functionality for deliveries and mobile-enabled users.

[00031] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with AI processing module 102, which uses advanced machine learning algorithms to analyze real-time data from various sensors and cameras. This module is essential for identifying patterns, recognizing faces, and detecting anomalies in real time, ensuring secure access control. The ai processing module 102 works closely with biometric sensors 104 to validate identities and trigger appropriate responses based on recognized access patterns. By processing data from other components like anomaly detection system 118, this module refines its algorithms over time, enhancing predictive threat analysis and minimizing unauthorized access.

[00032] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with biometric sensors 104, which enable multi-factor authentication through fingerprint, facial, and voice recognition technologies. These sensors work in conjunction with AI processing module 102 to verify identity at access points, providing a secure layer of entry control. Biometric sensors 104 detect and validate authorized users while rejecting unauthorized attempts, enhancing security at sensitive entry points. This component supports functionalities like multi-factor biometric authentication and temporary access credentialing, allowing limited, verified access for delivery personnel or guests as needed.

[00033] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with access control unit 108, which controls smart locks, turnstiles, and automated doors based on the analysis from AI processing module 102 and verification from biometric sensors 104. This unit is responsible for granting or denying entry, ensuring only authorized individuals gain access to the property. It also works closely with temporary access credentialing system 116, allowing for secure, time-bound access during deliveries. The access control unit 108 supports real-time responsiveness, enhancing the overall security and convenience of the system.

[00034] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with IOT connectivity 110, which integrates various IoT-enabled devices such as smart locks, cameras, motion sensors, and intercom systems. This connectivity enables seamless communication between these devices and the AI processing module 102, allowing dynamic adjustments based on real-time data. The IOT connectivity 110 enhances system scalability and supports real-time monitoring, remote control, and data-driven decisions. By connecting with components like anomaly detection system 118, it enables timely alerts and enhances the adaptability of the security system.

[00035] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with cloud-based data management platform 112, which stores access logs, security incidents, and machine learning models for ongoing system improvement. This platform ensures remote accessibility for system administrators, who can monitor and manage access controls from anywhere. The cloud-based data management platform 112 works with AI processing module 102 for continuous learning, helping to refine security protocols. It also enables compliance reporting through components like integrated compliance reporting and access log analytics 146, supporting audit and regulatory needs.

[00036] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with mobile or web-based application 114, which allows property managers and authorized users to monitor and control access remotely. This application displays live video feeds, provides real-time alerts, and enables permission updates for various access points. The mobile or web-based application 114 integrates closely with cloud-based data management platform 112, enabling real-time access to system data and analytics. It enhances user convenience, especially for remote monitoring, ensuring security even when property managers are offsite.

[00037] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with temporary access credentialing system 116, which issues limited, time-bound credentials to verified delivery personnel. This system works with biometric sensors 104 to grant temporary access for specific areas or time frames, enhancing security during delivery processes. The temporary access credentialing system 116 ensures that credentials automatically expire post-delivery, minimizing risks of unauthorized access. It operates alongside access control unit 108 to secure entry points while maintaining flexibility for temporary access needs.

[00038] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with anomaly detection system 118, which leverages AI-driven learning to identify unusual or unauthorized behaviour at entry points. This system continuously analyses data from AI processing module 102 and other connected sensors, flagging potential threats in real time. Anomaly detection system 118 supports predictive security alerts and enhances threat response, working with predictive security alert and smart lockdown mechanism 120 to implement lockdowns or alerts as necessary. This feature ensures proactive security management, adjusting responses based on emerging patterns.

[00039] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with predictive security alert and smart lockdown mechanism 120, which uses historical data and pattern analysis to anticipate potential risks. This mechanism collaborates with anomaly detection system 118 to activate lockdowns or initiate alerts during high-risk scenarios, enhancing response to threats. Predictive security alert and smart lockdown mechanism 120 also coordinates with access control unit 108 to secure specific entry points, providing an advanced layer of protection through predictive analysis.

[00040] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with self-diagnosing security and maintenance alerts 122, which continuously monitors the system's operational health, identifying hardware or software malfunctions. This component sends maintenance alerts to administrators, allowing for timely repairs and minimizing downtime. Self-diagnosing security and maintenance alerts 122 work closely with cloud-based data management platform 112, ensuring all maintenance data is logged for future reference. This feature enhances system reliability and operational integrity by proactively managing potential issues.

[00041] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with automated incident reporting with compliance data 124, which automatically generates reports in case of a security event. These reports include time-stamped access logs, user identities, and relevant footage, facilitating audit and compliance needs. Automated incident reporting with compliance data 124 integrates with cloud-based data management platform 112 to store and retrieve records, ensuring regulatory adherence. This component enhances transparency and accountability, supporting detailed documentation for security incidents.

