INTELLIGENT STORAGE SYSTEMS FOR TEMPERATURE-SENSITIVE MEDICATIONS

Abstract

ABSTRACT Intelligent Storage Systems for Temperature-Sensitive Medications The present disclosure introduces an intelligent storage system for temperature-sensitive medications 100, which ensures optimal storage conditions through IOT-enabled sensors 102 that monitor temperature and humidity levels in real time. It features an automated temperature control system 104 to dynamically regulate refrigeration settings, while a cloud-based data management platform 106 securely stores and analyses data. Real-time alert system 108 provides immediate notifications of deviations, and predictive maintenance module 110 anticipates failures by analysing historical trends. Customizable storage profiles 112 allow medication-specific environmental settings, implemented dynamically by the system. Dynamic temperature mapping module 118 offers visual representations of temperature distribution, and emergency power backup system 116 ensures continuity during outages. Additional components are integration module for supply chain management 120, user interface 122, blockchain-based data integrity system 124, augmented reality-enabled mobile application 126, energy-efficient refrigeration units 128, automated inventory management system 130, and compliance documentation automation module 134. Reference Fig 1

Specification

Description:Intelligent Storage Systems for Temperature-Sensitive Medications
TECHNICAL FIELD
[0001] The present innovation relates to intelligent storage systems for temperature-sensitive medications, integrating advanced monitoring, regulation, and data management technologies.

BACKGROUND

[0002] Temperature-sensitive medications, such as vaccines, insulin, biologics, and certain antibiotics, require precise storage conditions to maintain their efficacy and safety. Improper storage can lead to degradation, loss of potency, and compromised patient outcomes. Traditional storage systems, including standard refrigerators and freezers, rely on manual monitoring and basic temperature controls, which are prone to human error and delays in detecting temperature deviations. These systems often lack automation, real-time alerts, and advanced data management capabilities, making it difficult to ensure compliance with strict regulatory standards set by authorities like the FDA and WHO. Moreover, supply chain vulnerabilities during transportation and storage can further compromise the integrity of these medications.

[0003] Existing systems, while widely used, have significant limitations. Manual monitoring is error-prone and may not detect deviations promptly. Basic refrigeration units often fail to adapt dynamically to changing conditions, leading to inefficient temperature control. Additionally, the absence of robust alert systems and comprehensive data logging makes regulatory compliance and troubleshooting challenging. These drawbacks increase the risk of medication spoilage, wastage, and regulatory non-compliance.


[0004] The proposed invention addresses these challenges by integrating IoT-enabled sensors, automated temperature regulation, real-time monitoring, and cloud-based data management. Unlike conventional systems, this intelligent storage system features predictive analytics, machine learning for anomaly detection, and customizable storage profiles for various medications. It offers real-time alerts via mobile or web platforms and supports role-based access control for enhanced security. Emergency power backup, energy efficiency optimization, and blockchain-based data integrity add to its reliability and sustainability.

[0005] The novelty of the invention lies in its holistic approach to medication storage, combining advanced technologies to ensure safety, compliance, and efficiency. This system not only mitigates the risks associated with existing systems but also provides a scalable and adaptive framework for the future of temperature-sensitive medication management

OBJECTS OF THE INVENTION

[0006] The primary object of the invention is to ensure optimal storage conditions for temperature-sensitive medications by integrating intelligent monitoring and regulation technologies.

[0007] Another object of the invention is to enhance patient safety and medication efficacy by minimizing the risks of temperature excursions during storage and transportation.

[0008] Another object of the invention is to provide real-time alerts and notifications to users, ensuring immediate action in case of deviations from the required storage conditions.

[0009] Another object of the invention is to improve compliance with regulatory standards through automated documentation and comprehensive data management features.

[00010] Another object of the invention is to offer predictive analytics and machine learning capabilities to anticipate potential equipment failures or environmental changes.

[00011] Another object of the invention is to support energy-efficient storage systems, reducing operational costs and environmental impact.

[00012] Another object of the invention is to provide customizable storage profiles for different medications, ensuring precise conditions tailored to individual requirements.

[00013] Another object of the invention is to enhance supply chain transparency by enabling real-time tracking and monitoring of medications throughout their lifecycle.

