A system for computer-implemented technology-integration and certification of innovations for societal needs and method thereof
A computer-implemented system automates technology integration and certification, addressing the limitations of existing systems by educating users and facilitating IPR creation, ensuring efficient transformation of ideas into impactful innovations.
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Current Assignee / Owner
- RAMANAND KENNY D
- Filing Date
- 2025-11-11
- Publication Date
- 2026-06-25
AI Technical Summary
Existing innovation management systems lack a structured framework for evaluating technical feasibility, novelty, and creating Intellectual Property Rights (IPR), primarily focusing on large companies and not catering to common users, and there is a gap between technology integration, societal needs, and IPR protection.
A computer-implemented system that educates users on various technologies, integrates them to develop innovative solutions, and automates the evaluation and certification process, including IPR creation, through modules for user authentication, technology introduction, response authentication, processing and analysis, and innovation implementation.
Facilitates efficient transformation of innovative ideas into impactful innovations by automating technology integration, ensuring compliance, and generating IPR, thereby bridging the gap between idea generation and real-world application.
Smart Images

Figure IB2025061488_25062026_PF_FP_ABST
Abstract
Description
Internal Ref: OR25C090PCT17TITLE OF THE INVENTIONA system for computer-implemented technology-integration and certification of innovations for societal needs and method thereofPreamble to the Description
[0001] The following specification describes the invention and the manner in which it is to be performed:DESCRIPTION OF THE INVENTIONTechnical field of the invention
[0002] The present invention relates to a system for computer-implemented technology-integration and certification of innovations for societal needs. More specifically, the present invention relates to a system that educates the users on a wide array of currently available and emerging technologies, enabling them to integrate the technologies to develop innovative products or solutions and certify them. The system further supports the creation of Intellectual Property Rights (IPR) and their subsequent deployment. The present invention further discloses a method for technology exposure, evaluation, integration, certification, IPR generation, and their productive deployment.Background of the invention
[0003] In recent years, the rapid advancement of technologies has created a need for effective education and integration of emerging and established technologies to develop innovative solutions that addresses the societal needs. Traditional system of creating and evaluating any innovation typically involve manual assessment, which is time-consuming and subjective. Moreover, the evaluation of technical feasibility and novelty of such innovations remains a significant challenge.Internal Ref: OR25C090PCT17
[0004] Existing innovation management systems target large companies and is not within the gambit of a common man. They primarily focus on collecting and documenting the ideas, without providing a structured framework for evaluating technical feasibility, novelty, or the subsequent creation of Intellectual Property Rights (IPR). With the exponential rise of new technologies across diverse and unrelated fields, it has become crucial to expose the users to a broad spectrum of advancements. Such exposure empowers the users to comprehend these technologies, assess their potential, and analyse their impact, even when they fall outside the immediate domain of expertise of the users.
[0005] Further, a considerable gap persists between the creation of an innovation, integration of future emerging technologies that solve human- faced issues, and its intellectual property protection, with a very limited automation available for determining patentability or ensuring the successful deployment of technological solutions.
[0006] Various attempts have been made to address these challenges. For instance, the patent application No. US2008004119A1, titled “System for the creation and registration of ideas and concepts in a virtual environment” discloses a system and method for safeguarding intellectual property created by players within a video game environment. The system allows for the protection and registration of intellectual property for use within the virtual environment, ensuring that credit is given to the creator of user-generated content. However, patent application No. US2008004119A1 does not provide Intellectual Property Rights (IPR) to the user for its own generated system but relies on video games accessible to multiple players through a server or a peer-to-peer network. For example, hundreds of thousands of players access games known as Massive Multi-Player Online Games (MMOGs) and Massive Multi-Player Online Role-Playing Games (MMORPGs). Players of these games typically access the game repeatedly for durations ranging from a few minutes to several days, which sometimes extends to weeks, months, or even years. These games are often designed such that players pay a periodic subscription fee (e.g., $15 per month) in addition to, or instead of, a one-time purchase price for the game. Often, though not necessarily, these games lack anInternal Ref: OR25C090PCT17 ultimate “winner” or “winning goal,” focusing instead on creating an enjoyable playing environment and fostering a strong player community, as mentioned in the IPR application. The system registers ideas and concepts from numerous games and consolidates them into a database.
