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Success Quotient

The Cutting-Edge Tech Trends Defining 2024: A Detailed Insight

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Success Quotient

The Cutting-Edge Tech Trends Defining 2024: A Detailed Insight

The emerging new technology advances all over the various mediums are transforming industries and daily lifestyles as they redefine existing human-technology boundaries. We present the most significant trends of the year that shape the technology world.

A Generative AI storm

Generative AI is presently at the forefront of the revolution that artificial intelligence brings. By creating new content from unstructured data, this technology is catching on like wildfire throughout sectors such as healthcare and finance. Productivity and innovation are enhanced by purely automated tasks and insights delivered by generative AI from large data sources. Enhanced operations, new product development, and personalized customer experience are some of the capabilities generated for companies by this new technology, which in turn fosters growth and competitiveness.

Another significant development in AI is AI in Scientific Discovery. The discovery process has been hastened by strong input from AI into research, particularly in health and sustainability, making discoveries much faster and predictions very accurate. Artificial Intelligence in scientific methods is transforming the research paradigm and allowing scientists to solve problems in ways that have never been possible. For example, AI algorithms can search huge datasets to uncover patterns and correlations that would likely elude even the most dedicated human researchers while making great strides in areas of drug discovery or in climate science.

Quantum Computing

Quantum computing is moving away from pure theoretical research and becoming linked more to practical applications, seriously impacting fields such as cryptography and drug discovery. Using qubits for calculations, quantum computers have the potential for much more complex calculations than classical computers. This incalculable increase in computational power stands to benefit industries investing huge resources into quantum technologies, with IBM among those hambling at the front line.

These are just some of the applications; the potential is endless. For example, because nuclear encryption cannot be easily hacked by any computerized systems, a complete quantum computer might be able to crack all conventional encryption. It means that data processing will be required to develop algorithms that can resist quantum disruption, along with drug discovery where quantum simulations will model molecular interactions that could not have been captured previously. Quantum computing- discloses to science and industry-future paths toward advance systems.

5G Rollout

The 5G network permits an even more high-speed and latency-free communications link. It has really sustained the further establishment of some developing areas of an Internet of Things, augmented reality, and cars that are fully autonomous going toward real-time information processing and conveyance. In the end, industry-wide automation and productivity will reach levels completely unthought of.

Using 5G communications, a hybrid and fully automated vehicle application can use real-time communications, boosted by increased safety and efficiency. Indeed, 5G has the appropriate bandwidth and low latency to afford instantaneous linking of billions of devices for IoT applications. It results in smart environments that adapt swiftly and easily to user inputs. New opportunities for innovation and economic growth become available across industries with the advent of 5G.

Digital Twins

In fact, this is a new digital twin technology that is being applied to industries by replicating real-world scenarios into a virtual version of the real-world system. This would be digital models for improved observation of their optimization and predictive maintenance, especially in the manufacturing and healthcare fields. Digital twins enable businesses to simulate reality to test and refine without the associated risks of live trials.

For example, in manufacturing, a digital twin can enable an individual to monitor machine performance, predict when maintenance is needed, and optimize production processes. Digital twins are also able to experiment with the different clinical conditions of a patient through simulation and trial and error modeling for developing treatment retrospectively, hence enhancing individualized patient care and furthering medical research. Clearly, a capacity to develop digital replicas that are at once representative and flexible is one of the driving forces behind operational efficiency and subsequent innovations.

The Metaverse

The metaverse is now an extension of virtual and augmented realities mixed with an ever-immersive experience where users can interact socially and economically using avatars, cryptocurrencies, and NFTs. Many organizations are investing in the mushrooming metaverse, wherein they anticipate the next frontier of interaction.

The metaverse allows digital avatars to indulge not just in attending virtual events but also shopping from online bazaars, sharing ideas through virtual workspace collaboration. It raises vital ethical considerations about user experience pertaining to such digital interactions, such as data protection and the implications for mental well-being. The metaverse would soon become one of the prime elements of the digital economy and the social psyche.

Connectivity

Emerging technologies are optimizing wireless communications by dynamically altering wireless reconformable intelligent surfaces (RIS) and specifically focusing wireless signals to enhance signal strength and coverage, especially in environments where this is difficult to achieve. This is precisely the USP of RIS technology, improving both the reliability of the network and the attention towards environmental sustainability.

This is what the latest connectivity technology would do for the use and increased demand of high-speed internet and connected devices. Improved network reliability and efficiency increase the pace at which smart environments can grow while opening avenues for new applications in remote work, telemedicine, and online education.

