X3D version 4.0 Development
X3D Version 4 is a major upgrade to the Extensible 3D (X3D) Graphics International Standard that aligns with the HTML5 Recommendation. This is major work in progress, expected to include several future versions. This effort is driven by the X3D Graphics Working Group with regular community outreach.
- 1 Genesis and Strategic Overview
- 2 Capabilities
- 3 Architectural Considerations
- 4 Backwards and Forwards Compatibility
- 5 Legacy Issues
- 6 Open Questions
- 7 Related Work
- 8 Timeline
- 9 Schedule (old section, review and merge with Timeline)
Genesis and Strategic Overview
Web3D Consortium working groups currently define specification goals and requirements. Working group efforts are often the focus for defining and testing new X3D components.
Suggestions, development and discussion via the x3d-public mailing list is ongoing.
X3D version 3.4 Development efforts were evolutionary improvements to the widely proven X3D Graphics architecture. Consortium members decided to skip version 3.4 and go straight to version 4.0, prior goals and requirements have all been merged here.
The Candidate Capabilities list shows that a lot of interesting capabilities have been proposed and are under way for X3D version 4. However, topics on this list are not guaranteed to be completed! Rather these are all works in progress.
Activity and approval proceeds based on technical contributions and Web3D Consortium Member priorities. Please consider joining Web3D Consortium to help advance 3D graphics on the Web.These X3D version 4.0 Development efforts are considering potentially major additions to the baseline X3D architecture.
- Major technology under consideration: HTML5, Declarative 3D, CSS, X3DOM (see Summary slides (Oct 2013)), and Cobweb
- Major technology under consideration: Mixed and Augmented Reality (MAR) (renamed from Augmented Reality Continuum (ARC)
- Relaxing prior design constraints can enable a broader new basis for X3D integration
- Normalizing interaction semantics with HTML5 can further open up X3D for the vast majority of Web authors
Please contact us if you think additional technologies need to be considered. X3D Futures planning is primarily a Web3D Consortium member-only activity, with community input.
Component improvements and additions considered and recommended by the X3D Working Group, with review by the X3D community. The draft X3D specifications are approved by Web3D Consortium Board of Directors and then submitted to ISO for ratification.
All suggestions and recommendations are welcome. Please contact us if you think additional technologies need to be considered.
These capabilities are accepted in principle by the X3D Working Group. Further feasible work remains in specification writing, examples, implementation and evaluation.
- TODO link reference pages on Web3D.org
- TODO link specification-tracking spreadsheet
- X3D Node Inventory Comparison (spreadsheet .xlsx) shows implementation coverage
- TODO how to track examples?
TODO copy full entries from below, edit for clarity and consistency.
- Annotations component
- Humanoid Animation (HAnim) version 2: anatomical correctness for skeleton and skinning, motion animation, hands and feet. Future: faces, organs
- Lighting model: glTF and Physically Based Rendering (PBR)
- Materials: improvements to Material and TwoSidedMaterial
- to make them modern (e.g. normal maps)
- consistent with PhysicalMaterial (e.g. texture slots inside Material).
- Texturing - Projective Texture Mapping (PTM), Environment Lighting
- Volume Rendering component extensions
- Security Considerations section added to each component.
These capabilities are published in the github draft X3Dv4 specification, reviewed by the X3D community for comment, fully recommended by the X3D Working Group, and approved by the Web3D Consortium Board of Directors.
- No capabilities for X3Dv4 are yet approved.
Candidate capabilities are under active consideration by the X3D Working Group.
- Each of the following possibilities for X3D version 4 have been discussed by the various X3D working groups during meetings and on mailing lists.
- Each potential capability is considered to be a feasible (and in most cases, straightforward) addition to the existing X3D version 3.3 architecture.
- TODO: Which experimental nodes implemented by X3D browsers are ready for consideration? Candidates include Fraunhofer, X3DOM, Cobweb, other members and working groups?
- TODO: articulate server-side visualization: Big Data, cloud computing, and related issues.
- Discussion from 24 FEB 2019: put X3D-HTML5 integration in a new Annex in 19775-1 to see if that works. Much easier lift procedurally than starting a separate 19775-3 specification. Dick described tradeoffs. Seems like a good idea to put candidate text in an Annex before committing to a whole new specification.