[0007] The Patent application No. KR20080033030A, titled “System and method for utilizing intellectual property rights and program recording medium ” discloses a system to activate dormant patents by aggregating selected Intellectual Property Rights (IPR) and generating revenue through their use, thereby revitalizing the patent market and enhancing profits for IPR holders. The system comprises an information providing unit that either posts IPR details on a web page or transmits them to IPR holders to encourage participation. An information receiving unit further collects responses from the IPR holders, and an information storing unit verifies and links confirmed IPR information to the relevant holders. The system further categorizes the IPR by purpose and stores them on a storage medium. Additionally, a profit distributing unit identifies the contributing IPR holders and allocates a share of the profit to them accordingly. The system outlined in KR20080033030A offers an approach to unlocking the value of dormant patents. By aggregating intellectual property, providing platforms for dissemination, and facilitating commercialization, the system creates new revenue opportunities for IPR holders while revitalizing the patent market and holds promise for fostering innovation and collaboration across various industries.
[0008] The Patent Application No. JP2005518037A titled “Virtual IPR system electronic game environment ” discloses a virtual Intellectual Property Rights (IPR) system within an electronic game environment. The system rewards the players who devise invention strategies within the game recognizing their creations. The system further enhances the player engagement and fosters the growth of the game by encouraging creativity and active participation.
[0009] Despite the advancements in the field, there is a need for a technology integration system that exposes and educates users about numerous emerging and established technologies, enabling them to develop and certify innovative solutions,Internal Ref: OR25C090PCT17 optimizing Intellectual Property (IP) creation and further deployment, thereby facilitating an efficient transformation of innovative ideas into impactful innovations, ensuring their contribution to societal and economic growth.Summary of the invention
[0010] The present invention addresses the limitations of the prior art by disclosing a computer-implemented technology exposure, education, innovation generation and certification system for societal needs. The system exposes and educates the users on emerging and established technologies and enable them to generate innovative solutions leading to the creation of new products or solutions that solve the needs of mankind from a global level to a local level and serves as a source for intellectual property generation and further implementation.
[0011] The system comprises a user interface module that manages the user authentication, and provides the user with an introductory page containing multiple links related to the functionalities of the system. The user interface module educates the user about the needs of humanity from a global to a local level.
[0012] The system further comprises a technology introduction module that stores a database of over 800 current and emerging technologies, and dynamically generates a random selection of technologies enabling the users to explore, and integrate them to create innovative solutions addressing the societal needs. In an embodiment, the technology introduction module limits the selection of fifteen technologies per user request. On submission of multiple requests by the user, additional technologies to a maximum of twenty five technologies are added to the selection. However, to generate a completely new set of technologies, the user must revoke the previously generated selection and initiate a fresh request. This functionality allows the users to explore, understand, and integrate technologies effectively, enabling them to create value and incorporate the selected technologies into the user-generated solutions.
[0013] The system comprises a response authentication module that validates and verifies the user submissions based on the criteria that the user-integratedInternal Ref: OR25C090PCT17 technologies are listed in the system generated current set of random technologies provided to him, ensuring compliance with guidelines and detecting unauthorized or Artificial Intelligence (Al)-assisted inputs. Further, the system comprises a processing and analysis engine that performs a comprehensive evaluation of the user-submitted innovation by assessing the societal impact, technical feasibility, uniqueness, and the potential for intellectual property creation. The processing and analysis engine assigns a rating to the user-submitted innovation on a scale of 1 to 10 based on the analysis result, generates detailed evaluation reports, and certifies eligible solutions. The processing and analysis engine further comprises an IPR creation and management module that approves and manages the intellectual property documentation of user-submitted innovation rated 8 and above.
[0014] The system further comprises an innovation implementation engine, that transforms the approved innovation into deployable solutions. The innovation implementation engine comprises a innovation listing module for listing the user- submitted and approved innovations; a stakeholder authentication module for authenticating multiple stakeholders, a security and legal compliance module ensuring legal compliance; a technical viability and impact assessment module for assessing the technical viability; a collaboration facilitation module for facilitating the collaboration with the stakeholders; and a technology transfer and adaptation module for the technology transfer to make the technology implementable. By engaging the stakeholders and supporting seamless transitions, the innovation implementation engine bridges the gap between the idea generation and real-world application.
[0015] The system provides a comprehensive solution to support the technology education, integration, validation, certification, and IP generation, offering the users with a robust pathway to create, assess, protect and implement their innovation either directly or indirectly through other entrepreneurs, investors or corporate entities.
