Mixed Reality is the integration of real world with the virtual world which brings out an all-new visualisation platform where physical and digital objects do exist in the real time which includes sight, sound and touch just as in real world. Mixed reality takes the data captured by IoT and AI systems and helps workers visualise it in real time on the job.

It’s beyond the implementations of the analytics and real time model feedback including artificial intelligence. When used to classify the larger scope of reality technologies, it refers to the coverage of all possible variations and compositions of real and virtual objects.

There are two main types of devices that deliver Mixed Reality experiences:

  1. Holographic Devices
  2. Immersive Devices

Holographic devices Holographic display uses diffraction to create a virtual 3-D image of objects which differ with other types of 3D imaging as they don’t require any help of other device to visualise the image. Devices which are mainly developed to create this virtual 3D image viewing are named as holographic devices. Certain technologies are used to implement it-

– Laser

– Electro holography.

– Full parallax

Types of Holographic displays –

  1. Laser Plasma
  2. Holographic television display
  3. Touchable hologram display.
  4. Micro magnetic Piston Display

Holographic devices allows users to witness physical environment while using the devices like wearing the headsets to have a full degree movement which includes transnational and rotational direction too.

Immersive devices – Once a headset is wore and user’s space is identified then the app will totally ignore the current user’s space. By neglecting the current environment the immersive environment will indulge in rotational and transitional direction too.For instance if a person wants to tour in a restaurant in Italy in an immersive environment he will experience it just by in the real world itself.

How does it works?


First of all a 3D structure of present surrounding is generated by scanning it so to check where to place the contents in spatial memory to have an interaction with the real world. The use of transparent lenses, spatial sound and an understanding of physical environment will allow holograms to look, sound and behave like real objects that are able to interact with the environment around them and also with each other.

Daily life uses –

— In an office space mixed reality app will guide to find a way we are looking for.

— For getting a vision of a X-ray report with the aid of mixed reality app.

— One among the daily used mixed reality application would be implementing it in a television set to adjust  a comfortable spot for watching.

— Various social apps can be helped with mixed reality.

— Not only had this, like every other applications mixed reality come into form in gaming as well.

Mixed reality maps and recognises user’s present environment by getting a user get immersed in the environment by overlaying the digital layer by the user’s space. There comes a concept called blended environment the concept it focus mainly is on a user’s specific feature like only the environment the user is in or the movements made by user likewise which eventually may sometime change the objects totally. For instance by sitting on a classroom a user can experience the environment of a discotheque.

The architecture uses a data flow methodology with an object-oriented design and using an object store based on UNIX filesystem semantics to provide a simple model for programmers to use to write applications. Using these concepts, a number of powerful features such as distributed programming, persistent storage, and run time configuration are possible. These are overcome using a variety of techniques to develop efficient applications that operate on a wide range of mobile computers.