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The convergence of AR, VR in Robots is almost like a holy grail that provides an immersive AR or VR environment to operate and control robots for different tasks and actions. Subsequently, this combination can also enhance consumer experiences and customer services across several industries with more personalized, accessible, and immersively designed experiences.

Virtual Reality (VR) and Augmented Reality (AR) are two of the most innovative and groundbreaking technologies of the 21st century. Due to their endless potential and prospects, the world's technology leaders are slowly moving their platform to adapt and incorporate VR and AR technologies.

In addition, the ability of these mixed reality technologies to enhance customer experience and strengthen their engagement has led them to experience rapid growth and adoption among companies and consumers alike.

Alongside this, robots are also making strides across the world in different industries & applications for both various outdoor and indoor scenarios. Robots of different kinds, i.e., industrial Robots, humanoid robots, service robots, specific purpose robots, and many others, are also rapidly empowering industries, businesses, and services worldwide.

Getting to Know the Technologies

Augmented Reality (AR) is a mixed reality experience in a real-world environment where real-world objects and environments are enhanced by various computer-generated perceptual information. The AR system delivers this information through various digital media (visual and sound) elements, haptic feedback, and other sensory stimuli. In addition, the AR system itself powers and provides these multiple digital sensory elements.

Read more: AR and VR Technologies Guide Robots towards a Smarter Future

On the other hand, Virtual Reality (VR) is a simulated experience in a 3D virtual world environment with computer-generated VR worlds, scenes, and objects that usually immerse the user in their surroundings. The VR system also delivers different sensory information, including sound, visual, haptic, and other sensory input that helps to make the user feel like they are a part of the virtual reality world. A head usually accompanies this system-mounted device known as Virtual Reality Headset, which delivers all the user's visual and other sensory information.

A robot is a machine that is generally programmed to do specific tasks and actions automatically. Industries and businesses often use robots in an environment requiring them to complete a series of complex charges and actions repeatedly.

Robots today are usually automated for industry environments like a supply line, production chains, and manufacturing processes. Still, they are slowly albeit steadily making strides across different industries worldwide, even for general purpose tasks and actions.

 convergence of AR, VR in Robots

How does this Convergence Improve Customer Service?

AR & VR are immersive technologies, while robots are machines that enable automation of complex tasks & operational control over themselves to allow humans to guide & use them. The convergence of these technologies has a huge potential to break barriers to what we can achieve in terms of immersive technology, R&D, enhanced experiences, and different manufacturing & production problems.

VR and AR companies like FS Studio already provide advanced solutions regarding R&D technology and product innovation to enable rapid development through the convergence of these technologies.

VR and AR technologies are proving to enable much better consumer interaction. Various companies can use AR or VR visualization of their products for marketing even before it is ready. In such cases, the products are usually more accurate and close to their real-life counterparts than the pictures of the products.

Images can be misleading or inaccurate from their real-life counterparts due to scale, angle, color corrections, and lighting. However, consumers want accurate real-life-like visualization of the product. So, VR and AR are beneficial for this purpose.

Read more: How Are Industries Creating New Opportunities By Combining Simulations and AI

With this, VR and AR can enable product customizations since VR and AR representations can be easily changed and modified without affecting its realism or accuracy from the actual product. It allows a whole new level of product selection experiences for the consumers. It leads to enhancement in consumer experiences, interaction, and engagement, eventually leading to more satisfaction and conversion rate.

Mix these advantages with robots; you can enable a whole new category of customer service and engagement across different industry platforms. Currently, other industries use robotics for faster production lines equipped with automation.

 But with increasing adoption among consumers and advancement in robotics, various commercial robots are also rapidly growing. Different robots like humanoid robots, unique purpose robots, dancing robots, robotics for children, and robots for entertainment are currently seeing high demand along with the consumers.

It would eventually lower costs related to product manufacture, improving products much faster and in a more refined way. It would also lead to lower prices of the products among consumers.