[0016] The present invention further discloses a method for computer-implemented technology-integration and certification of innovations for societal needs. TheInternal Ref: OR25C090PCT17 method involves initiating authentication of one or more users through an input interface module, and educating the users on various societal needs categorized into global, national, regional, and local levels. Subsequently, multiple technologies are dynamically generated from a database of over 800 current and emerging technologies and are presented to the users as tiles for exploration, learning, understanding, selection, and integration to develop innovative solutions. The user- selected technologies and submitted innovative solutions are validated and authenticated using a response authentication module that tracks the user activity on the validity of the used technologies that have been generated for the user during that particular session, and identifies unauthorized or Al-generated content through one or more Machine Learning (ML) models and Natural Language Processing (NLP) algorithms.
[0017] The authenticated innovative solutions are analysed through a processing and analysis engine that evaluates the societal impact using a humanity-centric value analysis module, assesses technical feasibility and novelty through a uniqueness and innovation analysis module by employing multiple tools such as geospatial analysis, patent database APIs, clustering algorithms, and semantic similarity checks.
[0018] Further, a rating is assigned to the user-submitted innovative solution using a rating generation module based on multiple parameters such as usability, societal impact, and technical feasibility. Further, an assessment certificate is generated by a certification module, providing the user with actionable insights. The user- submitted innovative solutions with ratings 8 and above are processed for Intellectual Property Rights (IPR) creation through an IPR creation and management module that assesses the compliance with intellectual property regulations, and facilitates the creation of intellectual property assets.
[0019] Furthermore, the approved innovations are transformed into implementable solutions using an innovation implementation engine. The innovation implementation engine comprises an innovation listing module to organize and present the innovations, a stakeholder authentication module to ensure secureInternal Ref: OR25C090PCT17 stakeholder access, and a security and legal compliance module to safeguard the innovation data. Further the evaluation of scalability and readiness is conducted by a technical viability and impact assessment module, and the stakeholder collaboration is facilitated through a collaboration facilitation module. Finally, the innovations are transferred to the stakeholders through a technology transfer and adaptation module for further implementation.Brief description of the drawings
[0020] The foregoing and other features of embodiments will become more apparent from the following detailed description of embodiments when read in conjunction with the accompanying drawings. In the drawings, like reference numerals refer to like elements.
[0021] Figure 1 illustrates a block diagram of a computer-implemented system of technology-integration and certification of innovations for societal needs, in accordance with an embodiment of the invention.
[0022] Figure 2 illustrates a flowchart of a method for computer-implemented technology-integration and certification of innovations for societal needs, in accordance with an embodiment of the invention.Detailed description of the invention
[0023] In order to more clearly and concisely describe and point out the subject matter of the claimed invention, the following definitions are provided for specific terms, which are used in the following written description.
[0024] The term “unauthorised technology” refers to a technology utilized by a user to create an innovative solution that is not dynamically generated and presented by the system for integration during a particular session, thereby falling outside the scope of the invention.
[0025] The present invention relates to a computer-implemented system for technology education, integration and certification of innovations that addressesInternal Ref: OR25C090PCT17 various societal needs. The system facilitates Intellectual Property Rights (IPR) creation and implementation. The system comprises a user interface module that authenticate the users and educate them on a variety of societal needs of global, national, regional, and local levels, The system further comprises a technology introduction module with more than 800 currently available and emerging technologies that dynamically generates multiple random technologies for user exploration, and integration to develop innovative solutions. The system validates and authenticate the user-submitted innovative solution, analysing the societal impact, technical feasibility, uniqueness, potential for the intellectual property creation and implementation. The system generates ratings, and issues certifications to the genuine user for innovative solutions. Additionally, the system facilitates the transformation of approved innovations into implementable solutions by engaging multiple stakeholders, ensuring legal compliance, and supporting technology transfer and collaboration.
[0026] The present invention further discloses a method for computer-implemented technology education, integration and certification of innovations that addresses various societal needs. The method involves authenticating the users; educating them on global, national, regional, and local needs; providing them with dynamically generated multiple technologies for exploration, selection, and integration to generate innovative solutions; processing the user-submitted innovative solutions to evaluate their societal impact, technical feasibility, and novelty; generating a rating for the user-submitted innovative solutions on a scale of 1 to 10; creating assessment certificates for the user-submitted innovative solutions; processing the innovations rated 8 and above for intellectual property creation; implementation of the eligible innovations by engaging stakeholders; ensuring the readiness for technology transfer, and further adoption.
