IKEA has already made one of the augmented reality ideas come to life when they released their augmented reality application that allows you to do that. It can even scale the furniture and change colors, so you can choose that perfect sofa for your living room. Medical apps are trending right now, being the second most popular kind of application after games for smartphones.
AR can provide additional possibilities to users of medical applications: the doctors will be able to see a 3D image of an MRI while talking to patients or analysing their movements. An augmented reality application can help with landscaping as well. You can also make measurements without needing a tape-measure, and automatically calculate the cost of your work. AR can give more information on all places you want to visit, and maps combined with an AR guide can bring you a great experience in city exploration. Museums can also put this technology to their advantage, by telling their visitors more about the items they see and bringing them to life.
It can also paint walls in a certain color and show how the room will work with a painting on the wall. Visualizing is a very important part of any project, and AR is all about making things visual and allowing users to see them from all angles. AR can give your engineers an ability to place their prototype right on a boardroom table so that everyone can understand the subject matter. Similarly, with AR you can walk through a construction site and see the sections, colored to indicate when each phase will be finished.
Analytics and statistics is very hard to understand without visualization. AR can be a great help when it comes to showing data and sharing it among people. Business needs this, because it is all about interaction between people and exchanging information. So why not add another dimension to your data and bring it to life? Imagine, how interesting the lessons would get, if teachers used AR technologies to explain some historic events. How exciting would any boring subjects became with an ability to see them live. Schools are already going digital, using computers and mobile apps at their lessons.
Think about what they could do with AR. For example, students could wander around a human cell or see a 3D galaxy on the screens of their smartphones or tablets. AR can erase the barriers when it comes to international business. It can help with translation, if you meet a colleague overseas, and create a common space even if you are thousands miles away from each other.
The possibilities of AR are nearly endless. They will enter almost every sphere of our life beginning with social media and ending with ecommerce. If you want to become one of those entrepreneurs and you have some augmented reality startup ideas about the way we educate students, sell products or meet new people, contact a development team that will be able to make your ideas come to life. Subscribe to our newsletter today and receive a free whitepaper with a step-by-step guide to cloud adoption and data protection!
Signing up for our weekly newsletter means you will get the latest tech news straight to your inbox. Until 5G use cases emerge it will remain just [ The [ Welcome to Information Age! Technology is moving extremely fast and you don't want to miss anything, sign up to our newsletter and you will get all the latest tech news straight into your inbox! I want to recieve updates for the followoing:. Augmented reality systems provided aerial camera operators with a geographic awareness of forest road names and locations blended with the camera video.
The camera operator was better able to search for the hiker knowing the geographic context of the camera image. Once located, the operator could more efficiently direct rescuers to the hiker's location because the geographic position and reference landmarks were clearly labeled. AR can be used to facilitate social interaction. An augmented reality social network framework called Talk2Me enables people to disseminate information and view others' advertised information in an augmented reality way.
The timely and dynamic information sharing and viewing functionalities of Talk2Me help initiate conversations and make friends for users with people in physical proximity. Augmented reality also gives users the ability to practice different forms of social interactions with other people in a safe, risk-free environment. Hannes Kauffman, Associate Professor for Virtual Reality at TU Vienna , says: "In collaborative Augmented Reality multiple users may access a shared space populated by virtual objects, while remaining grounded in the real world.
This technique is particularly powerful for educational purposes when users are collocated and can use natural means of communication speech, gestures etc. The gaming industry embraced AR technology. A number of games were developed for prepared indoor environments, such as AR air hockey, Titans of Space , collaborative combat against virtual enemies, and AR-enhanced pool table games. Augmented reality allowed video game players to experience digital game play in a real-world environment.
Users who downloaded the BitTorrent client software were also encouraged to download and share Part One of three parts of the film. The episodic release of the film, supplemented by an ARG transmedia marketing campaign, created a viral effect and over a million users downloaded the movie. AR allows industrial designers to experience a product's design and operation before completion.
Volkswagen has used AR for comparing calculated and actual crash test imagery. It has also been used to compare digital mock-ups with physical mock-ups to find discrepancies between them. Since , a device called a near-infrared vein finder that films subcutaneous veins, processes and projects the image of the veins onto the skin has been used to locate veins. Examples include a virtual X-ray view based on prior tomography or on real-time images from ultrasound and confocal microscopy probes,  visualizing the position of a tumor in the video of an endoscope ,  or radiation exposure risks from X-ray imaging devices.
On 30 April Microsoft announced the Microsoft HoloLens , their first attemp at augmented reality. The HoloLens has advanced through the years and is capable of projecting holograms for near infrared fluorescence based image guided surgery. Augmented reality and similar computer based-utilities are being used to train medical professionals. Magee et al. Augmented reality applications, running on handheld devices utilized as virtual reality headsets, can also digitize human presence in space and provide a computer generated model of them, in a virtual space where they can interact and perform various actions.
