Hp Mixed Reality Headset System Requirements
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Walk-Centric User Interfaces for Mixed Reality
Walk-Centric User Interfaces for Mixed Reality Wallace Santos Lages Dissertation submitted to the faculty of the Virginia Polytechnic Institute and State University in partial fulfillment of the requirements for the degree of Doctor of Philosophy In Computer Science and Applications Doug A. Bowman, Committee Chair Joe Gabbard Tobias Höllerer Chris L. North Nicholas F. Polys June 22, 2018 Blacksburg, Virginia Keywords: Augmented Reality, Virtual Reality, 3D User Interfaces Copyright © 2018 by Wallace Santos Lages Walk-Centric User Interfaces for Mixed Reality Wallace Santos Lages ABSTRACT Walking is a natural part of our lives and is also becoming increasingly common in mixed reality. Wireless headsets and improved tracking systems allow us to easily navigate real and virtual environments by walking. In spite of the benefits, walking brings challenges to the design of new systems. In particular, designers must be aware of cognitive and motor requirements so that walking does not negatively impact the main task. Unfortunately, those demands are not yet fully understood. In this dissertation, we present new scientific evidence, interaction designs, and analysis of the role of walking in different mixed reality applications. We evaluated the difference in performance of users walking vs. manipulating a dataset during visual analysis. This is an important task, since virtual reality is increasingly being used as a way to make sense of progressively complex datasets. Our findings indicate that neither option is absolutely better: the optimal design choice should consider both user’s experience with controllers and user’s inherent spatial ability. Participants with reasonable game experience and low spatial ability performed better using the manipulation technique. -
Latest Features Available from the Windows 10 Updates That Could Be Beneficial for Students & Businesses Based Within the Milwaukee Area
Latest features available from the windows 10 updates that could be beneficial for students & businesses based within the Milwaukee area By: Jeremy Konetz | November 20, 2018 | Informative Article What are some of the benefits that the latest windows 10 updates provide to students and Milwaukee area-based businesses? Note the last three updates made available through windows 10 updates are windows 10 version 1709 (Released: January 23, 2018), windows 10 version 1803 (Released: July 6, 2018), and windows 10 version 1809 (Released: October 1, 2018). What are some of the beneficial updates provided in the Windows 10 update version 1709 released on January 23, 2018, one of the first updates Windows 10 released this year. What are the areas that this update has improved on? 1) Deployment a. Launching the autopilot application. i. Accomplished through a zero-touch experience. Example shown in figure 1. Figure 1 Resource link: https://docs.microsoft.com/en-us/windows/whats-new/whats-new-windows-10- version-1709 ii. Client or organization profile configuration can be accomplished at the vendor with the devices sent directly to them upon completion. Example shown in figure 2. Figure 2 1 Resource link: https://docs.microsoft.com/en-us/windows/whats-new/whats-new-windows-10- version-1709 b. Activation on subscription to windows 10. i. Feature allows for Windows 10 enterprise to be deployed within an organizational networks structure without applying any keys or rebooting of devices or components within an organizations operational system. See figure 3. Figure 3 1 Resource link: https://docs.microsoft.com/en-us/windows/whats-new/whats-new-windows-10- version-1709 ii. -
View the Manual
Base game Manual V0.4 Environment Remove any objects in the playing area that you might touch or hit while playing with your body. Please also make sure that lamps or fans are not in the playing area. If you are at the edge of the playing area, do not make any big movements, otherwise you could touch the walls with your body or hands/controllers. It is best to stand. Step movements are not necessary during the game. You can move and rotate completely with the controllers. Technical requirements To play the game, you need Virtual Reality headset (VR headset). Without VR glasses, the game will not run. A (free) Steam account is also required. Also installed must be the VR software "SteamVR" (when using HTC VIVE or the Valve Index) or the additional software "Windows Mixed Reality for SteamVR" for the use of Windows Mixed Reality glasses on Steam with "SteamVR". Before the first launch, a room measuring should also have been done in SteamVR (when using the HTC VIVE or the Valve Index). When using Windows Mixed Reality glasses, there is an option to change the position of the floor from the height. The controllers of the VR headset should also be connected to the VR system and be charged. The game Container You start the game in the container and go to the selected construction site through the door. Later, you can start different locations here depending on the existing DLC. You can now set options to one of the boards by moving the switch accordingly. -
VR Headset Comparison