[0027] Figure 1 illustrates a block diagram of a computer-implemented system of technology-integration and certification of innovations for societal needs, in accordance with an embodiment of the invention. The system (100) enables the users to access, integrate, and evaluate various technologies to create innovative solutions that address the diverse societal needs of humanity.Internal Ref: OR25C090PCT17
[0028] The system (100) comprises a user interface module (101) to manage the user authentication, provide an introductory page containing multiple links related to the purpose and the functionality of the system (100). The user interface module (101) further educates the users on global, national, regional, and local needs and shares resources for understanding different functionalities of the system (100) such as certification, star rating, Intellectual Property Rights (IPR) creation and implementation of the user-submitted innovations. The user interface module (101) further allows the users to explore different featured innovations, sign up for a free trial by submitting the personal details and agreeing to the terms, and receive congratulatory notes and certificates upon approval, with full access granted after the payment. In an embodiment, the user interface module (101) integrates multiple technologies comprising different frontend tools such as Hyper Text Markup Language(HTML), Cascading Style Sheets (CSS), React, and Flutter; backend technologies such as Python, Node.js, and Representational State Transfer Application Programming Interfaces (REST APIs); multiple databases such as My Structured Query Language (MySQL), and Mongo Database (MongoDB); encryptions such as Secure Sockets Layer (SSL), Transport Layer Security (TLS), and Payment Card Industry Data Security Standard (PCI DSS); payment gateways such as PayPal, and Razor pay; One-Time Password (OTP) verification such as Twilio, and SendGrid; fraud prevention using Artificial Intelligence (Al) and Machine Learning (ML); real-time communication through webhooks and Firebase; and cloud hosting through Amazon Web Services (AWS) or Google Cloud, ensuring a secure and user-friendly system (100).
[0029] Further, the system (100) comprises a technology introduction module (102) to store, organize, and dynamically generate a random selection of a maximum of 25 technologies at a time from a database of over 800 current and emerging technologies during a single session with the system (100). This database is continuously updated with the addition of emerging technologies at regular intervals. The dynamically generated technologies are presented to the user as a combination of tiles for selection and integration to create innovative solutions addressing the societal needs. In an embodiment, commonly used technologies,Internal Ref: OR25C090PCT17 such as Artificial Intelligence (Al), Machine Learning (ML), Drones, Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR), and Quantum Computing, are prioritized for frequent selection. Unique and futuristic technologies, such as Synthetic Long-Read Sequencing, Lattice-Based Cryptography, Proteostasis Network Mapping, and Microbiome Signature Biomarkers, are included with limited repetition. Each randomly generated technology is presented as a tile with a hyperlink providing detailed information, including an introduction, current and future applications, details of the industries utilizing the technology, additional resources for in-depth reading, and a summary note.
[0030] In an embodiment, the technology introduction module (102) integrates multiple database technologies, such as relational database My Structured Query Language (MySQL) and PostgreSQL, and graph databases such as Neo4j, for storing technologies and their metadata. Caching systems such as Remote Dictionary Server (Redis) are used for fast access to pre-processed data, ensuring efficient functionality of the technology introduction module (102). Further, multiple backend technologies, such as Python with Flask / Django frameworks, Node.js, and Java with Spring Boot framework, are employed for data processing, randomization, and the creation of Representational State Transfer Application Programming Interfaces (REST APIs), supported by randomization algorithms and Structured Query Language (SQL)-based queries. Frontend technologies, such as React and Angular, facilitate dynamic tile layouts and responsive user interfaces, while visualization tools, such as Data-Driven Documents (D3.js), enable effective presentation.
[0031] In another embodiment, the technology introduction module (102) incorporates multiple secure linking and hosting technologies, such as Uniform Resource Locator (URL) generators and cloud storage solutions such as Amazon Web Services (AWS) Simple Storage Service (S3) and Google Cloud Storage, supported by multiple Content Delivery Networks (CDNs) such as Cloudflare for fast content delivery. Further, the incorporation of multiple automation tools ensures regular database updates, while security measures such as OpenInternal Ref: OR25C090PCT17Authorization (OAuth) 2.0 and Advanced Encryption Standard (AES) encryption protect the user data. The technology introduction module (102) provides an engaging experience for exploring and understanding diverse technologies, identifying current and future uses and enabling the users to create innovative solutions by combining the dynamically generated technologies using their imagination, critical thinking, creative skills and empathy to create new products or solutions..
[0032] Further, the system (100) comprises a response authentication module (103) to track, validate, and authenticate the user-submitted innovative solution. In an embodiment, the response authentication module (103) tracks the user activity logs using browser extensions and supervised learning models. In another embodiment, Machine Learning models supported by the Natural Language Processing (NLP) algorithms detect unauthorized or ALgenerated content. Further, the incorporation of Neo4j -based knowledge graphs and supervised learning models map the technology usage and determine compliance.