Takeaway

The evolution of technologies in 2024 is primarily represented through a fast and rapid revolution in landscape development. Transforming industries and dominating the way we interact with technology is an evolving course of technologies such as artificial intelligence, quantum computing, connectivity, and new computing paradigms. The very trends are now moving forward towards their promise of considerable economic growth, efficiency that matters, and the enhancement of the quality of human life.

The openness of AI is democratizing powerful technologies of enterprise size or beyond, but the power of quantum computing will revolutionize the very domains of cryptography and drug discovery. The much-anticipated extension of 5G is already creating the smart city and enabling further near-real-time applications. Edge computing, on the other hand, satisfies local requirements for data processing and security. Digital twins have been transforming efficiency across sectors, while smart cities will deploy advanced technologies for environmental sustainability. The metaverse would open up a whole new venue for social and economic interactions as connectivity technologies improve the reliability of the network.

These shaping technologies will continue to create a new era and bring solutions to many problems.

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Applied Innovation

Unleashing Immersive Experiences with No Code XR Platform

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Applied Innovation

Unleashing Immersive Experiences with No Code XR Platform

Technology has undergone a fundamental transition in recent years towards immersive digital experiences, or Extended Reality (XR). Virtual Reality (VR), Augmented Reality (AR), and Mixed Reality (MR) are all included in one multidimensional environment, giving users an unheard-before level of engagement with the digital world.

Extended Reality (XR) serves as an overarching term that envelops a diverse array of technologies aimed at merging the realms of the physical and virtual worlds. This innovative spectrum comprises various facets, including Virtual Reality (VR), which engrosses users within entirely digital immersive environments, often necessitating VR headsets for a comprehensive experience. Augmented Reality (AR) enriches reality by superimposing digital elements onto the tangible world, often accessible through smartphones or AR glasses. Furthermore, Mixed Reality (MR) amalgamates the attributes of VR and AR, facilitating the interaction between digital entities and the genuine environment, resulting in a seamless integration of virtual and real elements. While historically the creation of these experiences required complex coding abilities, a game-changing option has emerged: the no-code XR platform.

Democratization of XR experience production

No Code XR Platforms are paradigm-shifting tools that enable anybody to create XR content. It refers to a technology platform that enables the creation of extended reality (XR) experiences without requiring traditional programming or coding skills. XR refers to a spectrum of technologies that combine both physical and virtual environments, including virtual reality (VR), augmented reality (AR), and mixed reality (MR). No code platforms aim to democratize the creation of XR content by allowing individuals with various skill levels to design and develop immersive experiences without writing complex code.

No Code Platforms

Traditional XR development typically involves programming in languages, however, not everyone has the technical expertise to code, and this can create a barrier to entry for creating XR content. No-code platforms aim to solve this problem by offering user-friendly tools that allow individuals to create XR experiences using visual interfaces and pre-built components, eliminating the need for coding.

No Code XR Platforms encompass a range of compelling features that streamline the creation of immersive extended reality experiences: A Visual Interface serves as the cornerstone, enabling users to effortlessly arrange and manipulate scene elements through intuitive drag-and-drop interfaces, eliminating the need for manual code-writing. These platforms also boast Component Libraries, housing a rich array of pre-designed 3D models, animations, effects, and interactive assets, empowering users to easily construct their XR experiences. Logic and Interaction Design capabilities empower users to craft intricate interactions and behaviors, seamlessly connecting components and configuring triggers, conditions, and responses. Furthermore, Integration capabilities enable these platforms to interface with external services, APIs, or databases, facilitating the real-time retrieval of data that elevates the interactive experience. Upon completion of the XR creation process, these platforms offer a straightforward Publishing process, equipping users with the means to deploy their crafted content across various devices and platforms—ranging from VR headsets and AR glasses to smartphones—ensuring widespread accessibility.

Use Cases

No code XR platforms have found diverse applications across various domains: In the realm of Training and Education, these platforms offer a powerful tool for crafting immersive training simulations and educational content, eliminating the need for educators or trainers to possess coding skills. This enables the creation of engaging learning experiences that facilitate better understanding and retention. In the sphere of Marketing and Sales, these platforms empower marketers to develop interactive product demonstrations and augmented reality advertisements, enabling them to effectively showcase products or services without the reliance on a specialized development team. For Design and Prototyping, designers can leverage these platforms to swiftly prototype XR concepts and experiences, offering stakeholders a tangible and interactive preview of their ideas, which is invaluable for decision-making and refining design elements. Moreover, even in the realm of Entertainment, hobbyists and creative individuals can take charge of crafting their own interactive games, narratives, or immersive art installations, allowing them to explore their artistic visions without the necessity of coding expertise.

