Project Tech

What if you could experience the epic saga of the Mahabharata in a way that bridges ancient wisdom and today’s technological marvels? The GITA Museum at Jyotisar, Kurukshetra, brings this to life, using a fusion of art and progressive digital tools to tell the age-old tale in a format that engages, educates, and transports visitors to the world of the Mahabharata. Here, technology does more than simply depict; it brings the past to life in vivid, interactive ways, enhancing each visitor’s understanding of the epic’s rich legacy and philosophical depth. The Concept of the GITA Museum: Where History Meets Technology Built within the 48-acre Krishn Circuit, the GITA Museum, also known as the Jyotisar Theme Park, is a testament to the power of storytelling through technology. Divided into five immersive sections, each zone takes visitors through the entire Mahabharata narrative, from pre-war tales to the ultimate resolution of the post-war period. Let’s delve into the technology that makes the Gita Museum a marvel of digital storytelling. Augmented Reality (AR): Enhancing Real-World Interaction The museum’s AR features breathe life into static artifacts, allowing visitors to engage with the story dynamically. For example, while exploring the section on the “Bhagavad Gita,” visitors can view AR overlays that depict Lord Krishna counseling Arjuna on the battlefield. This technology places 3D-rendered characters and environments onto real-world displays, allowing for a layered experience where visitors can interact with characters from the Mahabharata, explore Arjuna’s inner struggles, or gain insights into the Gita’s verses. By blending the real with the virtual, AR allows audiences to walk through the story’s philosophical depths in an interactive and immersive manner. Virtual Reality (VR): Immersing Audiences in Another World The Gita Museum also employs VR headsets to transport visitors to the dramatic battlefields of the Mahabharata. In the VR zone, guests can witness key events of the great war, such as the formation of battle lines or the intense discussions between Krishna and Arjuna, making them feel like they’re part of the story. This immersive experience is crafted with VR’s 360-degree visuals and binaural audio, giving the sensation of stepping into another time and place. VR brings the stories to life with heightened realism, allowing visitors to move and explore environments that would otherwise remain confined to text. Projection-Mapping: Dynamic Storytelling on Monumental Structures Projection mapping, an advanced visual technology, is extensively used within the museum to transform its spaces into storytelling canvases. In the “Ranbhoomi” section, high-lumen projectors cast dynamic images onto surfaces, showing scenes from the 18-day war of the Mahabharata. This approach allows visitors to watch the unfolding drama on a massive scale, with lifelike colors, shapes, and motion synced to dramatic soundscapes. Projection mapping in this setting is achieved through sophisticated calibration techniques, ensuring that every light and image projection aligns with the contours of the walls and floors. This precision allows the architectural details of the museum to become a part of the story, with animated scenes appearing to meld with the physical environment. Holograms and Levitation Installations: Mesmerizing Visuals for Ancient Narratives In the Gita Museum, holograms are used to create ethereal representations of key figures and objects from the Mahabharata. One striking example is the levitating installation of the Sudarshan Chakra, Krishna’s weapon, which appears to float in the air. Holographic projections show intricate details, from Krishna’s form to Arjuna’s expressions, conveying these characters’ gravitas while preserving their mystique. As visitors move around these holograms, the visuals shift to provide different perspectives, offering a more personal connection with these legendary figures. Kinetic Installations: A Moving Tribute to the Heroes of Mahabharata The museum has introduced kinetic installations that add motion to specific scenes, such as the bed of arrows on which Bheeshma Pitamaha lay during his final moments. This moving installation uses a series of synchronized mechanisms to simulate the arrows rising and falling, an effect that combines physical elements with projected visuals to create a powerful, lifelike experience. The kinetic installations capture the spirit of the epic in a tangible form, providing audiences with a dynamic visual experience of significant scenes from the Mahabharata. Holographic Projections and Interactive Lotus Pond: A Philosophical Engagement In the Bhagavad Gita section, holographic technology also powers an interactive Lotus Pond installation. Upon asking a question, a digital Lotus blooms to reveal shlokas from the Gita relevant to the query. This experience offers a personalized interaction with Gita’s wisdom, allowing visitors to take away printed quotes as souvenirs, deepening their connection with the text. The holographic projections of Krishna and Arjuna in their chariot provide another layer of engagement, combining historical iconography with digital artistry. The effect is designed to mimic the feeling of being inside a temple, with audio guidance enhancing the experience. 360-degree Projections and Live Theater Integration One of the museum’s architectural highlights is a central atrium where a 360-degree projection blends live theater with drone-driven projection mapping. This feature involves a rotating projection on the dome that recreates moments from the Mahabharata, amplifying the immersive aspect through sound, lighting, and drone-controlled visuals. This synchronized interplay of various media draws visitors deeper into the Mahabharata’s grand narrative, illustrating scenes in a panoramic format that surrounds them. Sustainable and Net-Zero Design The Jyotisar Theme Park is designed to be fully self-sustainable, operating in a Net Zero Mode for electricity and water. An advanced HVAC system, energy-efficient lighting, and radiant cooling technology allow the facility to maintain optimal environmental conditions while minimizing power use. This blend of sustainable engineering and architectural design exemplifies how the museum balances modern technological requirements with eco-friendly practices. Exhibition Center: Celebrating India’s Intellectual Heritage In addition to the Mahabharata, the Gita Museum’s Exhibition Center hosts an array of displays showcasing India’s intellectual heritage, from Ayurveda to mathematics. Technologies such as audio guides, interactive screens, and projection mapping are used to illustrate the contributions of figures like Aryabhatta and Sushrut. These exhibits demonstrate how ancient knowledge intersects with today’s scientific and technological advancements, creating a comprehensive educational experience. Conclusion: Technology Breathing