[00014] Another object of the invention is to increase the reliability and scalability of storage systems for use in diverse settings, including healthcare facilities, pharmaceutical distribution, and home care.

[00015] Another object of the invention is to promote innovation in medication storage systems by integrating advanced technologies such as IoT, blockchain, and cloud computing.

SUMMARY OF THE INVENTION

[00016] In accordance with the different aspects of the present invention, intelligent storage systems for temperature-sensitive medications is presented. It integrates IoT-enabled sensors, automated temperature regulation, real-time alerts, and cloud-based data management and ensures optimal storage conditions to maintain medication efficacy, minimize wastage, and comply with regulatory standards. Predictive analytics and machine learning enhance system reliability by anticipating equipment failures and environmental fluctuations. The system supports customizable storage profiles, supply chain integration, and energy efficiency, making it scalable for healthcare facilities, pharmaceutical distribution, and home care. This innovation addresses the limitations of traditional systems while ensuring safety, compliance, and sustainability.

[00017] Additional aspects, advantages, features and objects of the present disclosure would be made apparent from the drawings and the detailed description of the illustrative embodiments constructed in conjunction with the appended claims that follow.

[00018] It will be appreciated that features of the present disclosure are susceptible to being combined in various combinations without departing from the scope of the present disclosure as defined by the appended claims.

BRIEF DESCRIPTION OF DRAWINGS
[00019] The summary above, as well as the following detailed description of illustrative embodiments, is better understood when read in conjunction with the appended drawings. For the purpose of illustrating the present disclosure, exemplary constructions of the disclosure are shown in the drawings. However, the present disclosure is not limited to specific methods and instrumentalities disclosed herein. Moreover, those in the art will understand that the drawings are not to scale. Wherever possible, like elements have been indicated by identical numbers.

[00020] Embodiments of the present disclosure will now be described, by way of example only, with reference to the following diagrams wherein:

[00021] FIG. 1 is component wise drawing for intelligent storage systems for temperature-sensitive medications.

[00022] FIG 2 is working methodology of intelligent storage systems for temperature-sensitive medications.

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 intelligent storage systems for temperature-sensitive medications 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, intelligent storage systems for temperature-sensitive medications 100 is disclosed in accordance with one embodiment of the present invention. It comprises of IoT-enabled sensors 102, automated temperature control system 104, cloud-based data management platform 106, real-time alert system 108, predictive maintenance module 110, customizable storage profiles 112, role-based access control system 114, emergency power backup system 116, dynamic temperature mapping module 118, integration module for supply chain management 120, user interface 122, blockchain-based data integrity system 124, augmented reality-enabled mobile application 126, energy-efficient refrigeration units 128, automated inventory management system 130, remote calibration and diagnostics module 132, compliance documentation automation module 134, environmental impact metrics tracker 136, user training and simulation module 138, real-time collaboration tools 140.

[00030] Referring to Fig. 1, the present disclosure provides details of intelligent storage systems for temperature-sensitive medications 100. It is a comprehensive system designed to ensure optimal storage conditions through advanced monitoring, regulation, and data management technologies. The system enables real-time monitoring, automated adjustments, and predictive maintenance to safeguard medication efficacy and safety. In one of the embodiments, the intelligent storage system for temperature-sensitive medications 100 may be provided with the following key components such as iot-enabled sensors 102, automated temperature control system 104, and cloud-based data management platform 106, facilitating precise environmental control and secure data storage. The system incorporates real-time alert system 108 and customizable storage profiles 112 to adapt to varying medication needs. It also features blockchain-based data integrity system 124 for tamper-proof records and energy-efficient refrigeration units 128 for sustainability. Additional components such as augmented reality-enabled mobile application 126 and dynamic temperature mapping module 118 enhance user engagement and monitoring capabilities.

[00031] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with IOT-enabled sensors 102, which continuously monitor temperature and humidity levels at multiple points within the storage unit. These sensors detect even minor deviations in environmental conditions, ensuring compliance with medication-specific requirements. The IOT-enabled sensors 102 transmit real-time data to the cloud-based data management platform 106, enabling precise monitoring and analysis. They work closely with the automated temperature control system 104 to trigger immediate adjustments when thresholds are breached. By providing accurate and timely environmental data, this component supports claims related to real-time monitoring and adaptive temperature regulation.