Emerging key players

Within the realm of no-code XR platforms, several key players have emerged, each offering unique and compelling solutions for creating immersive extended reality experiences. One platform provides users with a comprehensive toolkit, enabling them to effortlessly craft XR experiences that seamlessly merge the digital and physical worlds. Another emphasizes the creation of immersive encounters, adopting a no-code approach that simplifies the process of building captivating experiences. Yet another platform offers a streamlined pathway to develop XR encounters, ensuring that users can construct these experiences without the need for intricate coding knowledge. Another innovation in this arena fosters a simplified method to create XR experiences, eliminating the requirement for coding expertise. Finally, a platform is dedicated to facilitating the creation of XR experiences tailored for a diverse range of applications. Through these distinct offerings, the landscape of no-code XR platforms is transforming the way individuals and businesses engage with the world of extended reality.

Benefits and Challenges

The adoption of no-code XR platforms presents both significant benefits and notable challenges. On the positive side, these platforms democratize the process of XR content creation, making it accessible to a broader spectrum of individuals, regardless of their technical background. By facilitating the creation of XR experiences without coding requirements, these platforms expedite development timelines and dismantle the traditional entry barriers that impede creative participation. However, challenges persist. While no code platforms offer a simplified approach to XR development, more advanced features and tailored customization might necessitate the involvement of traditional coding practices. Moreover, given the intricacy of XR experiences, a certain level of technical understanding may still be required to fully exploit the potential of these platforms and create sophisticated, immersive content.

In conclusion, a “no code XR platform” is a tool that empowers non-programmers to create immersive XR experiences by providing intuitive visual interfaces, pre-built assets, and simplified interaction design. It enables individuals to explore their creativity and contribute to the world of extended reality without needing to learn complex coding languages.

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Applied Innovation Retail

From Chatbots to Humanoids: A Look at the Diverse World of Virtual Beings

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Applied Innovation Retail

From Chatbots to Humanoids: A Look at the Diverse World of Virtual Beings

A Virtual Being is a conversational avatar intended for lifelike human interaction driven by AI. An avatar is a digital representation of a person in a virtual environment used for communication or self-expression. Virtual beings, on the other hand, rely on cutting-edge technology like AI, NLP, and ML and are more complicated creatures created to interact with people in a lifelike manner. Even though both involve developing a digital image of a person, virtual beings are far more advanced and have a wider range of practical uses.

Virtual beings can be used for a range of tasks, including companionship, customer service, and entertainment. The capability of virtual entities to converse with humans in normal language is one of their distinguishing characteristics. They can appear in a variety of ways, such as animated characters on a screen or as humanoid robots. Additionally, they can be tailored to fit particular requirements and preferences by changing things like age, gender, and personality. Virtual beings can be endowed with a variety of different technologies, like facial recognition, emotion detection, and gesture recognition, in addition to their conversational skills. This enables individuals to react to non-verbal cues and engage in more subtle interactions with people.

Examples of Virtual Beings

Chatbots and realistic humanoid robots are only two examples of increasingly common virtual entities. Mitsuku, a chatbot created by Steve Worswick, has received recognition for its capacity to carry on frank discussions with people. Another chatbot that adapts its replies based on human input is Replika. Magic Leap’s AI-driven chatbot Mica employs spatial computing to provide an immersive experience. Hanson Robotics created Sophia, a humanoid robot that can replicate facial expressions and have casual conversations with people. Last but not least, Soul Machines’ AI-powered virtual Zoe has been deployed in customer service applications and can communicate authentically with people.

