Being reduced their aircraft manufacturing time by over 25% and lowered error rates to nearly 0% by equipping their production lines with AR-based technology!
Augmented Reality (AR) is increasingly becoming a technology to reckon with in several industries and sectors, more so in the manufacturing sector. Every stage of the production or manufacturing process, beginning from research and product development to end-of-life management, is reaping the benefits of a melange of AR offerings that bolster the manufacturing process.
Why AR in Manufacturing?
‘If you want to see your product in the environment it will be used in, AR can do that for you faster, and less expensively than building a prototype’ – Matt Huybrecht.
Hard-ware based products are increasingly being manufactured through cutting-edge technological processes that leave little to no room for error. Organisations across the globe need to ensure that quality is preserved to stay ahead, or at least on par with the competition.
AR bridges the gaps in technology that can potentially lead to errors, and results in quality production, optimised planning, quicker turnaround, lesser wastage, and a host of other tangible and intangible benefits. Augray has enabled hundreds of organisations to enhance and improve their end-to-end manufacturing processes by enabling AR-based technologies. Here is a sneak peek into what AR can do for your business.
Visualisation and Prototyping
creating multiple prototypes for the purpose of visualisation and functionality testing of often expensive, labour intensive, and time consuming. AR makes this process of visualisation extremely efficient with respect to economics and labour. By creating a digital twin or a virtual model, engineers, designers, and product developers can visualise the product without having to build a physical prototype. This considerably reduces the time spent in design and development and subsequently shortens the time the product takes to reach the market.
With the power of AR, products can be translated from the drawing board to visual and even physical prototypes (through rapid prototyping or 3D printing) within days or weeks instead of months.
Every large machine requires hundred if not thousands of parts to be assembled with utmost accuracy and precision. In the case of aircraft, ships, large automobiles, and power generation machinery, tens of thousands of components need to be assembled, and the wafter thin error margin literally leaves no room for errors. In such a scenario, manual assembly and inspection would require the expertise of multiple technicians to ensure that precision. However, when the process is enabled with AR, the makes the process of assembly skill agnostic and ensures that all components are fitted in accordance with requirements and norms.
For instance, aircraft companies and automotive manufacturers now use AR-enabled goggles to ensure that seats are fitted in the right place. When these devices are used, an alarm is raised even if the technician deviates the positioning by a millimetre. This ensures that the technician does not waste time in refitting seats by ensuring that they are assembled the correct way at the first instance.
Supply Chain and Logistics
Small and medium scale establishments that do not have a separate division for procurement and stock-taking more often than not find themselves in a soup when they require a particular component but find it short in supply. On the other hand, in the case of fast-moving goods, organisations often find they have ingredients or perishable components in excess and stand to lose if these constituents are not processed at the right time.
AR-enabled organisations can simulate the process and predict machine failure, downtime, and shortage of demand. This enables the organisation to plan the supply chain, enabling the organisation to optimise machine run time, minimise wastage, reduce manufacturing lead time and most importantly, achieve shorter sales processes.
Product Life Cycle Management
The entire product life cycle can be simulated using AR. Multiple-use cases can be modelled to test the efficacy and life of the product, enabling organisations to play the end-of-life of the product even before the product actually hits the market. Additionally, with the combination of AR and 3D printing, organisations need not even produce spare parts for retired products in the long run. Users can purchase, retrospectively modify, or even reverse engineer parts to suit their needs long after an organisation has stopped producing a product.
This opens up a new space in which organisations can monetise their offerings while simultaneously catering to the needs of the customers.
AR in every step of Manufacturing
The novel, cutting edge AR-based technologies are undoubtedly changing the face of modern era manufacturing by making processes swifter, more sustainable and efficient. Augray has borne witness to this paradigm change in Industry 4.0.
The possibilities that AR offers in enhancing Manufacturing is immense and boundless. Necessity, the mother of invention, has made it mandatory for organisations to embrace this change of offer the best value for themselves and all their stakeholders.
Virtual reality is showing some effective industry use-cases as well, from real estate applications to tourism. On a recent trip to Israel, I witnessed the Jerusalem Visitor’s Bureau using VR to immerse tourists in how the city looked 5,000 years ago. These types of innovative VR experiences are unveiling in industries worldwide.