VR Headset Comparison All data correct as of 1st May 2019 Enterprise Resolution per Tethered or Rendering Special Name Cost ($)* Available DOF Refresh Rate FOV Position Tracking Support Eye Wireless Resource Features Announced Works with Google Subject to Mobile phone 5.00 Yes 3 60 90 None Wireless any mobile No Cardboard mobile device required phone HP Reverb 599.00 Yes 6 2160x2160 90 114 Inside-out camera Tethered PC WMR support Yes Tethered Additional (*wireless HTC VIVE 499.00 Yes 6 1080x1200 90 110 Lighthouse V1 PC tracker No adapter support available) HTC VIVE PC or mobile ? No 6 ? ? ? Inside-out camera Wireless - No Cosmos phone HTC VIVE Mobile phone 799.00 Yes 6 1440x1600 75 110 Inside-out camera Wireless - Yes Focus Plus chipset Tethered Additional HTC VIVE (*wireless tracker 1,099.00 Yes 6 1440x1600 90 110 Lighthouse V1 and V2 PC Yes Pro adapter support, dual available) cameras Tethered All features HTC VIVE (*wireless of VIVE Pro ? No 6 1440x1600 90 110 Lighthouse V1 and V2 PC Yes Pro Eye adapter plus eye available) tracking Lenovo Mirage Mobile phone 399.00 Yes 3 1280x1440 75 110 Inside-out camera Wireless - No Solo chipset Mobile phone Oculus Go 199.00 Yes 3 1280x1440 72 110 None Wireless - Yes chipset Mobile phone Oculus Quest 399.00 No 6 1440x1600 72 110 Inside-out camera Wireless - Yes chipset Oculus Rift 399.00 Yes 6 1080x1200 90 110 Outside-in cameras Tethered PC - Yes Oculus Rift S 399.00 No 6 1280x1440 90 110 Inside-out cameras Tethered PC - No Pimax 4K 699.00 Yes 6 1920x2160 60 110 Lighthouse Tethered PC - No Upscaled -
Virtual Reality Headsets
VIRTUAL REALITY HEADSETS LILY CHIANG VR HISTORY • Many companies (Virtuality, Sega, Atari, Sony) jumped on the VR hype in the 1990s; but commercialization flopped because both hardware and software failed to deliver on the promised VR vision. • Any use of the VR devices in the 2000s was limited to the military, aviation, and medical industry for simulation and training. • VR hype resurged after Oculus successful KickStarter campaign; subsequently acquired by Facebook for $2.4 bn. • Investments rushed into the VR industry as major tech firms such as Google, Samsung, and Microsoft and prominent VC firms bet big on the VR revolution. LIST OF VIRTUAL REALITY HEADSET FIRMS Company Name Entered Exited Disposition Company Name Entered Exited Disposition Company Name Entered Exited Disposition LEEP Optics 1979 1998 Bankrupt Meta Altergaze 2014 Ongoing VPL Research 1984 1990 Bankrupt SpaceGlasses 2012 Ongoing Archos VR 2014 Ongoing Division Group Sulon Cortex 2012 Ongoing AirVr 2014 Ongoing LTD 1989 1999 Acquired Epson Moverio Sega VR 1991 1994 Bankrupt BT-200 2012 Ongoing 360Specs 2014 Ongoing Virtuality 1991 1997 Acquired i2i iPal 2012 Ongoing Microsoft VictorMaxx 1992 1998 Bankrupt Star VR 2013 Ongoing Hololens Systems 2015 Ongoing Durovis Dive 2013 Ongoing Razr OSVR 2015 Ongoing Atari Jaguar VR 1993 1996 Discontinued Vrizzmo 2013 Ongoing Virtual I-O 1993 1997 Bankrupt Cmoar 2015 Ongoing CastAR 2013 Ongoing eMagin 1993 Ongoing Dior Eyes VR 2015 Ongoing VRAse 2013 Ongoing Virtual Boy 1994 1995 Discontinued Yay3d VR 2013 Ongoing Impression Pi -
HTC VIVE Pro Secure 99HASK000-00 Graphics: NVIDIA® Geforce® GTX 970 Or AMD Radeon™ R9 290 Equivalent Or Better
Secure Professional-Grade VR Professional-grade VR designed for sensitive environments that require Authority To Operate (ATO). The system also features top-tier graphics, premium audio, and SteamVR™ room-scale tracking. VIVE® Pro Secure™ can go where others cannot. It’s a secure setup for serious results. Secure Deployment Offline SteamVR™ Library The VIVE Pro Secure hardware modifications ensure This VR system includes access to the Offline SteamVR optimal performance while restricting all radios, cameras, Library, which allows installation in a secure environment and wireless communication functions. where the machine is not connected to the internet. Even if a machine is connected to the internet, the installer will not send or receive any data online. Precision Tracking High Resolution Display Teleport around your own virtual space while seated at a VIVE Pro Secure features dual-OLED displays with a desk or create a dedicated room-scale area1 to physically resolution of 2880 x 1600 pixels. This makes graphics, walk around. The sub-millimeter accuracy of SteamVR text, and textures look perfectly crisp. It provides the Tracking provides the best experience possible. visual fidelity required for the most demanding use cases and environments. Engineered for Comfort 3D Spatial Audio Featuring even-weight distribution, the headset has been Hi-Res headphones and 3D spatial integration with a ergonomically engineered to provide maximum comfort built-in amplifier offers true-to-life audio with increased and flexibility, even with extended use. It adjusts easily to volume and resonance. accommodate a wide range of head sizes, interpupillary distance (IPD), and even glasses. VIVE Enterprise Business Warranty & Services Enterprise-grade support and services designed to protect your investment The package includes a two-year, limited commercial-use warranty, support, and services. -
Windows 10-New Features & Apps