[00032] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with automated temperature control system 104, which dynamically regulates refrigeration settings based on data from IOT -enabled sensors 102. This system uses advanced algorithms to maintain optimal conditions and prevent deviations. It includes door alarms and energy-efficient refrigeration units 128, ensuring internal stability even during frequent access. The automated temperature control system 104 interworks with the predictive maintenance module 110 to anticipate and prevent system failures. By providing rapid adjustments, this component supports claims for adaptive temperature regulation and energy efficiency.

[00033] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with cloud-based data management platform 106, which securely stores and analyses environmental data collected by IOT -enabled sensors 102. This platform allows users to remotely monitor storage conditions via mobile and web interfaces. It integrates with blockchain-based data integrity system 124 to ensure tamper-proof records for compliance and reporting. The cloud-based data management platform 106 also collaborates with predictive maintenance module 110 to analyse trends and recommend maintenance schedules. This component directly supports claims related to compliance documentation, historical data analysis, and remote management.

[00034] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with real-time alert system 108, which notifies users immediately of any temperature or humidity deviations. The system works in tandem with IOT -enabled sensors 102 to detect breaches and categorizes alerts by severity. These notifications can be sent via SMS, email, or mobile applications, ensuring timely intervention. The real-time alert system 108 integrates with user interface 122 to allow users to customize alert thresholds and responses. This component directly supports claims for multi-tiered alert systems and efficient response management.

[00035] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with predictive maintenance module 110, which uses machine learning algorithms to analyse historical data from cloud-based data management platform 106. It predicts potential equipment failures and schedules proactive maintenance. The module integrates with automated temperature control system 104 to ensure continuous operation without unexpected downtime. By identifying patterns and anomalies, the predictive maintenance module 110 supports claims related to reliability, efficiency, and proactive system management.

[00036] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with customizable storage profiles 112, which allow users to define specific temperature and humidity ranges for various medications. These profiles are stored and managed through the cloud-based data management platform 106 and automatically implemented by the automated temperature control system 104. The customizable storage profiles 112 work seamlessly with real-time alert system 108 to notify users if storage conditions deviate from the predefined ranges. This component supports claims for tailored storage conditions and ensures flexibility in managing diverse pharmaceutical requirements.

[00037] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with role-based access control system 114, which enhances security by restricting critical functionalities to authorized personnel. The system integrates with user interface 122 to provide varying levels of access based on roles, such as administrators, technicians, or compliance officers. Role-based access control system 114 also ensures secure interaction with the blockchain-based data integrity system 124, protecting sensitive data from unauthorized alterations. This component directly supports claims related to security, accountability, and compliance in regulated environments.

[00038] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with emergency power backup system 116, which activates automatically during power outages to maintain continuous operation. This system works closely with automated temperature control system 104 and energy-efficient refrigeration units 128 to ensure the integrity of temperature-sensitive medications even during disruptions. The emergency power backup system 116 integrates with predictive maintenance module 110 to monitor battery health and predict replacements. This component supports claims for uninterrupted operation and enhances system reliability under challenging conditions.

[00039] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with dynamic temperature mapping module 118, which visually represents temperature distribution within the storage unit. This module collects data from IOT -enabled sensors 102 and displays heatmaps on the user interface 122 to identify hotspots or cold spots. The dynamic temperature mapping module 118 works in conjunction with automated temperature control system 104 to adjust settings in areas showing anomalies. This component supports claims for precise environmental control and facilitates quick identification of storage inconsistencies.

[00040] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with integration module for supply chain management 120, which enables seamless tracking and monitoring of medications throughout their lifecycle. The module integrates with the cloud-based data management platform 106 to provide real-time visibility into storage conditions during transit. It also collaborates with blockchain-based data integrity system 124 to ensure tamper-proof records for regulatory compliance. This component supports claims related to supply chain transparency and enhances accountability in medication handling.