- Of note: Roy created a draft 19775-3 in github for HTML5-X3D
- Don and Dick will look at prior materials and create draft annex structure for HTML5-DOM in X3D Architecture 19775-1.
- Discussion (move onto Mantis and mailing list): should we consider adding X3DUOM descriptive prose in Concepts section? It is becoming essential to confirming that node interfaces are well specified and implementable precisely/interoperably in various X3D file encodings and language bindings.
- Summary: "X3DUOM fully defines all object-oriented relationships for nodes, fields and abstract interfaces in the X3D Architecture. X3DUOM is a validatable expression of X3D relationships that can be applied to implement various X3D file encodings and programming-language bindings."
Nodes and components:
- Images: recommended formats for imagery and video (.gif .bmp .flv .exr .hdr etc.) - details below:
- GIF: "Graphics Interchange Format, Version 89a", W3C. 31 July 1990.
- BMP: BMP. Note: Originally developed by Microsoft for OS/2 and Windows.
- FLV: FLV and F4V usage has been deprecated by browser manufacturers.
- Khronos Texture Format (KTX): Khronos KTX File Format
- attributes: width_changed, height_changed, aspectRatio_changed with accessType outputOnly
- Materials: advanced parameters
- HDR: Improvements in both materials and rendering for high definition rendering (HDR) technological advances.
- Multitexture: review for correctness, completeness and conformance of rendering example scenes
- Rendering: bump maps, shadows, edge smoothing, gamma correction, Non-Photorealistic Rendering (NPR)
- Shaders: improved support and better interoperability, library of examples; CommonSurfaceShader?
- Texturing: Texture atlas, projective texture mapping (PTM), RenderedTexture node for multipass rendering - 2D texture version of GeneratedCubeMapTexture, first proposed by Xj3D and also implemented in X3DOM and InstantReality, useful for all kinds of NPR, shadows, mirrors, etc. Also review 8-bit vs 24-bit texture application differences - see https://castle-engine.sourceforge.io/x3d_multi_texturing.php#section_default_texture_mode.
- Chroma key for TextureProperties node to support special transparent background.
- Images: recommended formats for imagery and video (.gif .bmp .flv .exr .hdr etc.) - details below:
- Audio and video: alignment with W3C Audio Working Group, especially for Web Audio API and Web Midi API.
- Computer Aided Design (CAD) a new profile to be named CADInteractive, to include:
- X3D v4.0 CAD Improvements with 3D printing + 3D scanning included
- CADInterchange profile plus FillProperties/LineProperties, primitive/Geometry2D nodes, Extrusion, NURBS, ClipPlane
- Part selection/animation, 3D printing, Compressed Binary Encoding (CBE), possibly annotations component
- Building Information Models (BIM), Architecture Engineering Construction (AEC), Physical Sensors
- Review X3D event interoperability with other event models, such as Document Object Model (DOM) Recommendations
- Add capability for Event logging and playback so that deterministic replay is possible for demonstrations and debugging
- Generalized input/output interface support
- PointSet point size and associated Normal vectors; Octrees
- 3D Extruded Text
- Support for Web typography using Web Open Fonts Format (WOFF)
- Progressive meshes (suitable for both compression and streaming)
- Support for direct loading of compressed Shape Resource Container (SRC) and ExternalShape from Fraunhofer
- Direct loading of other geometry meshes such as STL and PLY
- Geospatial X3D component
- Enhanced Geospatial Component - spatial reference frame (SRF) and KML support, OGC 3D Portrayal, GpsSensor, OpenLayer mashups
- GeoSet collection of adjacent GeoElevationGrid nodes to enable proper computation of normals for edge boundaries of adjacent grids
- Interoperability: include class attribute for all nodes to all encodings
- Medical working group ImageTextureAtlas plus capabilities including recent Community Improvements to the Volume Component (Aberlaiz et al 2018 , and MPR)
- Mobile Profile. TODO - needed? Calling out a reduced palette for mobile devices remains interesting, but might instead remain a browser-optional optimization.