Technologies Used in Virtual Beings

Virtual beings are made possible through a combination of several technologies, including artificial intelligence (AI), natural language processing (NLP), computer graphics, and machine learning (ML). AI forms the foundation of virtual beings, enabling them to understand and respond to human input in a natural and engaging way. NLP is used to teach virtual beings to understand and interpret human language, from casual speech to formal language. Computer graphics play an essential role in creating the visual representation of virtual beings, including their appearance and movements. ML algorithms train virtual beings to recognize patterns and make predictions based on large datasets of information, such as language or image data. Augmented reality (AR) and virtual reality (VR) technologies can be used to create immersive experiences with virtual beings, overlaying virtual objects onto the real world or creating entirely virtual environments for users to explore. As these technologies continue to evolve and improve, virtual beings will become even more advanced and capable, opening up new possibilities and applications in various industries

Natural language processing (NLP), machine learning (ML), and computer graphics are some of the technologies used to program virtual entities. The construction of a 3D model or avatar that will serve as the virtual being’s representation is usually the first step in the programming process for virtual beings. This may entail creating the avatar’s physical attributes, such as its look, attire, and range of motion. Next, natural language processing is used to give the virtual being the ability to comprehend and react to human input. For the virtual entity to comprehend and provide natural language replies, extensive linguistic training is required.

The market for Virtual Beings:

In a number of sectors, including healthcare, education, and entertainment, virtual beings are becoming more and more common. They provide a number of advantages, including scalability, personalization, and availability around the clock.

The market for virtual beings is expected to grow significantly in the coming years. According to a report by MarketsandMarkets, the global virtual and augmented reality market, which includes virtual beings, is projected to reach USD 125.32 billion by 2026, with a compound annual growth rate (CAGR) of 43.8% from 2021 to 2026.

The use of virtual beings is becoming increasingly popular in a range of industries, including healthcare, education, entertainment, and customer service. In the healthcare industry, virtual beings are being used to provide patient support and therapy, while in education, they are being used for virtual tutoring and training.

In the entertainment industry, virtual beings are being used for gaming and virtual experiences, while in customer service, they are being used to provide personalized assistance and support. The COVID-19 pandemic has also accelerated the adoption of virtual beings, as more companies and organizations look for ways to interact with customers and users remotely.

As virtual beings become more advanced and capable, they are likely to be used in even more industries and applications. For example, virtual beings could be used in manufacturing and industrial settings to improve productivity and safety, or in the automotive industry to provide virtual driving assistants.


Overall, the market for virtual beings is expected to continue growing as more companies and organizations look for ways to leverage AI and virtual technologies to improve customer experiences and streamline operations.

Virtual Beings in the Clothing Industry :

Virtual beings can be used in the clothing industry in a number of ways, including virtual try-on experiences, personalized styling, and virtual assistants. One of the most common applications of virtual beings in the clothing industry is virtual try-on experiences. These experiences allow customers to virtually try on clothing items and see how they would look on them before making a purchase. This can be done using augmented reality (AR) or virtual reality (VR) technology, which creates a realistic virtual representation of the clothing item on the customer’s body.

Another use of virtual beings in the clothing industry is personalized styling. Virtual beings can use data about the customer’s body type, style preferences, and past purchases to provide personalized recommendations for clothing items. This can be done through a chatbot or voice assistant that interacts with the customer and offers suggestions based on their input. Virtual assistants can also be used to help customers navigate the online shopping experience. These assistants can answer customer questions, provide product recommendations, and help with checkout and payment processes. They can be powered by AI and NLP technology to provide a natural language conversation experience.

Overall, virtual beings offer a range of opportunities for the clothing industry to enhance the customer experience, increase sales, and improve customer satisfaction. However, the ethical and social ramifications of virtual creatures, such as how they could affect human relationships and how they might be abused, are also a source of worry. It’s important to ensure that these technologies are used in a way that is ethical, transparent, and respects customer privacy.

Please write to us at open-innovator@quotients.com to learn more about Virtual Beings and startups working on its diverse use cases.

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Applied Innovation

How XR Technology is revolutionizing Product Design and Development

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Applied Innovation

How XR Technology is revolutionizing Product Design and Development

The process of product design and development is changing due to the use of expanded reality (XR) technology that is providing a realistic, dynamic setting for product ideation, prototyping, and testing. This way the creation and production of products is being revolutionized by this cutting-edge technology.

The technology known as Extended Reality (XR) combines Augmented Reality (AR), Virtual Reality (VR), and Mixed Reality (MR). It allows designers and engineers to visualize and test their ideas in a virtual world using XR technology leading them to find and fix problems early in the development process. Companies are investigating the potential of XR technology because of the exciting opportunities it offers in product creation and development. In the near future, it is likely to become a crucial component of product creation.

This technology also has the potential to accelerate product creation, lower expenses, and streamline design and development processes. It also makes it feasible for product developers to visualize and engage with their products in ways that were previously impossible. In order to help users better comprehend how a product functions and how to use it, it can be used to create interactive product experiences.

