Introducing SHAPE: Scalable Highly Augmented Physical Environment

This screenshot is an example of a  virtual environment augmented with proxy objects created using rt-xr. However, this was always intended to be a VR precursor for an AR solution now called SHAPE – Scalable Highly Augmented Physical Environment. The difference is that the virtual objects being used to augment the virtual environment shown above (such as whiteboards, status displays, sticky notes, camera screens and other static virtual objects in this case) are used to augment real physical environments with a primary focus on scalability and local collaboration for physically present occupants. The intent is to open source SHAPE in the hope that others might like to contribute to the framework and/or contribute virtual objects to the object library.

Some of the features of SHAPE are:

  • SHAPEs are designed for collaboration. Multiple AR device users, present in the same space are able to interact with virtual objects just like real objects with consistent state maintained for all users.
  • SHAPE users can be grouped so that they see different virtual objects in the same space depending on their assigned group. A simple example of this would be where virtual objects are customized for language support – the virtual object set instantiated would then depend on the language selected by a user.
  • SHAPEs are scalable because they minimize the loading on AR devices. Complex processing is performed using a local edge server or remote cloud. Each virtual object is either static (just for display) or else can be connected to a server function that drives the virtual object and also receives interaction inputs that may modify the state of the virtual object, leaving the AR device to display objects and pass interaction events rather than performing complex functions on-device. Reducing the AR device loading in this way extends battery life and reduces heat, allowing devices to be used for longer sessions.
  • There is a natural fit between SHAPE and artificial intelligence/machine learning. As virtual objects are connected to off-device server functions, they can make use of inference results or supply data for machine learning derived from user interactions while leveraging much more powerful capabilities than are practical on-device.
  • A single universal app can be used for all SHAPEs. Any virtual objects needed for a particular space are downloaded at run time from an object server. However, there would be nothing stopping the creation of a customized app that included hard-coded assets while still leveraging the rest of SHAPE – this might be useful in some applications.
  • New virtual objects can be instantiated by users of the space, configured appropriately (including connection to remote server function) and then made persistent in location by registering with the object server.

A specific goal is to be able to support large scale physical environments such as amusement parks or sports stadiums, where there may be a very large number of users distributed over a very large space. The SHAPE system is being designed to support this level of scalability while being highly responsive to interaction.

In order to turn this into reality, the SHAPE concept requires low cost, lightweight AR headsets that can be worn for extended periods of time, perform reliable spatial localization in changing outdoor environments while also providing high quality, wide angle augmentation displays. Technology isn’t there yet so initially development will use iPads as the AR devices and ARKit for localization. Using iPads for this purpose isn’t ideal ergonomically but does allow all of the required functionality to be developed. When suitable headsets do become available, SHAPE will hopefully be ready to take advantage of them.

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