The Baba Saheb Bhim Rao Ambedkar Museum stands as a modern marvel, commemorating the life and legacy of one of India’s greatest visionaries. Located at Kapurthala, Punjab, this museum not only celebrates Ambedkar’s contributions to the making of modern India but also harnesses cutting-edge technology to create an immersive, educational experience. Designed in the shape of a Dharm Chakra, the museum reflects Dr. Ambedkar’s deep Buddhist beliefs, symbolizing his commitment to equality and justice for all. However, what truly sets this museum apart is its pioneering use of technology to bring history alive, making it both informative and engaging for visitors of all ages. 13 Tech-Enhanced Galleries The museum is divided into 13 galleries designed to narrate different chapters of Ambedkar’s life. These galleries are not ordinary displays of relics and artifacts; they offer an interactive experience where visitors can learn through technological innovations. From the early years of Ambedkar’s struggle to his monumental role in drafting the Indian Constitution, each gallery integrates advanced technologies like projection mapping, kinetic installations, augmented reality (AR), and even virtual reality (VR), to tell his story in a manner that is both immersive and educational. Projection-Mapping: Illuminating History Projection mapping, the same technology that has been used in landmark events at sites like the Qutub Minar, plays a central role in the Baba Saheb Ambedkar Museum as well. In one of the galleries, projection mapping is used to animate scenes from Ambedkar’s life, turning static walls into vibrant storytelling canvases. This dynamic method allows visitors to witness pivotal moments in history, such as Ambedkar’s pivotal speeches or his relentless efforts to uplift the marginalized sections of society. In a particularly awe-inspiring feature, a 360-degree projection on the dome-shaped ceiling takes visitors on a journey through the creation of the Indian Constitution. As one gazes upward, intricate visuals unravel the complexities of Ambedkar’s monumental work, all while providing an easy-to-understand narrative of its significance. Augmented Reality (AR) and Kinetic Installations: Interactive Learning The museum incorporates AR technology to provide visitors with a more personal connection to Ambedkar’s life and work. This technology provides rich layers of information on topics such as Ambedkar’s vision for social justice, and his transformation from a reformer to a national icon. One of the standout features is the kinetic installations within the museum. These installations, which use movement and automation, create an engaging and ever-changing environment. For example, interactive exhibits display visual content that shifts and adapts based on a visitor’s presence, offering a personalized experience. This is especially impactful when teaching younger audiences about complex social issues, as it makes the content accessible and relatable through motion and sound. Digital Flipbooks and Suspended Touch Screens: An Archive at Your Fingertips One of the standout features is a digitally interactive library, where visitors can explore Ambedkar’s vast literary and philosophical contributions. Here, digital flipbooks and suspended touch screens allow visitors to navigate through Ambedkar’s written works, speeches, and letters with just a swipe or tap. This technological leap means that instead of being passive spectators, visitors are active participants, able to engage with Ambedkar’s intellectual legacy in a hands-on manner. The flipbooks offer insights into his writings on social reform, economics, and human rights, while the touch screens provide a wealth of additional information, including archived photos, videos, and rare documents related to his work on the Constitution. AR/VR: A Portal into the Past At the heart of the museum’s technological innovation is its use of augmented reality and virtual reality technologies. In addition to the AR exhibits that provide detailed information, the museum also offers VR headsets, allowing visitors to step into a virtual world that recreates key moments from Ambedkar’s life. Whether it’s witnessing his debates in the Constituent Assembly or attending his momentous conversion to Buddhism, the VR experience makes history come alive in a way that feels immediate and engaging. This VR experience is particularly impactful in creating a sense of presence and connection to Ambedkar’s life. By virtually standing alongside him during pivotal events, visitors gain a deeper understanding of his dedication to the cause of social justice and his vision for a more equitable society. Conclusion: Inspiring Future Generations Ultimately, the Baba Saheb Bhim Rao Ambedkar Museum is more than just a place to learn about the past—it is an institution that inspires and empowers future generations. The museum’s use of advanced technology ensures that Ambedkar’s message reaches a broad audience in an engaging and accessible way. Visitors leave with not only a deeper understanding of Ambedkar’s work but also a renewed sense of purpose in continuing his fight for equality and justice. By blending historical content with modern technology, the museum offers an enriching experience. It stands as a beacon of Ambedkar’s legacy and will continue to inspire and educate for generations to come.