Apart from this, customer support in numerous markets with more personalization and immersive experience is possible. AR and VR can converge customer service with robots to enable various advantages. Workplaces under dangerous conditions will be benefiting mainly from this kind of technology.

Here, workers would be able to use VR-controlled robots or VR-controlled drones in dangerous environments as if the workers were in those environments due to immersion provided by AR or VR. In addition, it would make the work more efficient and precise in comparison with traditional ways of robot control.

VR and AR tech is actively in use, and robotic technology is across industries like healthcare, manufacture, the military, and industries dealing with dangerous work environments. VR is generally used for better control and operation of robots by a human operator for various tasks.

On the other hand, AR is usually in use for enhancing real-world environments. AR robotics is also in use for healthcare facilities to provide disabled patients with robotic exoskeletons.

Adoption of this Technology across Different Industries

Virtual reality businesses are breaking the barriers with virtual realism, while augmented reality businesses redefine mixed reality. Industries that require robotic education or training can reap huge benefits from this type of technology.

For instance, the military can use (Russian Military uses VR trainers to train their soldiers) VR and AR technologies to train soldiers, pilots, and vehicle drivers without ever stepping into the battlefield or aircraft or vehicles. Moreover, it is possible due to the amalgamation of VR with robotics to achieve real-like virtual simulations for soldiers to train in.

Augmented reality in the military can also work with robotics for different training and strategic purposes, i.e., robots enable sensing environments and data collection. At the same time, AR enhances the setting for the soldier to train into.

VR & AR can also blend well with robotics for investigative purposes or in law enforcement services. For example, using AR and VR robots to investigate any crime scene repeatedly without being present on the stage will substantially positively impact the accuracy of the verdicts on various cases and criminal charges.

Robots with VR and AR can help with R&D and product development. Enabling rapid development, design, testing, and iteration of products through simulations and 3D models, VR and AR can assist robots in manufacturing plants or product lines for a more efficient, accurate, and cost-effective supply chain. It also increases safety and security around manufacturing industries since robots with VR and AR capabilities can take on more dangerous and harmful tasks.

Robots like drones or robots with locomotive capabilities are useful with AR & VR to scan and generate 3D models of various environments and objects. FS Studio's own ZeroSim technology enables this kind of innovative tech. ZeroSim is a robotics simulation engine that can be used in the rapid development of robotics and simulations in various environments and industries.

This convergent tech is also helpful for robots with object recognition since it requires 3D models for more appropriate and enhanced detection and scanning of objects.

Furthermore, data collection with real-time communication among robots with the help of AR & VR will also be very efficient, fast, and cost-effective. It shows that VR and robotics can merge very efficiently.

The Healthcare industry can also use this type of technology. For example, health care facilities are already using robots with VR capabilities to perform remote surgeries and the training of surgeons. Equipping these robots with AI would enable unseen precision and accuracy in the surgical process. In addition, AR is beneficial for scanning the body and visualizing various digital elements to assist and enhance the surgical procedure, while VR enables remote surgery.

Patients with disabilities can also use AR-based exoskeletons like augmented arms or prosthetic limbs to assist themselves. It shows that augmented reality and robotics align very well, even in the healthcare industry.

The high development of VR in different industries shows that the adoption of virtual reality in business worldwide is in high demand. Additionally, augmented reality in business is also in need due to its advantages and benefits. 

convergence of AR, VR in Robots


The combination of Augmented Reality, Virtual reality, and Robots opens a technological path that has a vast possibility and capability to enhance and improve customer services in various industries.

Furthermore, VR and AR robots are arising with numerous advantages and benefits for both enterprises and consumers alike. With opportunities to grow even more influential and eventually mainstream, the future of AR and VR technologies and its convergence with robotics looks very bright.