[00042] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with voice-activated panic alert system 126, which allows authorized users to trigger a security alert through a specific voice command. This system works in conjunction with predictive security alert and smart lockdown mechanism 120 to initiate emergency protocols and alert security personnel immediately. Voice-activated panic alert system 126 offers a discreet method for users to signal distress, improving emergency response without relying on visible alert mechanisms.

[00043] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with legacy system integration module 128, which facilitates compatibility with existing security infrastructure such as older CCTV cameras and alarm systems. This module allows the AI-integrated system to work seamlessly with legacy equipment, making it a cost-effective solution for upgrading security. Legacy system integration module 128 ensures a smooth transition to advanced security features without requiring complete infrastructure replacement, enhancing versatility across property types.

[00044] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with energy management system for entry points 130, which optimizes power usage at entry points by adjusting lighting, camera operation, and access equipment based on real-time activity. This system is linked with IOT connectivity 110, allowing for efficient energy use while maintaining security levels. Energy management system for entry points 130 contributes to sustainability by conserving power, particularly during low-traffic hours, without compromising security effectiveness.

[00045] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with augmented reality (AR) monitoring interface 132, which enables security personnel to view live overlays of entry and delivery point information through AR-enabled devices. This interface is integrated with AI processing module 102 and cloud-based data management platform 112 to provide real-time, context-rich data for enhanced monitoring. Augmented reality (AR) monitoring interface 132 enhances situational awareness, allowing for a more intuitive surveillance experience.

[00046] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with privacy-optimized facial recognition with encrypted biometric data 134, which ensures all facial recognition data is securely encrypted. This component complies with data privacy standards like GDPR, limiting biometric data storage to on-device processing when feasible. Privacy-optimized facial recognition with encrypted biometric data 134 integrates with biometric sensors 104 to securely manage user identities, enhancing both security and data protection.

[00047] Referring to Fig. 1 security systems for entry and delivery with AI integration 100 is provided with health screening module 136, which includes temperature and mask detection sensors to ensure compliance with health protocols at entry points. This module works with access control unit 108 to grant or deny access based on health criteria, safeguarding public health in high-traffic or sensitive areas. Health screening module 136 enhances system adaptability by integrating health checks as part of the security process.

[00048] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with voice-guided authentication interface 138, which offers a touch less entry option by allowing users to verify identity through specific voice commands. This interface works with AI processing module 102 to validate commands and grant access, ideal for high-traffic or hygiene-sensitive locations. Voice-guided authentication interface 138 enhances accessibility and user convenience, providing a hands-free authentication method.

[00049] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with risk profiling and access scoring system 140, which assigns risk scores to users based on behavioural analysis and access history. This system is linked with AI processing module 102 to dynamically adapt access permissions based on risk levels, adding an additional security layer for high-risk users. Risk profiling and access scoring system 140 enhances security by applying more stringent measures to users flagged as higher risk.

[00050] Referring to Fig. 1 security systems for entry and delivery with AI integration 100 is provided with package tracking and access logging system 142, which assigns unique tracking identifiers to packages, recording entry and exit events for delivery accountability. This system integrates with temporary access credentialing system 116 to monitor deliveries and ensure secure, documented access. Package tracking and access logging system 142 enhances delivery management, providing traceability for packages in commercial and residential settings.

[00051] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with on-demand AI model training and updates module 144, which allows administrators to conduct model updates to address new security threats. This module collaborates with AI processing module 102 to maintain up-to-date recognition algorithms and improve detection accuracy over time. On-demand ai model training and updates module 144 ensures the system remains responsive and adaptable to evolving security needs.

[00052] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with integrated compliance reporting and access log analytics 146, which compiles detailed logs of access attempts and delivery events for audit purposes. This component interacts with cloud-based data management platform 112 to store records and support regulatory compliance. Integrated compliance reporting and access log analytics 146 enhances transparency, enabling quick access to historical data for compliance verification.

[00053] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with emergency communication link with AI triage 148, which establishes an immediate link to emergency services during security breaches. The AI processing module 102 categorizes incidents, allowing for a targeted response based on the specific threat type (e.g., fire, intrusion). Emergency communication link with AI triage 148 ensures swift and accurate assistance by providing real-time incident details to responders.

[00054] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with geo-fenced access control system for mobile-enabled users 150, which restricts access based on the physical location of authorized mobile devices. This component works with mobile or web-based application 114 to ensure users can only gain access within a defined perimeter, adding another layer of security. Geo-fenced access control system for mobile-enabled users 150 helps prevent unauthorized remote access, providing location-based security.

[00055] Referring to Fig. 1, security systems for entry and delivery with AI integration 100 is provided with real-time weather and environment adaptation system 152, which adjusts camera settings and access controls based on weather conditions. This system works with IOT connectivity 110 to monitor environmental changes, improving visibility and response in adverse weather. Real-time weather and environment adaptation system 152 enhances security performance in varying weather conditions, ensuring consistent operation across environments.