Businesses are also utilizing XR technology to develop more individualized goods. Businesses can design goods that are customized for specific consumers by utilizing XR. The building of tangible prototypes, which could be time-consuming and expensive, was a traditional step in the process of product design and development. Contrarily, XR technology dispenses with the need for tangible models by enabling designers and engineers to build and evaluate virtual prototypes. Due to the ease and quickness with which adjustments and iterations can be made, this can lower expenses and speed up the development process.

Additionally, XR technology gives engineers and designers a more engaging and realistic way to visualize their creations. For instance, designers can evaluate the shape, functionality, and aesthetics of their product by viewing and interacting with a 3D model of it in a simulated world using VR. This can assist engineers in finding problems with their designs early on and fixing them.


On the other hand, augmented reality (AR) can be used to overlay digital data onto actual tangible prototypes, giving creators real-time information about the performance and behavior of the product. This can assist engineers in finding and fixing problems early in the development process, lowering the likelihood of expensive errors later.

VR and AR advantages can be combined with MR technology helping designers and developers to evaluate how the product will function in the real world by interacting with virtual versions in a real-world setting using MR. In order to evaluate their products in various environments, designers and engineers can use XR technology to mimic various product utilization situations. A VR simulation, for instance, can be used to evaluate a product’s longevity under various environmental circumstances, such as temperature and humidity. Before the product is produced, this can assist designers in identifying possible problems and making changes.

Overall, XR technology has the ability to completely transform the process of creating new products. Businesses can cut costs, expedite development, and eventually bring goods to market quicker by giving designers and engineers a more immersive and interactive way to visualize and test their ideas.

Please write to us at open-innovator@quotients.com to learn how the product design and development process is changing as XR technology develops further and how this technology will support more effective and efficient company operations.

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Applied Innovation Industry 4.0 Uncategorized

How XR Technology is transforming the Maintenance and Repair Industry

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Applied Innovation Industry 4.0 Uncategorized

How XR Technology is transforming the Maintenance and Repair Industry

Everyone is raving about the new, intriguing technology known as XR. But what does XR actually imply, and when can this technology be used? Cross reality, also known as expanded reality, is a general word for several distinct but connected technologies, which include Augmented Reality (AR), Virtual Reality (VR), and Mixed Reality (MR).

XR, MR, VR, and AR

The terms XR, MR, VR, and AR are frequently used synonymously but there is a definite distinction between these. Virtual Reality is a type of XR that uses a head-mounted display (HMD) or smartphone, or other gadgets placed about an inch away from the viewer’s eyes to fully immerse the viewer in a simulated world. Here the display of the gadget completely fills the user’s field of view. However, not all XR is virtual reality (VR).

Similarly, Augmented Reality is a subset of XR that uses digital enhancements to improve the user’s perception of the actual world. Typically, a device’s camera is used for this, which records the real-world scene and superimposes digital components on top of it. For instance, augmented reality (AR) may phone’s camera to project game figures onto the screen of a smartphone, giving the impression that they are in the same room as you.

MR, or “mixed reality,” is a fusion of VR and AR. In other words, Virtual reality and augmented reality are combined to create Mixed Reality. Users can engage with both physical and digital objects thanks to MR’s anchoring of digital components to the real world. Usually, specialized gear, like Microsoft’s HoloLens, is used to accomplish this. Overall, it’s critical to comprehend the distinctions between XR technologies because each has particular advantages and disadvantages and is best suitable for particular uses.

Application of XR in Different Industries

XR technology by combining the physical and virtual worlds improves safety, efficiency, and productivity while reducing costs and downtime. It has the potential to revolutionize the way we work and is impacting many industries like Gaming and Entertainment, Employee Training, Customer Support, Healthcare, Property and Real Estate, and Retail.

Application of XR in Maintenance and repair


Maintenance and repair work is one of the most important applications where XR is having an impact. Technicians can obtain real-time information, such as directions, blueprints, and troubleshooting manuals, about the equipment they are working on by using AR overlays. This technology may increase the precision and effectiveness of maintenance and repair work, decrease delay, and eventually result in cost savings for companies.

Traditionally, techs have user manuals and blueprints to identify and fix equipment. This approach, though, can be laborious and error-prone. On the other hand, XR technology gives workers a visual depiction of the equipment, enabling them to swiftly recognize the issue and fix it. This is especially advantageous for sophisticated apparatus and equipment, where even a small error can result in expensive downtime and maintenance costs.