Various businesses, organizations, and companies across multiple backgrounds from general-purpose industries, manufacturing industries, military to enterprises working in dangerous environments, and even healthcare industries are widely adopting this technology to enhance their services and provide more engaging, interactive, and improved customer service.

Oil and gas industry operators benefit from digital twin through a quick response when something goes wrong.  With digital twin technology, operators can use data they collect from sensors on their equipment to create accurate models that replicate how these machines operate in real-time. 

It means that if an anomaly occurs, there's no need for expensive trial-and-error or lengthy troubleshooting procedures - open up your model, and you'll know what went wrong. In addition to saving money by avoiding costly repairs, this will save time which means more production time!  

This article describes how digital twins are helping organizations make sense of large volumes of diverse data sources—whether internally generated or provided by third parties—and use them effectively for making. 

Emerging Technologies and Digital Transformation:

The new face of the oil and gas industry is quickly becoming digitized. Emerging technologies allow for production to become a cycle, automated, efficient, and streamlined - but this also means that you get to deal with operational intelligence.  

Digital transformation will affect every stage of a company's lifecycle- from upstream operations to midstream labor-management down into downstream sales efforts. Even services in oil fields can be managed more efficiently digitally through Emerging Technologies.  It will challenge operators to transform substantial data sets acquired in various processes into actionable intelligence.

Oil and gas industry operators benefit from digital twin through advanced analytics in their plant operations to improve the performance of assets, reduce unplanned downtime, and extend equipment life. In addition to these things, it also allows for a greater return on investment by identifying complex problems. 

Digital transformation provides opportunities for improved return on investment by identifying quick fixes upstream, midstream, and downstream processes.

Read more: How Digital Twins Can Help In Saving The Environment 

In addition, with the digital twin, a machine's maintenance and operational intelligence are never compromised. 

With predictive analytics for maintenance and prescriptive analytics for operations intelligence, your business will always have the edge over any of its competitors by being able to fix problems before they even happen! In addition, the augmented reality provides tools that improve both productivity time and the effectiveness of the repair.

How oil and industry operators benefit from digital twin technology

Digital Twin Mirrors Manufacturing Big Data:

The oil & gas industry is a massive business that generates an incredible amount of data. The oil & industry data will typically have quality reports, process control history, operational deviations and variations, product blends and formulas, etc., related to the production process.

The Bureau of Labor Statistics found that this sector had more stored data than any other business or industrial sector in a recent survey among US manufacturers.

The data generated by today's connected world comes in a wide variety of formats and needs to be aggregated, analyzed, and converted into actionable information.

The digital twin is a virtual representation of your production plant that can provide personnel with operational intelligence. This process starts by combining Big Data, statistical sciences, rules-based logic, and artificial intelligence into one easy-to-use package called predictive analytics.

Read more: Simulation in Digital Twin for Aerospace, Manufacturing, and Robotics

Advanced machine learning allows the company to discover complex problems shaping up in their manufacturing processes and then determine ways to resolve them before they become costly. 

The move from predictive analytic models will eventually lead manufacturers out on top because it utilizes big data effectively without adding too much cost or complexity along the way. 

Digital Twin and Machine OEMs:

The relative benefits of the digital twin will depend on many factors, not limited to complexity and quality. As assets increase in sophistication, demand for a digital representation is bound to overgrow, too - with one difference: ubiquity across its lifecycle. The genuine virtual version will contain information about design as well as manufacturing and service life. 

There has been some debate over who should be overseeing them: those with knowledge or experts in data science? Without answers, we won't know how best to utilize their potential capabilities

The oil and gas equipment OEMs (Original equipment manufacturers) are traditionally the best informed about information, such as engineering analysis data. However, end-users of these assets require this operational performance data to be successful in their jobs. 

For a digital twin to work effectively, the manufacturer should share the information or offer an online service-based business to monitor and optimize digital and physical asset performances. 