- Metadata: support for embedding information useful for applications utilizing X3D
- Enumerated types: better access, typing, naming, and validation than using MetadataSet/MetadataString combinations
- Mixed and Augmented Reality (MAR): follow ISO MAR Reference Model, integrate multiple capabilities with devices situated in real world
- Networking: consider NetworkSensor and event-passing issues, streaming using JSON, server-side 3D topics
- Security and privacy:
- Include X3D Networking Component Level 4 support for https in Immersive, Interactive and other commonly used profiles
- Review X3D specifications to ensure that Security Considerations are fully documented throughout in every component
- XML Security provides best-available encryption, digital signature (authentication)
- Web Privacy: examine X3D compatibility with Do Not Track, P3P, POWDER
- Viewing and navigation: cinematic camera control, alternative navigation types (such as PAN, TURNTABLE etc.), Recommended navigation behaviours review, and old MatrixTransform node (esp. useful for CAD, VR/AR etc., implemented in X3DOM and InstantReality)
- Virtual Reality (VR): requirements definition needed includes viewing with stereo devices, interocular distance, frame-rate requirements, comparison (and potential profile) for WebVR capabilities, physiological considerations, health and safety, relation with Mixed Augmented Reality (MAR), etc.
Deferred capabilities are candidates for inclusion in a follow-on version of X3Dv4.
In general, new capabilities for Mixed Augmented Reality (MAR) are deferred to X3Dv4.1.
- None yet listed.
Deprecation means that a feature will still be included for the next version, but is nevertheless expected to be removed in future versions. This approach can simplify transition of content to a new approach.
- GeoOrigin node was deprecated in X3Dv3.3 and needs to be either restored or removed.
- Layout component - perhaps no longer needed, especially with HTML5 (and MAR) integration expected.
- Shaders component - deserved close reconsideration.
Excluded capabilities are evaluated as "out of scope" for X3D, and are not expected to be included in future versions.
- Scalable Vector Graphics (SVG) Native support for image generation on the fly, images could be static or dynamic. See W3C Graphics on the web. Note that event-based interaction by an X3D scene with an SVG image, all within an HTML5 pages, is still expected as a future capability.
Removed capabilities will no longer be supported in X3Dv4.
- None yet listed.
This section will synopsize significant differences between X3D version 4 and X3D version 3 that may require structural changes in tools and scenes. Special attention is needed to minimize incompatibilities with legacy software and content.
Much depends on the target environment. X3D V3.x presumes a controlled environment that interacts with the rest of the (computing) world through a well defined API (called SAI). When X3D is running in the browser (as in fully integrated with the DOM), the DOM defines a portion of the environment in which X3D must operate. For that environment it will be necessary to make changes to X3D so that it is compatible with the DOM.
Backwards and Forwards Compatibility
A major benefit of using the X3D standard is full backwards compatibility with prior VRML97 and X3D content. Thanks to careful design and insistence on implementation/evaluation, the X3D International Standard has maintained both steady growth and interoperability ever since Virtual Reality Modeling Language (VRML) in 1997. This track record of stability and innovation is among the best in the 3D graphics industry.
Our goal is to maximize, but not necessarily require, backwards compatibility in version 4.0 with the version 3.x specifications
- A great majority of X3D nodes and features are likely achievable without change
- Some X3D features may require import/export conversion for compatibility (event model reconciliation, ROUTEs and sensors perhaps)
- A few features might be refactored, deprecated or obsoleted (none yet identified)
- Name deconfliction: HTML Script versus embedded X3D Script
The comprehensive forward compatibility of VRML97 and X3D with later-developed X3D versions shows that careful anticipatory design is achievable.
X3D version 4.0 Development efforts are currently focused on HTML5, Declarative 3D, X3DOM, and Cobweb with many more issues under consideration.
- Discussion of Importing and adding nodes in HTML
X3D Version 4.1 is focused on Mixed and Augmented Reality (MAR) capabilities, which may also require architectural changes. Some new technologies may get pushed from 4.0 to 4.1 (or back again) after careful consideration by the respective working groups.
Related specification support and changes
- As with all other X3D components, all work is defined in the abstract specification has corresponding file encodings (.x3d .x3dv .x3db) and language bindings (ECMAScript and Java).
- Compatibility concerns include evolutionary efforts to upgrade the X3D Compressed Binary Encoding (CBE), as described in the X3D Compressed Binary Encoding Call For Contributions.
