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README.md |
BCI RPG
Brain-Computer Interface Role-Playing Game
Electronic Role-playing Game (ERPG) development efforts by the RPG Research community
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Brain-Computer Interface Controlled Role-Playing Games
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Introduction
RPG Research is a huge advocate for accessibility and inclusiveness in gaming. Not only through all of our training, advocacy, and accessible mobile facilities, but through our active projects to make gaming accessible to all. RPG Research is a 501(c)3 100% volunteer-run non-profit research charitable research and human services organization. More about RPG Research.
Main website: www.bcirpg.com - alias: https://www.rpgresearch.com/bcirpg
The opensource github repository: https://github.com/RPG-Research/erpg
The project Wiki: https://github.com/RPG-Research/erpg/wiki
Background History
RPG Research's founder, Hawke Robinson, was first involved with role-playing games in 1977, softwware development starting around 1978, and online since 1979. He began software development and engaging in the online community in 1979 (through the early pre-Internet ARPANET and dial-up access via the University of Utah) and various BBSes.
He has been involved with VR equipment and software on and off since the late 1980s using Amigas, VRML websites in the 90s, (still has working Amiga 2000) and other equipment over the decades. Developed Virtual-Reality Markup Language (VRML) websites in the mid-to-late-90s.
Experimenting with early VR and AR in the late 90s and early 2000s with early PDAs and "smartphones" long before iOS and Android existed (Nokia, Palm phones, etc), combined with early location and GPS technologies.
Experimenting with biofeedback and bio-controlled devices since 1996 (a la mouse cursor controlled by single fingertip clip for example).
Since about 2005 working on integration of electroencephalogram (EEG) and later brain-computer interface (BCI) equipment with computers, mobile devices, VR, and AR. Experimenting with a wide range of VR and AR hardware and software, including used in educational, artistic, social, and therapeutic programs.
LIS & CLIS - Locked In Syndrome and Complete Locked in State
Our founder was dramatically motivated to try to find a solution for those people suffering from Locked-in Syndrome (LIS) and Complete Locked-in State (CLIS), starting with caring for a young adult in 1990 as a nurse's aide and LPN trainee, at Doxie Hatch Medical Center, and additionally for many others with various injuries and neurological disorders as a habilitation therapist at Hillcrest Care Center. Ever since he has wanted to figure out a way to use technology to help them reconnect socially, set them free of their physical prisons of the active minds trapped in their bodies, and gain back some of their lives.
The goal, and real-world metrics test, is if someone with profound disabilities, including experiencing locked-in syndrome (LIS) or complete locked-in state (CLIS), can be freed from their prison to engage socially in complex multiplayer social cooperative problem-solving role-playing games.
Program phases and updates on our live streams and Github: https://github.com/RPG-Research/
Ultimate in RPG Accessibility and Immersion
The ultimate in accessibility potential is through the Brain-Computer Interface (BCI) technologies based on Electroencephalogram (EEG) technologies, integrating with AR & VR, (and eventually back into the physical world through robotics), literally allowing a person to interface with computer systems purely with the thoughts of their brain.
Also, when linked with haptics, robotics, AR, VR, and other technologies it is the potential in ultimate immersive experiences.
We have been hard at work experimenting with EEG and BCI equipment with music and RPGs since 2004.
Since 2019 our research and development team have been working on Project Ilmatar - https://github.com/rpgresearch/erpg/wiki - an opensource, online, multiplayer, turn-based, cooperative-play, electronic, role-playing game designed from the ground up for maximal accessibility including BCI control support.
Update Fall 2020, migrated to organization Github, moving our content from the previous individual Git: https://github.com/RPG-Research
As usual, our projects are little-known, long-running, and have almost no funding. It is thanks to our wonderful volunteers worldwide that we accomplish anything. We hope some day perhaps to have more support financially, but for now we keep leading in innovations thanks to the wonderful efforts of these generous people helping a few hours every week, and we share openly with the world in the truest form of opensource, following our philosophy of "the rising tide of shared knowledge floats all boats" to help improve the human condition globally.
While the software is free, the hardware we have to purchase to realize this technology fully is expensive. We are currently utilizing OpenBCI which still costs from hundreds to even thousands of dollars per headset. The RPG Research board approved $2,500 USD to purchase the full R&D bundle from OpenBCI. We are now working from two directions. The software side and the hardware side, working toward full integration.