Although augmented reality technology is less mature than virtual reality due to the limitations of AR technology, lack of standardization and a higher price tag, it is already being utilized in industries including manufacturing, healthcare and logistics. Augmented reality experiences are typically delivered through headsets, such as Meta, ODG, Vuzix and HoloLens, and are showing early signs that the technology is set to transform commercial and industrial markets. However, there is still work to be done before these technologies can reach mainstream adoption.
Follow deeptechknowledge.com for more technology updates.
Technology in the sports industry has become an initial tool to help teams continue to develop and grow. Coaches and players are utilizing the latest technologies to improve their fitness and mental resilience, while the clubs are also investing in new technologies to help improve fan experiences.
Virtual Reality is at the forefront of this tech revolution within the sports industry, with the Oculus Rift VR System leading the way. VR has grown massively within the past year and the sports sphere appears to be fully immersing itself in the world of VR.
Here’s how VR is revolutionising the sports industry today.
HOW VR IS IMPROVING PLAYER PERFORMANCE
VR in sports is becoming a cutting-edge way for teams all over the world to assess and improve player performance. Coaches and players are able to train better by watching and experiencing real-life situations over and over again, improving their tactical awareness and mental resilience.
VINCENT KOMPANY INVESTS IN MANCHESTER-BASED VR TECH BUSINESS
Vincent Kompany has recently invested in Manchester-based startup, Rezzil, a tech company looking to lead the way in VR training and cognitive development. Rezzil are working with elite footballers, at some of the world’s leading football clubs, to help improve their decision-making and match-readiness skills.
Kompany and Rezzil believe their VR tech could help players improve their cognitive abilities when injured, something Kompany himself has struggled with when suffering from a long-term injury.
Experiencing VR gameplay scenarios, using virtual reality sports simulators, could help players to keep their minds sharp when suffering from long-term injuries, as well as helping them prepare for the tactical side of the game upon their return.
IMPROVING FAN EXPERIENCES
VR isn’t just revolutionising the sports industry for players, fans are also experiencing the game like never before.
FANS CAN ATTEND SPORTS MATCHES USING VR
That’s right, clubs are now investing in VR technology to enhance fan experiences and allow them to watch matches, as if they were physically there, using VR technology. A VR headset and app are all you’ll need to be able to experience the action live and in the comfort of your own home.
VR in sports appears to be a great investment for clubs with fans all over the world, allowing those who can’t afford the luxury of attending matches to get a piece of the action. During the International Champions Cup in July 2018, the Manchester United vs FC Barcelona match was live-streamed in VR for fans all over the globe to experience. In the aftermath, the match highlights were also available through NextVR, providing a totally unique experience for football fans.
FANS CAN NOW EXPERIENCE SPORTS FROM THE PLAYER’S PERSPECTIVE
Some progress has been made in terms of fans being able to experience sports from the perspective of their favourite players. Spanish startup, FirstV1sion, have created wearable, body-cam technology that can stream on-field experiences straight to their fans.
This wearable VR technology has already been used in several basketball games, including the Euroleague final, and has even made an appearance in the RFL for a game between Leigh Centurions and Warrington Wolves. It’s anticipated that this kind of body-cam technology will soon become a fan favourite, with more clubs and sports looking to utilise the technology.
WHAT DOES THE FUTURE HOLD FOR VR IN THE SPORTS INDUSTRY?
The future of VR sports looks to be certain. With many technologies still in their early stages, there is plenty of room for VR in sports to reach its full potential. The investment from players like Vincent Kompany will help to further cement this.
Here at the Case Farm, we’re passionate about the future of VR in the sports industry and other sects. That’s why we’ve developed VR cases with waterproof and dustproof properties, so you can be sure your VR equipment is completely protected with a VR case from the Case Farm.
Athlete and team performances:
Combination of biological sciences and technology such as artificial intelligence, machine learning and data analytics can be used to
– Track real-time performance of players
– Generate reports on players performance
– Track body movement, position, speed, etc.