It includes servicing, optimizing operations with real-time data analytics, improving safety in complex environments like offshore drilling rigs, or carrying out hazardous tasks like handling chemicals at a refinery. 

Implementing this type of initiative could be done through partnerships between IIoT software vendors that develop solutions to support these new approaches. In addition, there are emerging opportunities within large organizations that have been adopting advanced techniques across their business units. 

Manufacturers of long-lifecycle products such as gas turbines and pumps are coming to understand that after-sale service is a significant differentiator for them. Implementing digital twin services will improve efficiency in the field, which can be very helpful when considering how many people it takes on average to change out oil filters at most factories worldwide. 

By connecting remote sensors with real-time data analytics, companies have new opportunities not only have they have never seen before but also ones that were previously unaffordable due to cost considerations or complex engineering problems involved.

Manufacturers who implement this intelligent technology into their manufacturing process stand poised to provide better customer satisfaction rates and reduced downtime through continuous monitoring, thereby increasing profitability by improving quality control metrics. 

Oil and Gas Industry Operators Benefit from Digital Twin & Asset Performance Management:

With digital transformation, oil & gas companies are redefining their business models and operations, but these changes would not be possible without effective asset performance management (APM).

APM can help oil & gas firms to increase maintenance efficiency and effectiveness. 

It helps to avoid costly unplanned downtime while minimizing the need for scheduled downtime. It also improves safety by cutting down on risks of accidents. 

With this strategic approach to managing assets in place, the company's regulatory compliance costs will also decrease as well as minimizing the risk of non-compliance which is always a top concern when it comes to environmental protection regulations

Data is a valuable resource, but it cannot be easy to manage due to the sheer abundance and variety of sources. Modern APM can alleviate this by collecting all information into one system for ease-of-use and quicker analysis periods so that valuable insights are never lost again!

Imagine life without oil & gas. It would be much less convenient, not to mention plain dangerous. That's why you should invest in the industry today! 

Operators collect data and analyze it.  The approach enables companies to develop new techniques with better efficiency, safety, yield rates, etc., leading us towards a brighter future for all involved parties in your investments. 

How oil and industry operators benefit from digital twin technology

The technology around collecting and analyzing data has enabled many improvements for those invested in this sector. This work can lead industries into their "brightest" futures through increased production flexibility or more efficient operations...and it only gets easier when people are willing to dedicate themselves fully toward these goals.

APM is a new way to monitor and manage oil production from unconventional sources. APM integrates into the larger automation environment, enabling companies to take advantage of shale oil and gas opportunities, ultra-deepwater, or subsea applications.

Accurate and timely data is the lifeblood of a company's success. In today's business world, oil companies have to constantly adapt their operations to improve efficiency and safety standards for employees operating on site. 

It becomes difficult to comply with regulations across different sectors without an efficient way of collecting accurate information about all aspects, from production levels and equipment status up through downstream applications like environmental impact reports or health & safety assessments.

Midstream operators can now benefit from improved visibility into what goes wrong when things go wrong to act quickly. It is possible because integrated APM solutions aggregate real-time operational event intelligence at every level - including plants, refineries, pipelines, and transportation networks. 


Fossil fuels have powered the world ever since the Industrial revolution. However, Digital technologies like artificial intelligence (AI) and Blockchain are making the process of extracting energy more accessible, cheaper, more efficient, less risky - and cleaner! 

Digital twin technology is a new, innovative innovation that has the power to change the way we work. For example, we can use this new technology to create digital replicas of our environments and assets – also known as virtual simulations – and have them interact in real-time with their physical counterparts. 

It means you could simulate making any significant changes or decisions which would otherwise be costly! 

Digital twins are changing today's way we operate by providing information about our environment and previously unavailable assets. 

Oil and gas industry operators benefit from the digital twin significantly. The benefits include increased safety, improved production rates, lower maintenance costs, and reduced downtime. With these advantages in mind, it's no wonder why more companies are jumping on board the digital twin train!