[00041] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with user interface 122, which offers an intuitive dashboard accessible via mobile and web platforms. The interface displays real-time data, historical trends, and alerts generated by the cloud-based data management platform 106 and real-time alert system 108. Users can customize storage profiles 112, view dynamic temperature maps from module 118, and manage access control through role-based access control system 114. This component supports claims for usability, accessibility, and enhanced monitoring capabilities.

[00042] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with block chain-based data integrity system 124, which ensures tamper-proof storage of environmental condition records. This system integrates with cloud-based data management platform 106 to secure temperature and humidity logs, providing reliable documentation for regulatory compliance. The block chain-based data integrity system 124 works with role-based access control system 114 to maintain data security. This component supports claims for data authenticity, regulatory compliance, and audit-readiness.

[00043] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with augmented reality-enabled mobile application 126, which enhances user interaction by overlaying real-time temperature and humidity data onto the storage environment. The application integrates with IOT -enabled sensors 102 and dynamic temperature mapping module 118 to provide accurate and interactive visualizations. This component supports claims for improved user engagement and facilitates quick issue identification through augmented reality features.

[00044] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with energy-efficient refrigeration units 128, which use smart technologies like variable-speed compressors to optimize energy usage. These units work closely with automated temperature control system 104 to maintain stable storage conditions while reducing operational costs. Energy-efficient refrigeration units 128 are monitored by predictive maintenance module 110 to ensure consistent performance. This component supports claims related to energy efficiency and sustainability.

[00045] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with automated inventory management system 130, which tracks stock levels and medication expiration dates in real time. The system integrates with cloud-based data management platform 106 to provide alerts when inventory is low or nearing expiry. Automated inventory management system 130 works with integration module for supply chain management 120 to streamline inventory tracking across locations. This component supports claims for waste reduction and operational efficiency.

[00046] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with remote calibration and diagnostics module 132, which ensures the accuracy of IOT -enabled sensors 102 and the reliability of other components. This module integrates with predictive maintenance module 110 to schedule calibration checks and diagnose potential faults. The remote calibration and diagnostics module 132 supports claims related to system accuracy, reliability, and reduced downtime.

[00047] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with compliance documentation automation module 134, which generates audit-ready reports based on data from cloud-based data management platform 106 and block chain-based data integrity system 124. This module simplifies compliance with regulatory standards and provides detailed logs for inspections. The compliance documentation automation module 134 supports claims for streamlined reporting and enhanced regulatory adherence.

[00048] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with environmental impact metrics tracker 136, which monitors energy usage and emissions associated with energy-efficient refrigeration units 128. The tracker integrates with cloud-based data management platform 106 to analyse environmental data and provide sustainability reports. The environmental impact metrics tracker 136 supports claims related to sustainability and responsible energy consumption.

[00049] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with user training and simulation module 138, which prepares users for handling emergencies like temperature excursions and power outages. The module simulates various scenarios and integrates with real-time alert system 108 to train users in effective response strategies. The user training and simulation module 138 supports claims for improved preparedness and system usability.

[00050] Referring to Fig. 1, intelligent storage system for temperature-sensitive medications 100 is provided with real-time collaboration tools 140, which allow users to communicate and coordinate responses during critical events. These tools integrate with real-time alert system 108 to share alerts and facilitate teamwork. Real-time collaboration tools 140 support claims for enhanced response coordination and efficient issue resolution.