– Track their real-time physical conditions such as heart rate, body temperatures, etc., which along with their medical history records shall provide insights for any required action
– Generate insights on player’s reactions or performances under specific conditions of weather, environment or stages of a game
These insights can be used to enhance the players’ performance, prevent injuries, improve player safety and plan a game strategy; opponent teams can also use these insights to prepare their counter strategy. Real-time data can be collected using sensors in the players’ clothing, sport equipment, etc.
During practice sessions, players can use Virtual Reality and Augmented Reality to practice their moves or drills in a simulated match-like environment. This shall help them for match-practice irrespective of the space, people or weather constraints.
These technologies shall also be helpful for referees to make correct and accurate decisions through enhanced viewing and access to real-time data.
Digital technologies can enhance in-stadium as well as out-stadium experiences of fans.
Some of the in-stadium applications are as follows:
– A virtual-reality driven experience, which enable fans to take selfies with their favourite players or face-off them and compete with them in their sport
– A stadium facilities app that enhances in-stadium fan experience such as allotting parking space in real-time, digital tickets, assistance in stadium navigation, regular score updates, order food and beverages to deliver on the seat, update on stadium washroom queues, etc.
– Access to high speed internet in the stadium, which shall enable fans to access social media while watching the match
A few out-stadium applications are as follows:
– Virtual Reality headsets that offer simulated in-stadium live match viewing experience, along with the ability to choose the camera placed at various angle for personalized viewing; it can also offer a 3D viewing experience
– Use of drones for camera angles that were traditionally difficult to access
– Contests for quizzes and predictions at various stages of the game; ability to interact with friends while watching the match; access to behind-the-scenes actions of the fans favourite players or team
– Over-the-top (OTT) service platforms are increasing in popularity as they offer more personal and flexible services to the consumers; they can view the content with smart phones or tablets to watch their favourite sports live any-time any-place, which is a huge change in consumer behavior and consumption pattern compared to traditional television.
These enhanced experiences are likely to increase the engagement of existing fans as well as attract new fans to increase the reach and market of the game and convert the new fans into loyal fans.
Global video games market
In 2019, the global video games market size was estimated ~US$150 billion (compared to global box office market size ~US$43 billion and music industry market size ~US$ 57 billion). During 2019–23, the global video games market is likely to grow at CAGR 8 percent approximately to cross the market size of US$200 billion in 2022.
In 2020, the global video games market size is estimated ~US$159 billion — US$77.2 billion from mobile games with 2.6 billion mobile players; US$45.2 billion from console gaming with 729 million players; and US$36.9 billion from PC games with 1.3 billion players.
Compared to PC and console gaming, mobile gaming is likely to grow the fastest as the price of purchase for mobile phones is lower compared to other gadgets, which enables more people to purchase mobile phones.
Improvement in mobile technology and capabilities along with reduced price of internet connectivity with improved services, improves players’ gaming experiences. Moreover, businesses are moving towards free download of mobile gaming apps with in-app purchases, which people prefer rather than paying for the game upfront before playing experience or engagement.
esports is an organized competition or a tournament, where professional players and teams compete in multi-player games. Application of digital technologies has lead to the rise of esports market, which is expected to grow at CAGR 12.09 percent to cross USD 1.5 billion by 2023.
During 2019–23, viewership of esports is likely to grow at a CAGR 9.0 percent to reach 646 million by 2023. Esports attracts a loyal consumer base of millennial young males, who are passionate about competing in video games. This consumer base not only likes to play the virtual games but is also passionate and loyal viewer of the professional contests of esports, either in-stadium or out-stadium (through live streaming on their phones or tablets). As contests are beginning to take place regularly in large stadiums having capacity of tens of thousands of viewers, the esports arena is showing the trend of becoming more mainstream (and is no longer a niche for only a handful of players and fans).
Esports allow fans to interact with each other, especially while live straming of contests, which make them feel a part of the larger esport community. Also, through various contests with international participation, it provides them exposure to the international players and teams, who excel in playing a particular game.
With the growth of esport market, even betting industry related to it is likely to grow. In 2019, the betting on esports was estimated about US$ 8.0 billion.
We always have a tendency to get hold of new technology and to know more about new concepts and technological innovations. If you would like a more detailed information on the same and how new technologies are ruling the world you can follow the website deepwebtechknowledge.com for a deeper insight.