Ever wondered how technology can evoke your emotions? With the advent of AI-powered digital personas, the boundaries between reality and virtuality blur, transforming human interaction into a whole new experience. Enter the Bhagwan Valmiki Museum, dedicated to the enlightened composer of the Ramayana, the first epic poem. Conceptualized and designed by Tagbin, Digital Valmiki is a state-of-the-art masterpiece that showcases the qualities that earned Valmiki his revered title. Tagbin masterfully presents this ancient sage using cutting-edge technology, creating a seamless blend of past and present. Technological Innovations At the Valmiki Museum, modern technology is transforming how visitors connect with ancient heritage, making Valmiki’s timeless works accessible and engaging for all. Large Language Models (LLMs) Leveraging large language models (LLMs), this project digitizes Valmiki’s literature, preserving his epic narratives and enhancing their understanding. Advanced AI breathes new life into Valmiki’s works, making them more accessible to contemporary audiences 3D Model Ultra Realistic 3D models with rigging and animation capabilities represent the pinnacle of digital artistry. These models mirror real-world objects, characters, and environments with stunning accuracy, capturing minute details like textures, lighting, and surface imperfections. Rigging provides a skeletal framework, enabling natural movement, and the models can perform a wide range of actions, from simple gestures to complex sequences. This blend of lifelike visuals and advanced mechanics offers an immersive experience, perfect for film, video games, virtual reality, and simulations.The combination of ultrarealistic visuals and advanced rigging techniques ensures that these models not only look lifelike but also behave in a convincingly natural manner, enhancing the immersive experience for users and audiences. Computer Vision Computer vision technology empowers digital personas to perceive and interpret visual information, enhancing interactivity in virtual and augmented reality segments. This tech enables dynamic and engaging virtual experiences. This technology also involves the digital personas to see the visitor and interact in real-time. AI for Lip Sync and Expression Generation AI-driven lip sync and expression generation technologies have significantly advanced the fields of animation and virtual communication. Using sophisticated machine learning algorithms, these technologies synchronize animated characters’ lip movements and facial expressions with spoken audio, ensuring realistic interactions. Deep learning models and extensive video-audio datasets enable characters to convey emotional nuances, making virtual engagements feel more natural and lifelike. Speech-to-Text and Text-to-Speech Technology Advanced Speech-to-Text (STT) technology converts spoken language into written text in real-time, using deep neural networks to analyze audio signals and transcribe words. Text-to-Speech (TTS) technology, on the other hand, transforms written text into spoken language with synthetic voices, enabling seamless audio interactions. Natural language processing (NLP) NLP is a subfield of AI focused on the interaction between computers and humans through natural language. By leveraging computational linguistics and machine learning algorithms, NLP allows machines to understand, interpret, generate, and respond to human language effectively, enhancing user interaction. Voice Cloning Technology that involves the use of artificial intelligence (AI) to create a digital replica of the human voices. By analyzing vocal characteristics such as pitch, tone, and speaking style, these systems generate synthetic speech that closely mimics the original speaker, adding a new dimension to virtual communication. All These Innovations Unite in the Digital Valmiki Project Together, these cutting-edge technologies make the Digital Valmiki Project a beacon of cultural preservation and modern engagement. Now, let’s dive into the workings of these fascinating technologies and discover how they bring Valmiki’s legacy to life in the digital age. To provide a highly realistic interactive experience for visitors, the system employs several advanced technologies. A microphone is set-up to capture the visitor’s speech, enabling them to ask questions or engage in conversation. The captured audio is processed using state-of-the-art Speech-to-Text models, such as the Speech-to-Text Model. Then the converted text is then passed to a Large Language Model (LLM) which generates appropriate responses.   The generated text response is then input into a voice cloning system, which synthesizes the text into speech that mimics a predefined voice. To enhance realism, the synthesized speech is coupled with AI-driven facial expression and lip synchronization technologies. These technologies ensure that the digital Valmiki model exhibits natural facial expressions and accurate lip movements, making it appear as if Valmiki is realistically speaking in real time.   Captivating the Essence of India’s Rich History The primary goal of the Bhagwan Valmiki Museum is to captivate audiences with the rich history of India and its monumental epic, the Ramayana. To achieve this, we ventured into the realm of emerging technologies, creating an innovative foundation that seamlessly blends tradition with modernity. Each technology is carefully tailored to showcase the various aspects of Valmiki’s life in an immersive and interactive manner, making it easier for visitors to absorb and take home valuable insights and teachings. Our conversational technology enables visitors to dive deeper into the wisdom of the sage, fostering a meaningful connection with his teachings. Creating Impact Beyond its captivating exhibits, the Valmiki Museum serves as a vibrant hub for educational activities. Regular workshops, lectures, and seminars delve deeper into Valmiki’s teachings and the cultural context of his works. Scholars, students, and enthusiasts from around the