Windows 10-New Features & Apps By Tom Krauser This article discusses some of the new features and apps that come packaged in Windows 10. It is only a brief summary of these features. For more information you can search the internet or check YouTube for instructional videos on your topic of interest. The following links provide some good basic information on Windows 10 and should be helpful to you. https://support.microsoft.com/en-us/products/windows?os=windows-10 https://support.microsoft.com/en-us/help/4043948/windows-10-whats-new-in-fall-creators-update-1709 The following article from PC World Magazine provides articles on a lot of new features in Windows 10. https://www.pcworld.com/tag/windows10/ The following article by CNET discusses some of new features in the latest update to Windows 10. https://www.cnet.com/how-to/windows-10-tips-best-features/ Alarms & Clocks: A combination of alarm clock, world clock, timer, and stopwatch. Set alarms and reminders, check times around the world, and time your activities, including laps and splits. The following link discusses how to set timers, alarms, and stopwatches: https://www.howtogeek.com/225211/how-to-set-timers-alarms-and-stopwatches-in-windows-10/ Camera: Many modern devices with Windows include a webcam and, to use it, you need an app that helps you take pictures, record videos or stream video while video chatting. For this purpose, Microsoft has built an app called Camera, which is available by default in Windows 10. Connect: Use Connect App to Cast Your Smartphone Screen to Your PC. -
PROGRAMS for LIBRARIES Alastore.Ala.Org
32 VIRTUAL, AUGMENTED, & MIXED REALITY PROGRAMS FOR LIBRARIES edited by ELLYSSA KROSKI CHICAGO | 2021 alastore.ala.org ELLYSSA KROSKI is the director of Information Technology and Marketing at the New York Law Institute as well as an award-winning editor and author of sixty books including Law Librarianship in the Age of AI for which she won AALL’s 2020 Joseph L. Andrews Legal Literature Award. She is a librarian, an adjunct faculty member at Drexel University and San Jose State University, and an international conference speaker. She received the 2017 Library Hi Tech Award from the ALA/LITA for her long-term contributions in the area of Library and Information Science technology and its application. She can be found at www.amazon.com/author/ellyssa. © 2021 by the American Library Association Extensive effort has gone into ensuring the reliability of the information in this book; however, the publisher makes no warranty, express or implied, with respect to the material contained herein. ISBNs 978-0-8389-4948-1 (paper) Library of Congress Cataloging-in-Publication Data Names: Kroski, Ellyssa, editor. Title: 32 virtual, augmented, and mixed reality programs for libraries / edited by Ellyssa Kroski. Other titles: Thirty-two virtual, augmented, and mixed reality programs for libraries Description: Chicago : ALA Editions, 2021. | Includes bibliographical references and index. | Summary: “Ranging from gaming activities utilizing VR headsets to augmented reality tours, exhibits, immersive experiences, and STEM educational programs, the program ideas in this guide include events for every size and type of academic, public, and school library” —Provided by publisher. Identifiers: LCCN 2021004662 | ISBN 9780838949481 (paperback) Subjects: LCSH: Virtual reality—Library applications—United States. -
Augmented Reality, Virtual Reality, & Health
University of Massachusetts Medical School eScholarship@UMMS National Network of Libraries of Medicine New National Network of Libraries of Medicine New England Region (NNLM NER) Repository England Region 2017-3 Augmented Reality, Virtual Reality, & Health Allison K. Herrera University of Massachusetts Medical School Et al. Let us know how access to this document benefits ou.y Follow this and additional works at: https://escholarship.umassmed.edu/ner Part of the Health Information Technology Commons, Library and Information Science Commons, and the Public Health Commons Repository Citation Herrera AK, Mathews FZ, Gugliucci MR, Bustillos C. (2017). Augmented Reality, Virtual Reality, & Health. National Network of Libraries of Medicine New England Region (NNLM NER) Repository. https://doi.org/ 10.13028/1pwx-hc92. Retrieved from https://escholarship.umassmed.edu/ner/42 Creative Commons License This work is licensed under a Creative Commons Attribution-Noncommercial-Share Alike 4.0 License. This material is brought to you by eScholarship@UMMS. It has been accepted for inclusion in National Network of Libraries of Medicine New England Region (NNLM NER) Repository by an authorized administrator of eScholarship@UMMS. For more information, please contact [email protected]. Augmented Reality, Virtual Reality, & Health Zeb Mathews University of Tennessee Corina Bustillos Texas Tech University Allison Herrera University of Massachusetts Medical School Marilyn Gugliucci University of New England Outline Learning Objectives Introduction & Overview Objectives: • Explore AR & VR technologies and Augmented Reality & Health their impact on health sciences, Virtual Reality & Health with examples of projects & research Technology Funding Opportunities • Know how to apply for funding for your own AR/VR health project University of New England • Learn about one VR project funded VR Project by the NNLM Augmented Reality and Virtual Reality (AR/VR) & Health What is AR and VR? F. -