[00051] Referring to Fig 2, there is illustrated method 200 for intelligent storage systems for temperature-sensitive medications 100. The method comprises:
At step 202, method 200 includes iot-enabled sensors 102 continuously monitoring temperature and humidity levels within the storage unit;
At step 204, method 200 includes iot-enabled sensors 102 transmitting real-time data to cloud-based data management platform 106 for analysis and storage;
At step 206, method 200 includes cloud-based data management platform 106 sending data to automated temperature control system 104, which dynamically adjusts refrigeration settings to maintain optimal conditions;
At step 208, method 200 includes real-time alert system 108 notifying users immediately via SMS, email, or mobile application if temperature or humidity levels deviate from predefined thresholds;
At step 210, method 200 includes predictive maintenance module 110 analyzing historical data from cloud-based data management platform 106 to identify patterns and schedule proactive maintenance of critical components;
At step 212, method 200 includes dynamic temperature mapping module 118 creating a visual representation of temperature distribution within the storage unit and highlighting any hotspots or cold spots;
At step 214, method 200 includes customizable storage profiles 112 applying predefined temperature and humidity ranges specific to the medication type, which are implemented by automated temperature control system 104;
At step 216, method 200 includes role-based access control system 114 managing user permissions to ensure only authorized personnel can modify critical settings or access sensitive data;
At step 218, method 200 includes blockchain-based data integrity system 124 securing temperature and humidity logs for regulatory compliance and tamper-proof documentation;
At step 220, method 200 includes automated inventory management system 130 tracking medication stock levels and expiration dates, alerting users when thresholds are reached;
At step 222, method 200 includes emergency power backup system 116 ensuring uninterrupted operation during power outages, maintaining storage conditions until normal power is restored;
At step 224, method 200 includes augmented reality-enabled mobile application 126 providing users with real-time interactive visualizations of storage conditions and dynamic temperature maps created by module 118;
At step 226, method 200 includes compliance documentation automation module 134 generating audit-ready reports based on data stored in cloud-based data management platform 106 and blockchain-based data integrity system 124;
At step 228, method 200 includes environmental impact metrics tracker 136 analyzing energy usage and emissions from energy-efficient refrigeration units 128, providing sustainability reports;
At step 230, method 200 includes integration module for supply chain management 120 tracking medication conditions during transportation and providing real-time updates;
At step 232, method 200 includes remote calibration and diagnostics module 132 ensuring the accuracy of iot-enabled sensors 102 and diagnosing potential faults to reduce downtime;
At step 234, method 200 includes user training and simulation module 138 preparing users for handling emergencies like temperature excursions and power failures;
At step 236, method 200 includes real-time collaboration tools 140 facilitating communication and coordination among users to address critical alerts or emergencies promptly.
[00052] 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.

[00053] 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.

[00054] 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. An intelligent storage systems for temperature-sensitive medications 100 comprising of
IOT-enabled sensors 102 to monitor temperature and humidity levels in real time;
automated temperature control system 104 to dynamically regulate refrigeration settings based on sensor data;
cloud-based data management platform 106 to store, analyse, and provide remote access to environmental data;
real-time alert system 108 to notify users of temperature or humidity deviations instantly;
predictive maintenance module 110 to analyse historical data and schedule proactive maintenance;
customizable storage profiles 112 to apply specific temperature and humidity settings tailored to medications;
role-based access control system 114 to ensure secure access and restrict modifications to authorized personnel;
emergency power backup system 116 to maintain operation during power outages;
dynamic temperature mapping module 118 to visually represent temperature distribution and highlight anomalies;
integration module for supply chain management 120 to track and monitor medication conditions throughout the supply chain;
user interface 122 to provide real-time monitoring, customization, and alert management via mobile and web platforms;
blockchain-based data integrity system 124 to secure tamper-proof records of temperature and environmental conditions;
augmented reality-enabled mobile application 126 to offer interactive overlays of storage data for enhanced monitoring;
energy-efficient refrigeration units 128 to reduce energy consumption while maintaining optimal conditions;
automated inventory management system 130 to track stock levels and alert users on low inventory or expired medications;
remote calibration and diagnostics module 132 to maintain accuracy and diagnose potential issues remotely;
compliance documentation automation module 134 to generate audit-ready reports for regulatory compliance;
environmental impact metrics tracker 136 to monitor and report energy usage and emissions for sustainability;
user training and simulation module 138 to prepare users for emergency scenarios through interactive simulations; and
real-time collaboration tools 140 to enable effective communication and coordination during critical alerts or emergencies.


2. The intelligent storage system for temperature-sensitive medications 100 as claimed in claim 1, wherein IOT-enabled sensors 102 are configured to monitor temperature and humidity levels in real time, transmitting data continuously to ensure precise environmental control and compliance with storage requirements.

3. The intelligent storage system for temperature-sensitive medications 100 as claimed in claim 1, wherein automated temperature control system 104 is configured to dynamically adjust refrigeration settings based on sensor inputs, ensuring consistent storage conditions and minimizing energy consumption through adaptive regulation.