[0033] The response authentication module (103) ensures the capture of user- submitted innovative solutions using a dynamic form builder and JSON schema validation. Further, the employment of backend technologies such as Python and RabbitMQ for real-time data processing, feedbacks for providing notifications through email or push alerts using multiple services such as SendGrid or Firebase, and security measures, including Advanced Encryption Standard (AES) encryption and Open Authorization (OAuth) 2.0, safeguards user data. Additionally, the response authentication module (103) generates dynamic reports highlighting the flagged technologies and suggesting corrective actions, ensuring ethical compliance and transparency.
[0034] The system (100) further comprises a processing and analysis engine (104) to evaluate the validated and authenticated user-submitted innovative solution comprehensively, analysing the societal impact, technical feasibility, uniqueness, potential for the intellectual property creation and further implementation.Internal Ref: OR25C090PCT17
[0035] The processing and analysis engine (104) comprises a humanity-centric value analysis module (105) to assess the societal impact of the authenticated user- submitted innovative solution across global, national, regional, and local levels. In an embodiment, the humanity-centric value analysis module (105) utilizes multiple geospatial analysis tools, such as Quantum Geographic Information System (QGIS) and Arc Geographic Information System (ArcGIS), to map the relevance and the need of the innovation from global to local levels. The humanity-centric value analysis module (105) further incorporates Application Programming Interfaces (APIs) for demographic data and Human Development Index (HDI) metrics to provide an insight into the societal contributions, and integrates multiple Natural Language Processing (NLP) models, such as Bidirectional Encoder Representations from Transformers (BERT) to analyse the public sentiment for a similar innovations.
[0036] The processing and analysis engine (104) further comprises a uniqueness and innovation analysis module (106) that evaluates the novelty of the user- submitted innovative solution by conducting a prior art search using the patent database APIs from multiple sources such as United States Patent and Trademark Office (USPTO) and World Intellectual Property Organization (WIPO), and employing semantic similarity algorithms to identify the overlaps with existing technologies. Novelty detection is further enhanced by employing multiple clustering algorithms, such as K-means, to group related ideas and identify distinct innovations. Additionally, the uniqueness and innovation analysis module (106) incorporates multiple trend analysis tools to detect the advancements and opportunities in the relevant technological domains.
[0037] Furthermore, the processing and analysis engine (104) comprises a rating generation module (107) to assign a quantitative score to the user-submitted innovative solution based on multiple parameters such as the usability, societal impact, and technical feasibility of the submitted solution. The rating generation module (107) employs multiple machine learning frameworks, such as TensorFlow and Scikit-learn, to compute the score in real-time. The results are presentedInternal Ref: OR25C090PCT17 visually using different libraries such as Matplotlib or Plotly in a user-friendly format.
[0038] The processing and analysis engine (104) further comprises a certification module (108) that consolidates evaluation results and generates detailed reports. These reports comprises the technology usage metrics, societal impact ratings, and actionable recommendations. The certification module (108) further generates star certificates representing the aggregated evaluation score, which are delivered to the users through email or as downloadable documents, ensuring a systematic and transparent documentation.
[0039] The processing and analysis engine (104) further incorporates an Intellectual Property Rights (IPR) creation and management module (109) to evaluate the patentability criteria of the user-submitted innovative solution, ensure compliance with intellectual property regulations, and create an intellectual property asset for eligible innovations. In an embodiment, the IPR creation and management module (109) utilizes a Natural Language Processing (NLP)-based tool to assess the eligibility of the user-submitted innovative solution for intellectual property protection. The IPR creation and management module (109) further provides the users with clear guidance on securing intellectual property rights, ensuring a streamlined process for IPR creation and management.
[0040] The system (100) further comprises an innovation implementation engine (HO) that provides a comprehensive framework for transforming the user- submitted innovative solution into a viable innovation. The innovation implementation engine (110) comprises a innovation listing module (111) to manage and present approved inventions in a structured and searchable format. In an embodiment, the innovation listing module (111) employs different relational databases such as MySQL or PostgreSQL for secure storage and retrieval of innovation data. Further, multiple dynamic content management tools, such as Elasticsearch and Algolia, enable the search functionality, ensuring an easy access to the relevant innovations.Internal Ref: OR25C090PCT17
[0041] Further, the innovation implementation engine (110) comprises a stakeholder authentication module (112) that ensures secure and verified access for multiple stakeholders. In an embodiment, the stakeholder authentication module (112) incorporates OAuth 2.0 and multi-factor authentication (MFA) for the secure login and Role-Based Access Control (RBAC) to manage the permissions. Additionally, the stakeholder authentication module (112) integrates professional networking APIs, such as Linkedln, for verifying stakeholder credentials and facilitating connections with relevant professionals.