Additionally, step-by-step directions on how to fix or keep the equipment can be provided using AR overlays. This benefits technicians who may be inexperienced with a specific sort of machinery or lack the required knowledge. Technicians can more swiftly and correctly identify and fix machinery with the help of real-time guidance.

Repair workers as well can be trained using XR technology on how to operate and manage equipment. The use of VR models can give techs access to a regulated and secure virtual world where they can practice maintenance and repair tasks. This can lower the possibility of mishaps and equipment harm while training, as well as increase the techs’ effectiveness and accuracy in real-world situations.

Remote assistance can also be provided using AR graphics. With the aid of smart eyewear, techs can communicate in real-time with specialists who can assist them virtually throughout the maintenance or repair process. When working with complicated equipment that calls for specialized knowledge and experience, this can be especially helpful.

In general, XR technology has the power to completely transform the servicing and repair sector. Businesses can increase the precision and effectiveness of maintenance and repair tasks, decreasing delay and eventually saving money, by giving workers real-time information, step-by-step directions, and online assistance. It will be fascinating to observe how XR technology develops in the future and how it will help companies run more effectively and efficiently.

Please write to us at open-innovator@quotients.com to learn more about such innovative solutions and partnership opportunities.

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Innovator's Vista

How Augmented Reality is Transforming Businesses

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Innovator's Vista

How Augmented Reality is Transforming Businesses

Augmented Reality can simply be described as technology that allows you to see the real world, just with additions which are not really there. It adds virtual objects to the physical world through real-time use of information in the form of text, graphics, audio and other virtual enhancements. It is different from Virtual Reality as in VR user is fully immersed in an imaginary world and functionally isolated from the real environment.

With advancements in next generation Kinect devices, mobile handsets, and other hardware devices AR is gaining traction. The factors, such as changing consumer preferences, emergence of new information-delivery paradigm, demand for better quality of experiences are driving the augmented reality industry growth. 

AR is impacting the businesses in two ways; first, by becoming the product and part of other products and second, by playing its role in product development.

AR is impacting the businesses in two ways; first, by becoming the product and part of other products and second, by playing its role in product development, manufacturing, marketing, sales, productivity improvement, and after-sales services. So there is unlimited potential for AR, the only question is how to unlock it. 

There are very interesting uses of AR technology that are already offering benefits in a variety of industries. For example, Augmented reality is being used for training surgeons and in performing detailed surgical operations. In Real Estate, AR can help understand the potential of a property, helping the consumer to visualize the space of interest. In Education sector, AR can enhance learning experience for students through virtual objects and help them better understand certain concepts.

In retail industry, it allows customers to view products in natural environments  and even experience them before buying them, for example it can allow customers to see how a product might look on them. In Automotive sector, AR heads-up displays are helping drivers process information that enhances their view of road, hence warn and save them of any potential hazards. It is also making easier for them to navigate than a traditional maps. Apart from all this, AR is one of the most important elements of the metaverse, a next evolution of the internet.

A Noida based Startup, Easiofy Solutions, is working on this technology with a vision of bringing Augmented Reality to common man to solve everyday problems.

A Noida based Startup, Easiofy Solutions, is working on this technology with a vision of bringing Augmented Reality to common man and solve everyday problems. The company, founded in 2018, has built an Augmented Reality platform, ARTee, which, as claimed, can be used to develop solutions for verticals such as Marketing and Promotion, Education and Training, Retail, Manufacturing, Medical diagnosis and training, Remote Assistance and Maintenance.

The startup claims that the key factors that differentiate the platform from it requires no third-party licenses and its ready to use Domain Templates. Apart from this, it has unified view on iOS, Android, Web & all devices and it is 70% faster as compared to existing AR-VR development platform.

Image Courtesy: Easiofy

ARTee-Retail is dedicated to online sales that converts shopping environments into Augmented/Virtual environment where customers can analyse and survey the products before investing on the product. Similarly, ARTee-PrintMedia combines dynamic contents like images with video/3d content with static content to make it more interesting. Another solution is ARTee platform for education and training for Augmented Reality based teaching methodology. ARTee Pen is the Augmented reality remote assistance and maintenance tool. It is Provide remote technical assistance in real time to field technicians assisted by augmentations in 3D.

Easiofy has customers like L&T, Nissan, Xerox, NEC, etc and is offering its services in a subscription based business model. Apart from all its offering what makes the startup led by Meenal Gupta unique is that it has women holding all the significant posts.


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