Effects of Controller-Based Locomotion on Player
Effects of Controller-based Locomotion on Player Experience in a Virtual Reality Exploration Game Julian Frommel, Sven Sonntag, Michael Weber Institute of Media Informatics, Ulm University James-Franck Ring Ulm, Germany {firstname.lastname}@uni-ulm.de ABSTRACT 1 INTRODUCTION Entertainment and in particular gaming is currently consid- With the recent release of several consumer grade VR HMDs, ered one of the main application scenarios for virtual reality there has been growing interest in the design and development (VR). The majority of current games rely on any form of loco- of VR games. As a result, player experience research has been motion through the virtual environment while some techniques increasingly concerned with interaction in VR gaming. Games can lead to simulator sickness. Game developers are currently in general as well as VR games frequently require that the implementing a wide variety of locomotion techniques to cope player can move from one position to another. While providing with simulator sickness (e.g. teleportation). In this work we such an interaction is easy in non-VR games it can be quite implemented and evaluated four different controller-based challenging for VR games. Although locomotion is possible locomotion methods that are popular in current VR games for roomscale VR systems like the HTC Vive [12] the available (free teleport, fixpoint teleport, touchpad-based, automatic). space is too limited for the requirements of a lot of games. We conducted a user study (n = 24) in which participants Therefore, game developers employ many different approaches explored a virtual zoo with these four different controller-based to provide locomotion for players. -
(VR): a Case Study of the HTC Vive Pro Eye's Usability
healthcare Article Eye-Tracking for Clinical Ophthalmology with Virtual Reality (VR): A Case Study of the HTC Vive Pro Eye’s Usability Alexandra Sipatchin 1,*, Siegfried Wahl 1,2 and Katharina Rifai 1,2 1 Institute for Ophthalmic Research, University of Tübingen, 72076 Tübingen, Germany; [email protected] (S.W.); [email protected] (K.R.) 2 Carl Zeiss Vision International GmbH, 73430 Aalen, Germany * Correspondence: [email protected] Abstract: Background: A case study is proposed to empirically test and discuss the eye-tracking status-quo hardware capabilities and limitations of an off-the-shelf virtual reality (VR) headset with embedded eye-tracking for at-home ready-to-go online usability in ophthalmology applications. Methods: The eye-tracking status-quo data quality of the HTC Vive Pro Eye is investigated with novel testing specific to objective online VR perimetry. Testing was done across a wide visual field of the head-mounted-display’s (HMD) screen and in two different moving conditions. A new automatic and low-cost Raspberry Pi system is introduced for VR temporal precision testing for assessing the usability of the HTC Vive Pro Eye as an online assistance tool for visual loss. Results: The target position on the screen and head movement evidenced limitations of the eye-tracker capabilities as a perimetry assessment tool. Temporal precision testing showed the system’s latency of 58.1 milliseconds (ms), evidencing its good potential usage as a ready-to-go online assistance tool for visual loss. Conclusions: The test of the eye-tracking data quality provides novel analysis useful for testing upcoming VR headsets with embedded eye-tracking and opens discussion regarding expanding future introduction of these HMDs into patients’ homes for low-vision clinical usability. -
LPVR-CAD Manual
LPVR-CAD Manual Version 2.5 1 CONTENTS Version History ........................................................................................................................................................ 3 Overview ................................................................................................................................................................. 4 System Versions .................................................................................................................................................. 5 LPVR Middleware DETAILS .................................................................................................................................. 5 Driver Implementation ............................................................................................................................................ 6 SteamVR Driver Wrapper .................................................................................................................................... 6 Tracking And Sensor Fusion ................................................................................................................................ 7 System Setup ........................................................................................................................................................... 8 Hardware Installation ......................................................................................................................................... 8 Driver Setup .......................................................................................................................................................