WebVR:

Virtual Reality

on Web Pages

Eric Dougherty

SURF 2016

High Performance Computing and Visualization Group

Mobile VR

Google Cardboard,

Samsung Gear, etc.

Uses easily accessible technology

Tracks movement with gyroscope

Interaction is limited

Lower quality

Full Scale VR

HTC Vive,

Oculus Rift, etc.

Dedicated equipment

Requires PC with

high-end hardware

Utilizes HMD and

tracking camera

Input controllers

High quality output

Browser Based VR

Common link between

all VR hardware

WebVR API

Experimental Chromium

builds & Firefox Nightly

Polyfill for other browsers

Leap Motion Controller

Hand tracking

Object interaction

Gesture controls

360 Degree Video Recording

Ricoh Theta

Kodak PIXPRO SP360

video processing

Stitching

Equirectangular

A-Frame

MozVR Team

Built on three.js - a

Javascript 3D graphics library

DOM interface

Utilizes custom

HTML elements

Entity-component-system Model

Entity-Component-System

Entity - object without properties

Component - module that provides some function for an entity

System - global management of entities and their components

<!-- Basic entity, nothing to render -->

<a-entity></a-entity>




<!-- Entity with the geometry component. Geometry has primitive shape properties, 
width, height, etc. -->

<a-entity geometry="primitive: box; width: 1; height: 1; depth: 1"></a-entity>

Interaction Challenges

Where are my hands?

-Leap Motion

-Vive controllers

Where's my keyboard?

-WASD for movement

-Mouse clicks

Where am I looking?

-Gaze based interaction

-Targeting reticle 

3D Model Editing

Format conversion

Model separation

Issues with

A-frame

Linking Video Environments

'Travel' between videospheres

Methods of interaction

-video orbs

-ground markers

-VR is accesible on the web now thanks to A-frame

-360 video is possible with a reasonable budget, but high quality is not cheap

-Will take some time to unify the VR interface across different devices

Summary

Image credits:

Title: http://www.polygon.com/2016/1/5/10719326/nvidia-virtual-reality-performance-power

Mobile VR: https://www.linkedin.com/pulse/do-you-think-mobile-vr-virtual-reality-future-philippe-trebaul

Full Scale VR: http://www.tomshardware.com/reviews/htc-vive-virtual-reality-hmd,4519.html

Leap: https://www.pubnub.com/blog/2015-08-19-motion-controlled-servos-with-leap-motion-raspberry-pi/

360 Deg: http://hypebeast.com/2014/10/kodak-introduces-the-360-degree-pixpro-sp360-action-camera  http://www.yzlifesb.com/product/ricoh-theta-m15 https://www.thinglink.com/scene/734431545758056448

Video processing: https://flic.kr/p/DMGkdW A-Frame: https://aframe.io/ e-c-s: http://ngokevin.com/blog/aframe-vs-3dml/

Interaction Challenges: https://www.engadget.com/2016/04/05/htc-vive-review/ Linking Video: http://elevr.com/vr-world-nav/

Thanks to Sandy Ressler for all his assistance and direction throughout the summer

Thanks to NIST, Division 771, the High Performance Computing and Visualization group, and especially all the SURF directors for making this program possible!