world gather to participate in these programs, fostering a global community dedicated to learning ancient literature. This initiative promises to have a profound socio-religious impact on visitors. By showcasing the timeless relevance of Valmiki’s contributions to literature and spirituality, the museum fosters a deeper understanding of India’s rich cultural heritage. It offers youth and students, who might otherwise overlook India’s historical significance, an opportunity to connect with it in a contemporary manner. This innovative approach not only preserves the historic past but also ensures its relevance for future generations. Conclusion The Bhagwan Valmiki Museum is more than just a repository of historical artifacts; it is a dynamic cultural institution that preserves the legacy of one of India’s greatest literary figures, educates future generations, and promotes cultural engagement. Through its innovative use of technology, comprehensive educational programs, and vibrant cultural events, the museum ensures that the teachings and stories of Valmiki continue to inspire and resonate with people

The creation of the Netaji Hologram was a remarkable convergence of advanced technologies designed to honor and bring to life the legacy of Subhas Chandra Bose, a prominent figure in India’s struggle for independence. Prime Minister Narendra Modi unveiled the Netaji Subhas Chandra Bose Hologram Statue on January 23, 2022, recognized as Parakram Divas, under the great canopy of Amar Jawan Jyoti at India Gate. The Netaji Subhas Chandra Bose Hologram Statue was designed and developed by Tagbin to pay homage to the revered freedom fighter. This state-of-the-art installation was a marvel of modern technology, seamlessly integrating the past with the present to celebrate the legacy of a national hero. This technological marvel used a combination of advanced technology to create a lifelike representation. Technology Involved The hologram statue of Netaji Subhas Chandra Bose stood at an imposing height of 28 feet and a width of 7.5 feet, making it one of the largest holographic projects ever created. The hologram utilized high-intensity projectors and a transparent screen to create a dimensional image. This installation was powered by a 4K projector capable of delivering a brightness level of 20,000 lumens. With 2 Double Stacked 20k Lumens projectors, this was one of the world’s biggest holographic statues, projected on a 40-foot scrim-based holographic screen placed inside the canopy. The screen was designed to withstand all weather conditions, including high winds and heavy rain. The 3D hologram could be viewed by visitors without 3D glasses, thus offering an immersive experience. Projection Mapping Technique The Netaji Hologram Statue at India Gate utilized an advanced projection mapping technique to create a three-dimensional, lifelike representation of Subhas Chandra Bose. Projection mapping (spatial augmented reality) involved projecting images onto irregularly shaped surfaces to create the illusion of depth and movement. To create the hologram statue, a transparent scrim-based holographic screen was used to produce the 3D image. This holographic screen was invisible, offering high gain, and was erected in such a way that it is not visible to visitors. The quality of the holographic screen was crucial to provide the impression that the 3D image floated naturally in the air. This technique allowed for a dynamic display, with multiple projectors working together to cover the entire surface of the hologram. The projections were carefully calibrated to ensure perfect alignment, creating a seamless and realistic appearance. The main idea behind creating a hologram was to simply project an image in such a way that it looks realistic and was visible from two side. Hologram The Netaji Hologram Statue employs cutting-edge hologram technology to bring a lifelike representation. This groundbreaking technology creates 3D images using the principles of interference and diffraction of life. For the hologram statue, a 4K projector was used, along with a transparent scrim based holographic screen to make a 3D image. This holographic screen was almost invisible. This transparent screen, made from a special polymer, enhances the visibility and vibrancy of the projected image, making it appear as though Netaji is standing in mid-air. For ensuring an optimal functioning of hologram, real-time monitoring was in place. The performance of projectors and other technical components was continuously monitored through strategically placed sensors and cameras around the installation to detect any anomalies or malfunctions. The Grand Launch Event The launch of the Netaji Hologram Statue was a grand event attended by dignitaries, historians, technology experts, and the general public. Prime Minister Narendra Modi presided over the ceremony, highlighting the importance of integrating modern technology with historical preservation. Prime Minister Modi stated, “Netaji Subhas Chandra Bose’s legacy is a beacon of courage and patriotism. This hologram statue is not just a tribute to him but also an innovative step towards preserving our history in a manner that resonates with the youth of today. One of the main impacts of the hologram was enabling an engaging learning experience, making historical education more dynamic, accessible and memorable. Future Prospects Following the successful launch of the Netaji Hologram Statue, the Indian government plans to introduce similar installations of other prominent figures from India’s history. These installations will offer unique and immersive educational experiences. The Netaji Hologram Statue represented a pioneering effort in the use of holographic technology for historical preservation. By combining cutting-edge technology with the rich legacy of India’s freedom struggle, this installation sets a new standard for how history can be remembered in the digital age. Tagbin has believed in using cutting-edge technology to bring India’s rich heritage and history to life.