We also hope to loop back from the virtual world and integrate robotic devices controlled through BCI equipment to enable participants with disabilities to more fully engage in all role-playing game formats.
We stream the development meetings live each week on Saturdays from 10 am to Noon PST8PDT: https://youtube.com/rpgresearch
If you miss the live stream, Patreon supporters get access to the recorded videos at least a month before the general public as a thank you for their donation support. https://patreon.com/rpgresearch
High-level Roadmap Development Phases
Phase 0 - EEG I/O controllers in NWN on LInux
learn basics of EEG, bio-and-neuro feedback, and computer interaction, then attempt to replace regular keyboard or other I/O controls for PC-based video game (preferably on Linux due to more flexiiblity of I/O controls) and play game with only EEG and/or bio-monitoring inputs. Start with NeverWinter Nights on Linux. - Complete
Phase 1 - Game design prototype in NWN:EE on LInux with EEG/BCI for I/O
Train new development team on game dev concepts desired with prototype use of Aurora Toolset for NWN. Create new adventure module that will be used as test bed for future prototypes. Choose Shakespeare's The Tempest.. Experiment with controls using EEG and BCI equipment with the Enhanced Edition Neverwinter Nights on Linux. Complete.
Phase 2 - Game from scratch TUI version BCI I/O online turn-based mutiiplayer
Create from scratch a text-only multiplayer online turn-based cooperative RPG that can be played with only OpenBCI (or similar) equipment. - Currently nearing end of design and documentation steps, and starting actual coding steps. Will use GUI tools with GoDot engine fhe the GM tools, but play must be all TUI and able to be run with the simple inputs of OpenBCI. Use the same adventure bluebrint as Phase 1. - IN PROGRESS.
Phase 3 - Add GUI
Add basic graphics real-time gaphics or pre-recorded action videos triggered like Dirk the Daring from Dragon's Lair - on top of existing TUI-based game. August 2021: The GUI development has begun for the GM, adventure module, content creation, and server administrator tools. We are remainging with TUI interface for players for now.
Phase 4 - Add VR
Add VR option to the graphical interface.
Phase 5 - Add AR+
Add AR, GPS, global world location play to game. If viable include "holographic" UI options so no glasses, etc. required.
Phase 6 + Add Physical local realm interaction
Migrate BCI tools to work in physical world through robotics and wireless triggers so can interace with combination of AR and physical devices, including manipulating dice roller devices, robotic arms to pick up and move objects, move miniature tokens around enhanced by AR overlaid animation, so LIS/CLIS can play at the same physical table or larp with other players in the same physical location, not just online.
Phase 0 (completed) 2006 - 2014 OpenEEG
NeverWinter Nights (NWN) Diamond Edition on Linux controlled by OpenEEG equipment.
Basic control of PC movement. Routing of I/O through OpenEEG 5 channel headset.
Began 2006, functional by 2010, stopped working on it by 2014.
Very rudimentary movement, and on/off menu (or other on/off assigned hotkey) mapped and working. Not sufficient for LIS/CLIS, but helpful for some disabilities. Very high latency and error rate however.
Need greater resolution of signal, frequency ranges, more CPU power. OpenEEG and civilian system power still leaving something to be desired, but getting closer. Not sufficient for AR/VR addition however.
Phase 1 (completed) 2019 - 2020
NeverWinter Nights (NWN) Enhanced Edition (NWN:EE).
Using Windows for Aurora Toolset module development.
Not using EEG or BCI equipment at this phase. Creating prototype adventure that will be used in Phase 2 onward for baseline R&D.
Development prototyping and team training / team building, ue NWN:EE Aurora Toolset to create custom adventure. Began August 2019, completed August 2020 successfully (still adding enhancements over time). Later see if newer generation OpenBCI can be used.
Phase 1b - (in-progress) - OpenBCI
Is it possible to configure OpenBCI to run this game at, or better than, OpenEEG did for NWN Diamon Edition in Phase 0? - Yes.
It is not expected that full functionality, or multiplayer features will work. But hoping that the 16-channel higher quality setup may make solo play viable. - Yes, especially if taking menu-driven approach rather than free-range movement approach (at least initially).
Phase 2 (in-progress) 2020 - Current
Scope and build from ground-up electronic role-playing game (ERPG) that can be controlled by accessibility equipment, especially newer generation EEG/BCI equipment, such as the OpenBCI hardware (among others).
