SBIR-STTR Award

HYPERTUNNEL - A MR/VR Remote Collaboration System
Award last edited on: 2/26/2019

Sponsored Program
SBIR
Awarding Agency
DOE
Total Award Amount
$1,199,961
Award Phase
2
Solicitation Topic Code
05a
Principal Investigator
Eduardo Neeter

Company Information

FactualVR Inc

350 Warren Street Suite #6
Jersey City, NJ 07302
   (201) 942-5112
   N/A
   www.factualvr.com
Location: Single
Congr. District: 08
County: Hudson

Phase I

Contract Number: DE-SC0018732
Start Date: 7/2/2018    Completed: 4/1/2019
Phase I year
2018
Phase I Amount
$149,961
An important challenge electric utilities will face in the foreseeable future is a workforce that is rapidly retiring and the resulting loss of institutional knowledge. This will also create a vulnerability in the electric grid, especially during widespread power outages where recovery efforts rely on a team of well-trained and experienced personnel. Disasters like Hurricane Maria in Puerto Rico highlight how brittle infrastructure can be, as well as the strong dependency on knowledgeable workforce to successfully recuperate. The recovery time for this particular case is far from acceptable. During these critical situations, even if we had unlimited budget, it would be wastefully inefficient to have the small number of available experts physically travel to several locations to support recovery. We propose a Virtual Reality (VR) remote collaboration system to enable technicians in the field to summon an expert by opening a sort of "wormhole" that connects two disparate physical locations into a shared virtual environment where both expert and novice technicians can collaborate and provide guidance and instructions on the task at hand - like being next to each other, side by side. The project aims to develop a software prototype for the underlying VR environment and the required user interface for the relevant use cases, while leveraging commercially available hardware and software, like photogrammetry, 3D scanners and immersive VR displays and input devices. Our solution will enable a small number of experienced-personnel to guide, train and supervise the electric utility workforce of the future. It will allow one person to remotely guide and instruct multiple technicians and crews across widespread locations by virtually moving from one remote location to another in a matter of seconds, maximizing their ability to contribute in disaster recovery efforts, etc.

Phase II

Contract Number: DE-SC0018732
Start Date: 8/19/2019    Completed: 8/18/2021
Phase II year
2019
Phase II Amount
$1,050,000
An important challenge electric utilities will face in the foreseeable future is a workforce that is rapidly retiring and the resulting loss of institutional knowledge.This will also create a vulnerability in the electric grid, especially during widespread power outages where recovery efforts rely on a team of well-trained and experienced personnel.Disasters like Hurricane Maria in Puerto Rico highlight how brittle infrastructure can be, as well as the strong dependency on knowledgeable workforce to successfully recuperate.The recovery time for this particular case is far from acceptable.During these critical situations, even if we had unlimited budget, it would be wastefully inefficient to have the small number of available experts physically travel to several locations to support recovery.We propose a Virtual Reality (VR) remote collaboration system to enable technicians in the field to summon an expert by opening a sort of "wormhole" that connects two disparate physical locations into a shared virtual environment where both expert and novice technicians can collaborate and provide guidance and instructions on the task at hand - like being next to each other, side by side.The project aims to develop a software prototype for the underlying VR environment and the required user interface for the relevant use cases, while leveraging commercially available hardware and software, like photogrammetry, 3D scanners and immersive VR displays and input devices.Our solution will enable a small number of experienced-personnel to guide, train and supervise the electric utility workforce of the future.It will allow one person to remotely guide and instruct multiple technicians and crews across widespread locations by virtually moving from one remote location to another in a matter of seconds, maximizing their ability to contribute in disaster recovery efforts, etc.