[0042] Furthermore, the innovation implementation engine (110) comprises a security and legal compliance module (113) that safeguards the invention data and ensures compliance with the privacy regulations. In an embodiment, the security and legal compliance module (113) employs an Advanced Encryption Standard (AES)-256 encryption for secure data transmission, General Data Protection Regulation (GDPR) and Health Insurance Portability and Accountability Act (HIPAA) compliance tools for data protection, and role-based access to restrict access to sensitive information. The security and legal compliance module (113) further manages Non-Disclosure Agreements (NDAs) and other legal documentations using multiple platforms such as DocuSign or Panda Document Automation (PandaDoc).
[0043] Moreover, the innovation implementation engine (110) comprises a technical viability and impact assessment module (114) that evaluates the readiness and scalability of the innovation. In an embodiment, the technical viability and impact assessment module (114) utilizes multiple market research tools such as the Google Trends and an NLP -based sentiment analysis tool for industry trends and public reception.
[0044] Additionally, the innovation implementation engine (110) comprises a collaboration facilitation module (115) that supports a secure and recordable discussion for the stakeholder interactions. In an embodiment, collaboration facilitation module (H5) integrates multiple platforms such as the Microsoft Teams or the Zoom for real-time collaboration; the document sharing tool such asInternal Ref: OR25C090PCT17 the Google Workspace for co-editing; and Al-powered negotiation analysis tools, such as Gong. io., that facilitate and evaluate the collaboration structuring processes.
[0045] Further, the innovation implementation engine (110) comprises a technology transfer and adaptation module (116) for creating awareness and transferring the innovations to relevant industries and stakeholders. In an embodiment, the technology transfer and adaptation module (116) employs a social media marketing engine to post the new innovations on different platforms such as Linkedln and Instagram and the recommendation engines matches the innovations with potential investors and collaborators. A predictive analytics models further forecast the market trends and identify high-value opportunities for deployment.
[0046] Figure 2 illustrates a flowchart of a method for computer-implemented technology-integration and certification of innovations for societal needs, in accordance with an embodiment of the invention. The method (200) for computer- implemented technology-integration and certification of innovations for societal needs, comprises the steps of initiating a user authentication through an input interface module, and educating the user on various societal needs categorised at global, national, regional and local levels in step (201). In step (202), a technology introduction module dynamically generates and presents a random selection of technologies from a continuously updated database, allowing the user to explore, learn , understand, select, and integrate two or more technologies into innovative solutions. In step (203), the user-submitted innovative solution are validated and authenticated using a response authentication module ensuring compliance and integrity. In step (204), the authenticated innovative solutions are assessed for societal impact, technical feasibility and uniqueness determination. In step (205), a rating is generated for the authenticated user-submitted innovative solution by a rating generation module based on the assessment results. In step (206), an invention assessment certificate is generated through a certification unit determining the eligibility of IP generation and further deployment. In step (207), the eligible inventions are processed through an IPR creation and management module and are presented in a structured and searchable format through an invention listing module. Step (207) further ensures a secure and verified access ofInternal Ref: OR25C090PCT17 the listed inventions to the stakeholders through a stakeholder authentication module for potential collaboration. In step (208), the data related to the innovation is safeguarded, ensuring the compliance with privacy regulations. The scalability and readiness of the innovations are evaluated for further development using a technical viability and impact assessment module. Finally, in step (209), a collaboration facilitation module supports one or more secure discussions and agreements with stakeholders, leading to the implementation of the invention through self-entrepreneurship, partnership, sell or technology transfer and stake share.
[0047] The present invention offers significant advancements in the field of intellectual property creation through the integration of multiple technologies.
[0048] Firstly, the system (100) ensures automated evaluation of technology integrations, providing assessment through a rating generation module (107) to generate ratings from 1 to 10, with 1 being the lowest and 10 being the highest score for the user-submitted innovative solution. The automated evaluation reduces the manual intervention and standardizes the evaluation process for the technology integration.
[0049] Further, the system (100) facilitates the intellectual property creation for the eligible invention rated 8 and above at no cost, through the IPR creation and management module (109) that streamlines the intellectual property creation and provides the documented proof of the innovation through certification. The certification module (108) certifies the innovation capability of the users by generating assessment certificates establishing authenticity and ownership of the user for the particular technology integrations.
[0050] Furthermore, the innovation implementation engine (110) serves as abridge between the users and the industry stakeholders. The innovation implementation engine (HO) comprises a innovation listing module (111) that facilitates the promotion of certified technology integrations by showcasing them on various dedicated platforms, ensuring their reach to a broad audience of potentialInternal Ref: OR25C090PCT17 collaborators, and stakeholders thereby contributing to the economic growth and increasing the potential GDP of a country.