- ISO/IEC 16262:2011 Information technology — ECMAScript language specification (.zip download)
- Downloadable from ISO Publicly Available Standards site without charge
- This relates to 19777-1 Part 2, X3D Scene Access Interface (SAI) language bindings for EcmaScript
We plan to confirm the existence of complete capabilities for X3D v3.3 prior to final approval of X3D version 4.
- Full support for all existing X3D v3.3 components:
- At least two compatible implementations (including at least one in open source) plus repeatable example scenes
- Layer, ParticleSystems, RigidBodyPhysics, Shaders, TODO others
- TransformSensor node: IGD and old Cortona
- Note that it is not a requirement that all features and capabilities in X3D V3.3 are included in V4.0
- Is it necessary for Layout component to be deprecated or improved?
- Are there other features or capabilities that should not or are not able to move into V4.0?
- Are MAR abstract design and X3D AR proposals sufficiently mature to enable integration with HTML5/Declarative 3D/X3DOM/Cobweb issues?
- Are the previously X3D Layer/Layering components compatible with HTML5 overlay model? Are they still needed, perhaps for multiscreen or CAVE support?
- Mashup and interoperability support: is anything else needed for broader use with the Web? YouTube etc.
Much careful planning is involved, we are working to ensure that X3D version 4 can be coherently advanced in combination with a coordinated set of steadily evolving ISO/IEC standards.
- X3D Efficient Binary Encoding (EBE). This work is proceeding in parallel. X3D version 4 must maintain compatibility with all encodings. See also SRC format (Web3D 2014)and ExternalGeometry node in InstantPlayer and X3DOM
- X3D version 4.0 (HTML5/X3D DOM). This work is proceeding in parallel. X3D version 4 support is expected.
- X3D version 4.1 (Mixed and Augmented Reality). Nodes and capabilities in this arena will build on v4.0 and HTML5. Experimentation, evolution and evaluation occurs throughout.
- Essential Elements of X3D collects elements that are essential to X3D
Technologies and activities that relate to X3D version 4 are:
- WebVR "bringing virtual reality to the web" - standardize the interface to VR displays and controllers
- W3C's Declarative WebVR Community Group formed to developed a declarative 3D standard for WebVR
- A-Frame "a web framework for building virtual reality experiences"
- XML3D " seamless integration of 3D content into HTML pages"
- links to guiding Web3D pages on spec strategy and process,
- link to status tracking spreadsheet,
- we effectively have a Web3D/ISO Working Draft (WD) now,
- we continue adding components/nodes via working group process,
- Implement, evaluate examples, refine, resolve all related issues,
- (currently) Mantis is where issues, draft spec functionality and design tradeoffs are captured, reviewed and approved,
- Apply new prose sections in github spec repository (by Dick and I, many improvements occurred this week),
- Board of Directors consider whether draft spec is a public release to encourage engagement - or not.
- Web3D announces X3D v4 Working Draft availability at Web3D & SIGGRAPH 2019 conferences,
- Working Group continues to add nodes and components,
- Confirm implement/evaluate examples complete
- Excerpted draft spec and implementation details posted for public comment on a per-component basis ~monthly,
- Web3D deadline for new additions to X3Dv4: 16 DEC 2019
- +1 month, final public comments period and editorial work, member review, Board review and approval
- Web3D submits New Work Item Proposal (NWIP) and Committee Draft (CD) to ISO
- ISO dates/deadline for DIS/FDIS/IS proceed
- Work begins on X3Dv4.1 Working Draft (WD)
Schedule (old section, review and merge with Timeline)
- Deciding readiness for ISO New Work Item Proposal (NWIP): we need Committee Draft (CD) specification prose for each planned capability.
- Web3D Consortium is not locked into an annual schedule, ISO handling is flexible.
- Once the NWIP is approved, ISO rules for schedule and review are established.
- Review progress during monthly calls, Web3D Conference, and SIGGRAPH Conference.
- We are continuing a monthly review schedule for submissions so that we can build out X3D version 4 one component at a time.
- We are planning to have a 1-year deadline for completion of CD specification prose, rather than wait until all possible version 4 work is ready.
- Web3D Consortium members and public review when a final draft specification is ready to proceed to ISO.
- Any new components not meeting Web3D deadlines might be a candidate for deferral to V4.1. Or considered not ready.
- Active development of X3D, X3DOM and Cobweb content is tracking HTML 5 capabilities now
- We participate and contribute to the W3C Community Group for Declarative 3D