[00056] Referring to Fig 2, there is illustrated method 200 for security systems for entry and delivery with AI integration 100. The method comprises:
At step 202, method 200 includes detecting movement at the entry point using IOT connectivity 110, activating biometric sensors 104 for identification;
At step 204, method 200 includes AI processing module 102 verifying identity through facial, fingerprint, or voice recognition data from biometric sensors 104;
At step 206, method 200 includes access control unit 108 granting or denying access based on verification by AI processing module 102;
At step 208, method 200 includes access control unit 108 unlocking the entry point for authorized users or delivery personnel with temporary access from temporary access credentialing system 116;
At step 210, method 200 includes anomaly detection system 118 monitoring for unusual behavior, with data sent to predictive security alert and smart lockdown mechanism 120;
At step 212, method 200 includes predictive security alert and smart lockdown mechanism 120 triggering alerts or lockdowns if high-risk activity is detected;
At step 214, method 200 includes automated incident reporting with compliance data 124 creating a report of security events, saved in cloud-based data management platform 112 for compliance;
At step 216, method 200 includes self-diagnosing security and maintenance alerts 122 monitoring system health and notifying administrators of malfunctions;
At step 218, method 200 includes voice-activated panic alert system 126 enabling users to initiate an emergency alert, linking to emergency services via emergency communication link with AI triage 148;
At step 220, method 200 includes real-time weather and environment adaptation system 152 adjusting camera and lighting for optimal visibility in current weather conditions;
At step 222, method 200 includes mobile or web-based application 114 allowing remote entry monitoring, live feeds, and real-time alerts via cloud-based data management platform 112;
At step 224, method 200 includes package tracking and access logging system 142 logging each delivery and tracking entry and exit for package accountability.
[00057] The security systems for entry and delivery with AI integration 100 offers numerous benefits that set it apart from traditional access control solutions. Enhanced security and precision are achieved by utilizing AI and machine learning, which significantly reduce the likelihood of unauthorized access and elevate overall security standards. The system's efficiency in delivery and access management allows for automated entry of deliveries, providing a seamless, secure experience that does not require constant oversight. Its adaptability and scalability make it an ideal solution across diverse environments, from residential complexes to corporate and industrial sites, accommodating varied security needs and growing alongside operational requirements. Furthermore, the system's data-driven insights leverage historical data to continuously refine security protocols, offering valuable analytics on trends and potential risks, which help inform more proactive security measures. This combination of precision, adaptability, and intelligence makes the invention a robust and forward-looking security solution.

[00058] The security systems for entry and delivery with AI integration 100 finds versatile applications across various industries in different embodiments, enhancing access control, security, and operational efficiency. In one of the embodiments for residential buildings, it provides gated communities and high-rise apartments with secure, streamlined access for residents, guests, and delivery personnel, ensuring safety without compromising convenience. In another embodiment for commercial complexes, the system manages controlled access for employees, clients, and vendors, reducing unauthorized entry and enhancing workplace security in office buildings and shared workspaces. In another embodiment for industrial facilities, it supports stringent security needs by closely monitoring entry for both personnel and deliveries in factories and warehouses, where controlled access is critical. In yet another embodiment for smart city infrastructures, the system integrates with municipal security networks to support broader urban security efforts, contributing to safer, more resilient city environments. By addressing the specific security needs of each sector, this AI-integrated system offers a flexible, adaptable solution for secure, efficient, and user-friendly access management across diverse settings.

[00059] In the description of the present invention, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "fixed" "attached" "disposed," "mounted," and "connected" are to be construed broadly, and may for example be fixedly connected, detachably connected, or integrally connected, either mechanically or electrically. They may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

[00060] Modifications to embodiments of the present disclosure described in the foregoing are possible without departing from the scope of the present disclosure as defined by the accompanying claims. Expressions such as "including", "comprising", "incorporating", "have", "is" used to describe and claim the present disclosure are intended to be construed in a non- exclusive manner, namely allowing for items, components or elements not explicitly described also to be present. Reference to the singular is also to be construed to relate to the plural where appropriate.