[0051] The system (100) allows the users to manage a complete invention lifecycle from concept selection through evaluation, certification, intellectual property creation, and implementation.
[0052] Having generally described this invention, a further understanding can be obtained by reference to a specific example, which is provided herein for the purpose of illustration only and is not intended to be limiting unless otherwise specified.Example 1: Technology integration for narcotic control
[0053] As an illustrative example, consider a user aiming to develop a solution in the field of drug or narcotic control technology, accesses the system (100) and is authenticated through the input interface module (101). The user interacts with the technology introduction module (102), that hosts a database containing more than 800 current and emerging technologies. The system (100) dynamically generates and presents random technologies, enabling the user to select specific technologies for integration. In this instance, the user selects five distinct technologies: miniature drones optimized for manoeuvring in restricted spaces; machine-powered olfactory sensing technology capable of detecting and analysing odours with high precision; Artificial Intelligence (Al)-driven controlled movement from a central monitoring unit, enabling real-time control of autonomous devices; cryptographically secured quantum computing signals for secure data transmission using quantum encryption; and nano-hydrogen batteries offering high-efficiency, compact energy storage solutions. Additionally, the user explores complementary technologies, including GPS-based tracking, synthetic biology, telomere length biomarking, and xenotransplantation.
[0054] The selected technologies are integrated to conceptualize a compact mosquito-like drone equipped with olfactory sensing capabilities to detect theInternal Ref: OR25C090PCT17 odours associated with contraband substances such as drugs. The drone is programmed for autonomous navigation in high-risk areas, including airports, seaports, and transit hubs. The olfactory sensing mechanism analyses the presence and concentration of the odours indicative of prohibited substances and transmits real-time data to a central monitoring unit. The integration of Global Positioning System (GPS)-based tracking ensures the precise location identification, while quantum-secured communication guarantees the data integrity and confidentiality during data transmission.
[0055] The integration of the selected technologies demonstrates complementary and synergistic functionality, creating a novel drug control mechanism capable of aiding governments, law enforcement agencies, and border security authorities in combating drug trafficking. The user submits the innovative solution in a prescribed format, which is authenticated by the response authentication module (103).
[0056] The user-submitted solution provides a scalable system for safeguarding public spaces and transit hubs by enhancing the efficiency and accuracy of drug detection and monitoring the operations. On authenticating the user-submitted solution by the response authentication module (103), the processing and analysis engine (104) initiates a comprehensive assessment, with the humanity-centric value analysis module (105) evaluating societal impact and the innovation analysis module (106) assesses the novelty, inventive step, and utility of the user-submitted solution. The rating generation module (107) assigns an overall score of 9 / 10 and based on this rating, the certification module (108) generates an assessment certificate documenting the evaluation results.
[0057] Further, the IPR creation and management module (109) processes the user- submitted solution for intellectual property creation, as it meets the eligibility criteria. The innovation listing module (111) presents the certified invention in a structured and searchable format, enabling secure stakeholder access through the stakeholder authentication module (112). Further, the security and legal compliance module (113) safeguards the invention data and ensures compliance with privacy regulations. Additionally, the technical viability and impact assessment moduleInternal Ref: OR25C090PCT17(114) evaluates factors such as hardware compatibility between loT sensors and drones, data integration capabilities, communication protocol compatibility, and scalability across various operational field sizes. The collaboration facilitation module (115) supports secure stakeholder discussions, and the technology transfer and adaptation module (116) facilitates the transfer of user-submitted invention to the relevant stakeholders for further implementation.Reference numbers:
Claims
Internal Ref: OR25C090PCT17ClaimsI claim:
1. A system for computer-implemented technology -integration and certification of innovations for societal needs, the system (100) comprising: i. a user interface module (101) to authenticate one or more users for a secure access to the system (100) and configured to educate the users on plurality of societal needs; ii. a technology introduction module (102) connected to the input interface module (101) to educate the users on multiple current and emerging technologies, allowing the users to select and integrate plurality of technologies to generate and submit one or more innovative solutions; iii. a response authentication module (103) connected to the technology introduction module (102) to receive, track, validate and authenticate the user-submitted innovative solution; iv. a processing and analysis engine (104) connected to the response authentication module (103) to process and analyse the authenticated user-submitted innovative solution, wherein the processing and analysis engine (104) further comprises: a) a humanity-centric value analysis module (105) to analyse the societal impact of the authenticated user-submitted innovative solution on a global, national, regional and local level, and transmit the result to a rating generation