OpenBCI
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GoDot
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Text-based UI (TUI)
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Brain-computer Interface controlled text-only turn-based menu-driven.
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BCI RPG Game player, Player Text User Interface
Features Scope
Electronic role-playing game that can be played with many different adaptive devices but MUST be fully playable (without chat) using only the human brain of the player(s) (BCI). Ultimately must be playable by LIS/CLIS population.
BCI-controlled
Online
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Multi-player
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Cooperative Team-focused
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Turn-based
Turn-selection process in noncombat situations for online multi-player turned based life real-time brain-computer interface controlled role-playing game.
Initially text-only - Later add GUI, AR, VR, and Robtic interfaces
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Cross-platform
At a minimum must be playable on:
- Linux
- Windows
- Mac
- Online web browser
- Android
Nice-to-have's but not required:
- iOS
- Consoles
- AR devices
- VR devices
Menu-driven
Due the goal of being playable by LIS/CLIS participants purely through BCI, and since BCI text pick lists are so slow, the game needs to be BCI menu-driven, rather than typed text or keyboard controller driven. A BCI text pick list feature can be added later for chatroom functionality if someone wants to take on adding that feature at some point.
Non-QWERTY-chat-based social interaction
(use other chat solutions as needed) (not a MUD/MUSH/MOO)
Use the [matrix]?
Potentially using Matrix-synapse as underlying network communication infrastructure, especially for chat
Opensource
HISTORY
Began scoping Phase 1 in August 2019, currently actively in progress.
Meeting weekly (broadcast live).
Estimate this phase completion around August 2021 (potentially sooner if current development momentum maintained by team).
Supports Game Master (GM) tools to participate in the game in DM roles with the players during the live game.
Ability to pause game, save game, restore game.
Supports multiple genres (player selected).
Multiple underlying RPG systems (player selected).
Phase 2b Toolset provided for potential game master to create new adventures (does not need to meet BCI requirements for toolset).
Phase 2c - Replicate the NWN Tempest adventure using our Toolset to play in the BCI RPG (text-based play)
More scope details and full documents in Brain Computer Interface Role-Playing Game BCI RPG Github repository.
PC / NPC interaction dialog menues for BCI RPG text-based wireframe and example flow
d20 RPG extended conflict overview flowchart. Included Dungeons & Dragons 5th edition (D&D 5e), and open d20 variants.
General UI for BCI RPG
Graphical User Interface (GUI) for server management of BCI RPG. The use case assumes players are in LIS CLIS, but that DM / GM / Therapist or server admin are able to use full GUI for server administration.
Phase 2b - Develop Module Creation Tools with UI (in-progress)
The module creation toolset is not designed for BCI or LIS/CLIS users. The assumption is that Game Master / Dungeon Master, Educator, or Therapist will use this toolset to create new custom adventures (like the Aurora Toolset is used to create adventures for NWN).
This requires full graphical tools at this point. (Would love down the road to create a BCI-controlled toolset, but that is much more advanced than our current team is ready for. Hopefully we can circle back to this down the road.
Phase 2c - Create Tempest Adventure Using New Custom-built Toolset (pending)
In Phase 2 all the basic play mechanics, and the module creation tools are built.
Phase 3 (in-progress August 2021)
Add graphical interface (instead of just text interface) with audio and video pre-recorded events tied into the text-based events (a la Dragon's Lair). Later add more dynamic graphics/audio/video for smoother experience.Planned to begin early hooks around late 2021.
Phase 4 (pending)
Add VR integration, motion integration, while still fully supporting BCI play. Include accessibility settings for VR for people with very limited or no physical mobility of their own (various drivers from third-parties hopefully to integrate, do not want to have to develop those drivers ourselves).
Phase 5 (pending)
Add AR integration, GPS integration, with mobile devices and headsets, while still fully supporting full BCI play.
Phase 6 (pending)
Bring accessibility BCI RPG back to the tabletop.
integrate robotics equipment controlled through the BCI controls of the game play
enable rolling physical dice
moving physical miniatures
Integrate "holographic" experiences with robotics, AR, etc.
and other features through the BCI control
But in a TRPG environment rather than online ERPG (but using the tools and code created for this now more well-rounded continually evolving ERPG as the tools to enable TRPG play).
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