4. The intelligent storage system for temperature-sensitive medications 100 as claimed in claim 1, wherein cloud-based data management platform 106 is configured to securely store environmental data, provide remote access, and enable compliance documentation with blockchain-based data integrity for tamper-proof record-keeping.

5. The intelligent storage system for temperature-sensitive medications 100 as claimed in claim 1, wherein real-time alert system 108 is configured to notify users immediately of temperature or humidity deviations, with severity-based categorization to facilitate timely and prioritized responses.

6. The intelligent storage system for temperature-sensitive medications 100 as claimed in claim 1, wherein predictive maintenance module 110 is configured to analyze historical environmental and system performance data stored on cloud-based data management platform 106 to identify patterns of deviation and proactively recommend maintenance schedules; dynamic temperature mapping module 118 generating a visual representation of temperature distribution to detect and correct hotspots or cold spots within the storage unit; and augmented reality-enabled mobile application 126 providing users with interactive, real-time overlays of temperature conditions and system diagnostics, collectively enabling adaptive, scalable, and user-friendly storage management across pharmaceutical distribution chains, healthcare facilities, and home environments..

7. The intelligent storage system for temperature-sensitive medications 100 as claimed in claim 1, wherein customizable storage profiles 112 are configured to define medication-specific temperature and humidity ranges, dynamically applied through the automated temperature control system 104 for tailored storage systems.

8. The intelligent storage system for temperature-sensitive medications 100, as claimed in claim 1, wherein dynamic temperature mapping module 118 is configured to generate visual representations of temperature distribution within the storage unit, identifying anomalies such as hotspots or cold spots for corrective actions.

9. The intelligent storage system for temperature-sensitive medications 100, as claimed in claim 1, wherein emergency power backup system 116 is configured to activate automatically during power outages, maintaining optimal storage conditions and safeguarding medication integrity until power is restored.

10. The intelligent storage systems for temperature-sensitive medications 100 as claimed in claim 1, wherein method comprises of
IOT-enabled sensors 102 continuously monitoring temperature and humidity levels within the storage unit;
IOT-enabled sensors 102 transmitting real-time data to cloud-based data management platform 106 for analysis and storage;
cloud-based data management platform 106 sending data to automated temperature control system 104, which dynamically adjusts refrigeration settings to maintain optimal conditions;
real-time alert system 108 notifying users immediately via SMS, email, or mobile application if temperature or humidity levels deviate from predefined thresholds;
predictive maintenance module 110 analyzing historical data from cloud-based data management platform 106 to identify patterns and schedule proactive maintenance of critical components;
dynamic temperature mapping module 118 creating a visual representation of temperature distribution within the storage unit and highlighting any hotspots or cold spots;
customizable storage profiles 112 applying predefined temperature and humidity ranges specific to the medication type, which are implemented by automated temperature control system 104;
role-based access control system 114 managing user permissions to ensure only authorized personnel can modify critical settings or access sensitive data;
blockchain-based data integrity system 124 securing temperature and humidity logs for regulatory compliance and tamper-proof documentation;
automated inventory management system 130 tracking medication stock levels and expiration dates, alerting users when thresholds are reached;
emergency power backup system 116 ensuring uninterrupted operation during power outages, maintaining storage conditions until normal power is restored;
augmented reality-enabled mobile application 126 providing users with real-time interactive visualizations of storage conditions and dynamic temperature maps created by module 118;
compliance documentation automation module 134 generating audit-ready reports based on data stored in cloud-based data management platform 106 and blockchain-based data integrity system 124;
environmental impact metrics tracker 136 analyzing energy usage and emissions from energy-efficient refrigeration units 128, providing sustainability reports;
integration module for supply chain management 120 tracking medication conditions during transportation and providing real-time updates;
remote calibration and diagnostics module 132 ensuring the accuracy of iot-enabled sensors 102 and diagnosing potential faults to reduce downtime;
user training and simulation module 138 preparing users for handling emergencies like temperature excursions and power failures;
real-time collaboration tools 140 facilitating communication and coordination among users to address critical alerts or emergencies promptly.

Documents