module (107); b) a uniqueness and innovation analysis module (106) to evaluate the novelty, inventive step and utility of the authenticated user-submittedInternal Ref: OR25C090PCT17 innovative solution and transmit the result to the rating generation module (107); c) the rating generation module (107) to generate a rating in a scale of 1 to 10 with 1 being the lowest and 10 being the highest score for the user- submitted innovative solution, and transmit the generated rating to a certification module (108) and an IPR creation and management module (109); d) the certification module (108) connected to the rating generation module (107) to generate and issue one or more assessment certificates to the user; v. the IPR creation and management module (109) connected to the rating generation module (107) to process the user- submitted innovative solution for the creation of Intellectual Property Rights (IPR) with a ratings of 8 and above; vi. an innovation implementation engine (110) connected to the processing and analysis engine (104) to transform the user- submitted innovative solution with a rating of 8 and above into deployable solutions, wherein the innovation implementation engine (110) further comprises: a) an innovation listing module (111) to present the approved inventions in a structured and searchable format, enabling one or more stakeholders to access the one or more inventions; b) a stakeholder authentication module (112) to enable secure and verified access for one or more stakeholders; c) a security and legal compliance module (113) to safeguard invention data, ensure complianceInternal Ref: OR25C090PCT17 with one or more privacy regulations, and manage legal documentation; d) a technical viability and Impact assessment module (H5) to evaluate the readiness and scalability of the one or more inventions for further development, implementation and deployment; e) a collaboration facilitation module (116) to support secure and recordable discussions between stakeholders and the inventor, enabling effective collaboration; and f) a technology transfer and adaptation module (117) to facilitate the transfer of the one or more inventions to the relevant stakeholders, for implementation and deployment.
2. The system (100) as claimed in claim 1, wherein the user interface module (101) provides plurality of links for educating one or more users on multiple societal needs retrieved from a database created using one or more Geospatial Analysis Tools (GIS) and multiple Application Programming Interfaces (API)s for demographic data integration.
3. The system (100) as claimed in claim 1, wherein the technology introduction module (102) stores, organises and dynamically generates a random selection of at least fifteen technologies from a database of over 800 current and emerging technologies for user selection and integration to generate one or more innovative solutions.
4. The system (100) as claimed in claim 1, wherein the response authentication module (103) tracks the one or more user activity logs using one or more browser extensions and supervised learning models, validates and authenticates an unauthorized or Al-generated content within the user-Internal Ref: OR25C090PCT17 submitted innovative solution using one or more Machine Learning models supported by one or more Natural Language Processing (NLP) algorithms.
5. The system (100) as claimed in claim 1, wherein the rating generation module (107) generates a rating based on the plurality of results received from the humanity -centric value analysis module (105) and the uniqueness and innovation analysis module (106).
6. The system (100) as claimed in claim 1, wherein the rating generation module (107) generates a rating on a scale of 1 to 10, with 1 being the lowest and 10 being the highest score for the user-submitted innovative solution, facilitating further certification.
7. A method for computer-implemented technology-integration and certification of innovations for societal needs, the method (200) comprising the steps of: a. initiating authentication of one or more users through an input interface module, and educating the one or more users on different societal needs (201); b. providing the one or more users with a dynamically generated tiles of multiple technologies for exploration, selection and integration to generate innovative solutions (202); c. validating and authenticating the user-submitted innovative solution using a response authentication module (203); d. assessing the authenticated user-submitted innovative solution for societal impact, technical feasibility and uniqueness determination (204); e. generating a rating for the authenticated user-submitted innovative solution through a rating generation module (205); f. providing an invention assessment certificate, generated through a certification unit to determine eligibility of IP generation and deployment (206);Internal Ref: OR25C090PCT17 g. processing one or more eligible inventions through an IPR creation and management module, listing the approved inventions, and facilitating stakeholder authentication for further collaboration (207); h. safeguarding the invention data, ensuring compliance with privacy regulations and evaluating the scalability and readiness of the innovations for further development (208); and i. supporting one or more collaborations and implementation of the innovations through the collaboration facilitation module and technology transfer and adaptation module (209).
8. The method (200) as claimed in claim 8, wherein the validation and authentication of the user-submitted innovative solution through the response authentication module comprises the detection of the unauthorised technology and Al-generated content within the user-submitted innovative solution.
9. The method (200) as claimed in claim 4, wherein managing the intellectual property creation comprises generating one or more patent filing documents for the selected technology integrations having assigned a rating greater than or equal to 8.