In 2024, the landscape of Indian governance is undergoing a profound change which is driven by the convergence of data and information. The journey of effective policy-making has often been met with challenges. The Indian government is increasingly recognizing the power of data-driven decision-making for enhancing policy formulation and improving public services. Developing a revolutionary strategy helps in reshaping the way the government collects, analyses, and utilizes data. Power of Data in Government Traditionally, policymaking was based on intuition, past experiences, and limited data samples. This fragmented decision-making process has hindered the progress of the nation as this approach lacked real-time insights and led to inefficient and unrealistic outcomes. Despite the intricate challenges, we brought a promising development with Niti Aayog, the Indian government’s key policy think tank that has established a state-of-the-art experience room with a high-tech, interactive platform for data visualization, analysis, and reporting. This included setting up 40 large screens, displaying an array of comprehensive data, reports, analytics, graphs, and comparisons providing information across different sectors. With AI, the solution helps in automating the data processing, analysis, and converting into intuitive formats for streamlining the data conversion and ensuring a smooth user experience. AI-powered Data Integration and Conversion By integrating AI algorithms in the software, large volumes of data spanning in different levels, states, districts, and blocks were processed, cleaned, and accumulated, transforming into a consistent structure suitable for further analysis and visualization. AI-powered tools were also used to identify data patterns, detect anomalies, and ensure accuracy. With this approach, complex datasets were converted into formats that are suitable for graphical representation and help policymakers make decisions with proper precision. Machine learning technology was also used for categorizing and classifying data allowing users to generate detailed analyses based on the queries. This further ensured that the system could handle a wide range of queries with precision and speed. Advanced Data Visualization and Analytics Policymakers can explore complex data at any level of granularity on screens. Based on the user input, these AI-driven systems can automatically adjust visualization thus providing an interactive and dynamic experience. The software also holds the ability to respond to complex queries and generate appropriate visualizations. Interactive User Experience with LLM Another significant feature of the experience room is AI-based voice chatbot. This component enables users to interact with software using simple natural language. The system is optimized to process not only simple requests but also complex analysis queries such as finding insights, suggestions, recommendations, answering questions and more. Additionally, it simplifies the process for policymakers to access pertinent information without navigating complex interfaces or learning any new commands. The software also helps in identifying the gap of various sectors with real-time data visualization enabling policymakers and stakeholders to interact with complex data in an intuitive and engaging manner, thus making it more accessible for making well-analyzed decisions. This helps users delve into specific metrics like data points, generate forecasts, and perform comparative analyses by conversing with AI. The initiative aligns seamlessly with the nation’s aspirations for rapid development and effective governance. It embodies India’s commitment to leveraging technology and data to drive sustainable growth and development on the global stage. This advanced visualization software exemplifies the fusion of art and science, offering dynamic, static, and interactive visualizations tailored to the specific needs of policymakers. Conclusion Data-driven decision-making process revolutionizes policymaking by providing evidence-based insights to combat socio-economic challenges and narrowing the industry gap.Rather than depending on anecdotal evidence, policymakers can now leverage real-time data to grasp trends, evaluate emerging issues, and assess the effectiveness of current policies. With each decision supported by real-time data insights, the future of Indian governance shines brighter than ever before.