Such capabilities are demonstrated by Project Anywhere, developed by a postgraduate student at ETH Zurich, which was dubbed as an "out-of-body experience". Building on decades of perceptual-motor research in experimental psychology, researchers at the Aviation Research Laboratory of the University of Illinois at Urbana-Champaign used augmented reality in the form of a flight path in the sky to teach flight students how to land an airplane using a flight simulator.
An adaptive augmented schedule in which students were shown the augmentation only when they departed from the flight path proved to be a more effective training intervention than a constant schedule. An interesting early application of AR occurred when Rockwell International created video map overlays of satellite and orbital debris tracks to aid in space observations at Air Force Maui Optical System.
In their paper "Debris Correlation Using the Rockwell WorldView System" the authors describe the use of map overlays applied to video from space surveillance telescopes. The map overlays indicated the trajectories of various objects in geographic coordinates.
This allowed telescope operators to identify satellites, and also to identify and catalog potentially dangerous space debris. Starting in the US Army integrated the SmartCam3D augmented reality system into the Shadow Unmanned Aerial System to aid sensor operators using telescopic cameras to locate people or points of interest. The system combined both fixed geographic information including street names, points of interest, airports, and railroads with live video from the camera system.
A proof of concept mixed reality application for augmented city tourism
The system offered a "picture in picture" mode that allows it to show a synthetic view of the area surrounding the camera's field of view. This helps solve a problem in which the field of view is so narrow that it excludes important context, as if "looking through a soda straw". As of , Korean researchers are looking to implement mine-detecting robots into the military.
The proposed design for such a robot includes a mobile platform that is like a track which would be able to cover uneven distances including stairs. The robot's mine detection sensor would include a combination of metal detectors and Ground-penetrating radar to locate mines or IEDs. This unique design would be immeasurably helpful in saving lives of Korean soldiers. In combat, AR can serve as a networked communication system that renders useful battlefield data onto a soldier's goggles in real time.
From the soldier's viewpoint, people and various objects can be marked with special indicators to warn of potential dangers. The NASA X was flown using a Hybrid Synthetic Vision system that overlaid map data on video to provide enhanced navigation for the spacecraft during flight tests from to It used the LandForm software whuich was useful for times of limited visibility, including an instance when the video camera window frosted over leaving astronauts to rely on the map overlays.
In the photo at right one can see the map markers indicating runways, air traffic control tower, taxiways, and hangars overlaid on the video. AR can augment the effectiveness of navigation devices. Information can be displayed on an automobile's windshield indicating destination directions and meter, weather, terrain, road conditions and traffic information as well as alerts to potential hazards in their path. Augmented reality may have a positive impact on work collaboration as people may be inclined to interact more actively with their learning environment.
It may also encourage tacit knowledge renewal which makes firms more competitive. AR was used to facilitate collaboration among distributed team members via conferences with local and virtual participants. AR tasks included brainstorming and discussion meetings utilizing common visualization via touch screen tables, interactive digital whiteboards, shared design spaces and distributed control rooms.
In industrial environments, augmented reality is proving to have a substantial impact with more and more use cases emerging across all aspect of the product lifecycle, starting from product design and new product introduction NPI to manufacturing to service and maintenance, to material handling and distribution. For example, labels were displayed on parts of a system to clarify operating instructions for a mechanic performing maintenance on a system.
In addition to Boeing, BMW and Volkswagen were known for incorporating this technology into assembly lines for monitoring process improvements. AR permits people to look through the machine as if with an x-ray, pointing them to the problem right away. As AR technology has evolved and second and third generation AR devices come to market, the impact of AR in enterprise continues to flourish.
In the Harvard Business Review , Magid Abraham and Marco Annunziata discuss how AR devices are now being used to "boost workers' productivity on an array of tasks the first time they're used, even without prior training'. Weather visualizations were the first application of augmented reality in television. It has now become common in weather casting to display full motion video of images captured in real-time from multiple cameras and other imaging devices.
Coupled with 3D graphics symbols and mapped to a common virtual geospatial model, these animated visualizations constitute the first true application of AR to TV. AR has become common in sports telecasting. Sports and entertainment venues are provided with see-through and overlay augmentation through tracked camera feeds for enhanced viewing by the audience. Examples include the yellow " first down " line seen in television broadcasts of American football games showing the line the offensive team must cross to receive a first down.
AR is also used in association with football and other sporting events to show commercial advertisements overlaid onto the view of the playing area. Sections of rugby fields and cricket pitches also display sponsored images. Swimming telecasts often add a line across the lanes to indicate the position of the current record holder as a race proceeds to allow viewers to compare the current race to the best performance.