[00061] Although embodiments have been described with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure. More particularly, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the present disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, alternative uses will also be apparent to those skilled in the art.
, Claims:WE CLAIM:
1. A security systems for entry and delivery with AI integration 100 comprising of
AI processing module 102 to analyse data from sensors for pattern recognition and real-time anomaly detection;
biometric sensors 104 to enable multi-factor authentication through facial, fingerprint, and voice recognition;
multi-factor biometric authentication module 106 to enhance security by combining multiple biometric inputs;
access control unit 108 to grant or restrict entry based on AI and biometric verification;
IOT connectivity 110 to integrate smart devices and facilitate real-time communication across the system;
cloud-based data management platform 112 to store access logs, incident data, and allow remote monitoring;
mobile or web-based application 114 to provide remote control, alerts, and live monitoring to authorized users;
temporary access credentialing system 116 to issue limited, time-bound credentials for delivery personnel;
anomaly detection system 118 to monitor for unusual or unauthorized behaviour at entry points;
predictive security alert and smart lockdown mechanism 120 to trigger alerts or lockdowns in high-risk situations;
self-diagnosing security and maintenance alerts 122 to monitor system health and notify administrators of malfunctions;
automated incident reporting with compliance data 124 to generate detailed reports for security events and compliance;
voice-activated panic alert system 126 to allow users to initiate an alert through a voice command;
legacy system integration module 128 to ensure compatibility with existing security infrastructure;
energy management system for entry points 130 to adjust power usage based on activity levels for optimal energy conservation;
augmented reality (AR) monitoring interface 132 to provide real-time data overlays for security personnel;
privacy-optimized facial recognition with encrypted biometric data 134 to secure and protect biometric data in compliance with privacy standards;
health screening module 136 to ensure compliance with health protocols by detecting temperature and mask usage;
voice-guided authentication interface 138 to offer touch less access for hygiene-sensitive areas;
risk profiling and access scoring system 140 to assign risk levels to users based on behavior and access history;
package tracking and access logging system 142 to log and monitor deliveries for accountability;
on-demand AI model training and updates module 144 to update and adapt AI models for evolving security needs;
integrated compliance reporting and access log analytics 146 to maintain records for regulatory compliance and audit purposes;
emergency communication link with AI triage 148 to connect directly with emergency services during incidents;
geo-fenced access control system for mobile-enabled users 150 to limit access based on user location; and
real-time weather and environment adaptation system 152 to adjust camera and lighting based on environmental conditions.
2. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein AI processing module 102 is configured to analyze real-time data from biometric sensors 104 and anomaly detection system 118 using machine learning algorithms, enabling precise recognition and predictive threat analysis for adaptive access control.

3. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein biometric sensors 104 are configured to perform multi-factor authentication through facial, fingerprint, and voice recognition, ensuring secure access by verifying identity with high accuracy, thereby reducing unauthorized entry.

4. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein access control unit 108 is configured to operate smart locks, automated doors, and turnstiles based on real-time data from ai processing module 102 and biometric sensors 104, granting or restricting access to authorized individuals, including temporary access for verified delivery personnel.

5. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein anomaly detection system 118 is configured to monitor for unauthorized or unusual behavior by analyzing access patterns, and is capable of dynamically updating threat detection protocols by learning from historical data.

6. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein predictive security alert and smart lockdown mechanism 120 is configured to trigger preemptive alerts and initiate lockdowns in high-risk situations based on pattern analysis, enhancing security by preventing potential breaches before they occur.

7. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein temporary access credentialing system 116 is configured to issue limited-time credentials for delivery personnel, enabling secure access for specified durations and automatically revoking access post-delivery to ensure controlled entry.

8. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein cloud-based data management platform 112 is configured to store access logs, security incidents, and learning models remotely, allowing for real-time monitoring, system updates, and compliance reporting by authorized personnel.

9. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein self-diagnosing security and maintenance alerts 122 are configured to continuously monitor system integrity, automatically notifying administrators of hardware or software issues to ensure consistent and reliable operation across all components.

10. The security systems for entry and delivery with AI integration 100 as claimed in claim 1, wherein method comprises of
IOT connectivity 110 detecting movement at the entry point and activating biometric sensors 104 for identification;
AI processing module 102 verifying identity through facial, fingerprint, or voice recognition data from biometric sensors 104;
access control unit 108 granting or denying access based on verification by AI processing module 102;
access control unit 108 unlocking the entry point for authorized users or delivery personnel with temporary access from temporary access credentialing system 116;
anomaly detection system 118 monitoring for unusual behaviour, with data sent to predictive security alert and smart lockdown mechanism 120;
predictive security alert and smart lockdown mechanism 120 triggering alerts or lockdowns if high-risk activity is detected;
automated incident reporting with compliance data 124 creating a report of security events, saved in cloud-based data management platform 112 for compliance;
self-diagnosing security and maintenance alerts 122 monitoring system health and notifying administrators of malfunctions;
voice-activated panic alert system 126 enabling users to initiate an emergency alert, linking to emergency services via emergency communication link with AI triage 148;
real-time weather and environment adaptation system 152 adjusting camera and lighting for optimal visibility in current weather conditions;
mobile or web-based application 114 allowing remote entry monitoring, live feeds, and real-time alerts via cloud-based data management platform 112;
package tracking and access logging system 142 logging each delivery and tracking entry and exit for package accountability.

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