Other examples include hockey puck tracking and annotations of racing car performance and snooker ball trajectories. Augmented reality for Next Generation TV allows viewers to interact with the programs they are watching. They can place objects into an existing program and interact with them, such as moving them around. Objects include avatars of real persons in real time who are also watching the same program. AR has been used to enhance concert and theater performances.
VR Applications: 21 Industries already using Virtual Reality
Travelers may use AR to access real-time informational displays regarding a location, its features, and comments or content provided by previous visitors. Advanced AR applications include simulations of historical events, places, and objects rendered into the landscape. AR applications linked to geographic locations present location information by audio, announcing features of interest at a particular site as they become visible to the user.
Companies can use AR to attract tourists to particular areas that they may not be familiar with by name. Tourists will be able to experience beautiful landscapes in first person with the use of AR devices. Companies like Phocuswright plan to use such technology to expose lesser known but beautiful areas of the planet, and in turn, increase tourism.
Other companies such as Matoke Tours have already developed an application where the user can see degrees from several different places in Uganda. AR systems such as Word Lens can interpret the foreign text on signs and menus and, in a user's augmented view, re-display the text in the user's language. Spoken words of a foreign language can be translated and displayed in a user's view as printed subtitles. It has been suggested that augmented reality may be used in new methods of music production , mixing , control and visualization.
A tool for 3D music creation in clubs that, in addition to regular sound mixing features, allows the DJ to play dozens of sound samples , placed anywhere in 3D space, has been conceptualized. Leeds College of Music teams have developed an AR app that can be used with Audient desks and allow students to use their smartphone or tablet to put layers of information or interactivity on top of an Audient mixing desk.
ARmony is a software package that makes use of augmented reality to help people to learn an instrument.
In a proof-of-concept project Ian Sterling, an interaction design student at California College of the Arts , and software engineer Swaroop Pal demonstrated a HoloLens app whose primary purpose is to provide a 3D spatial UI for cross-platform devices—the Android Music Player app and Arduino-controlled Fan and Light—and also allow interaction using gaze and gesture control.
AR Mixer is an app that allows one to select and mix between songs by manipulating objects—such as changing the orientation of a bottle or can. In a video, Uriel Yehezkel demonstrates using the Leap Motion controller and GECO MIDI to control Ableton Live with hand gestures and states that by this method he was able to control more than 10 parameters simultaneously with both hands and take full control over the construction of the song, emotion and energy.
A novel musical instrument that allows novices to play electronic musical compositions, interactively remixing and modulating their elements, by manipulating simple physical objects has been proposed. A system using explicit gestures and implicit dance moves to control the visual augmentations of a live music performance that enable more dynamic and spontaneous performances and—in combination with indirect augmented reality—leading to a more intense interaction between artist and audience has been suggested.
The ControllAR project allows musicians to augment their MIDI control surfaces with the remixed graphical user interfaces of music software. Snapchat users have access to augmented reality in the company's instant messaging app through use of camera filters. In September , Snapchat updated its app to include a camera filter that allowed users to render an animated, cartoon version of themselves called " Bitmoji ". These animated avatars would be projected in the real world through the camera, and can be photographed or video recorded.
This new feature makes use of augmented reality to alter the look of a picture taken of the sky, much like how users can apply the app's filters to other pictures. Users can choose from sky filters such as starry night, stormy clouds, beautiful sunsets, and rainbow. Furthermore, more than one in three surveyed advanced Internet users would like to edit out disturbing elements around them, such as garbage or graffiti. So it seems that AR is as much a threat to companies as it is an opportunity.
Although, this could be a nightmare to numerous brands that do not manage to capture consumer imaginations it also creates the risk that the wearers of augmented reality glasses may become unaware of surrounding dangers. Consumers want to use augmented reality glasses to change their surroundings into something that reflects their own personal opinions. Around two in five want to change the way their surroundings look and even how people appear to them.
Next, to the possible privacy issues that are described below, overload and over-reliance issues are the biggest danger of AR. For the development of new AR-related products, this implies that the user-interface should follow certain guidelines as not to overload the user with information while also preventing the user from over-relying on the AR system such that important cues from the environment are missed.
The concept of modern augmented reality depends on the ability of the device to record and analyze the environment in real time. Because of this, there are potential legal concerns over privacy. While the First Amendment to the United States Constitution allows for such recording in the name of public interest, the constant recording of an AR device makes it difficult to do so without also recording outside of the public domain. Legal complications would be found in areas where a right to a certain amount of privacy is expected or where copyrighted media are displayed.
Thinking Virtually Creates Your Reality
In terms of individual privacy, there exists the ease of access to information that one should not readily possess about a given person. This is accomplished through facial recognition technology. Assuming that AR automatically passes information about persons that the user sees, there could be anything seen from social media, criminal record, and marital status.
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