معرفی نرم افزار Inus Rapidfrom XOR2
Inus Rapidfrom XOR2
Rapidform XOR, the only 3G (third-generation) reverse engineering software, is a complete software application for creating CAD models from 3D scan data. With Rapidform XOR, you can open data from any 3D scanner and quickly create editable, parametric solid models of virtually any physical . These models can be transferred from XOR into popular CAD applications, including SolidWorks®, Siemens NX™ and Pro/ENGINEER®, with complete feature trees intact. This means that – unlike second generation reverse engineering software – the models from XOR are editable just like any other part designed in CAD. And XOR can save models as Parasolid®, STP, IGS and STL for use in any CAD/CAM/CAE application.
The third-generation parametric reverse engineering approach inside XOR makes creating high quality, ready to manufacture CAD models fast and easy. Creating complete solid models accurate to within a few microns of a 3D scan takes less time than redrawing it in CAD. XOR, paired with a 3D scanner, is simply the fastest, most accurate way to create a design model of a real-world .
Parametric CAD Models from 3D Scan Data
Rapidform XOR uses proven solid and surface modeling techniques to create CAD models from point clouds and polygon meshes produced by 3D scanners. Unlike the raw data that is created by a 3D scanner, these CAD models are lightweight, made up of editable features, and are directly usable for machining, design changes, simulations, analysis and much more. And unlike first- or second-generation reverse engineering approaches, the models you create in XOR aren"t just static NURBS surfaces. They can be manipulated, edited, updated and changed at any time and in any way you define.
And every model created in Rapidform XOR is sure to be accurate. The patent-pending Accuracy Analyzer™ shows real time deviation analysis while you redesign the part, so you can ensure your finished model is faithful to the original 3D scan. And it saves time because you never have to leave XOR to check your modeling accuracy.
Capture Design Intent
In Rapidform XOR, you"re not just capturing the shape of the scanned , you"re capturing its original design intent as well. XOR automatically detects features, such as revolves, extrusions, sweeps and fillets, on the scanned . Finished CAD models from XOR are “intelligent” – they contain both form and function. Because the models are made up of features extracted from scans, rather than just surfaces that are fit to scan data, they are much cleaner and have defined dimensions and constraints.
Depending on the need, you may want your reverse engineered models to match the exact geometry of the real world part, including all of its imperfections. But more often than not, a pristine, idealized CAD model that represents the original design intent of the part is preferred. XOR is the only reverse engineering software that extracts design intent as CAD features.
Seamless Interoperability with Full Modeling History in CAD System
CAD models are the industry standard for communicating design parameters and manufacturing requirements. Once the 3D scan data of a part has been modeled in Rapidform XOR, a fully parametric solid model with modeling history can be exported through XOR"s patent-pending liveTransfer™ and modified in SolidWorks®, Siemens NX™ and Pro/ENGINEER®. Other 3D applications can open models created in XOR using industry-standard formats like Parasolid®, STP and IGS.
Faster Than Any Other Reverse Engineering Approach
Rapidform XOR takes an elegantly simple approach to reverse engineering: redesign an the same way it was originally designed. Because XOR uses 3D scan data as a template on which to build a CAD model, rather than converting the scan data into a NURBS surface model, you don’t need to spend much time cleaning or editing the point cloud or polygon mesh itself. Traditional first- and second-generation reverse engineering approaches require a perfected mesh, which can sometimes take hours to refine. With XOR, you skip directly to making the CAD model. Benchmark tests have shown that XOR’s third-generation approach cuts complex reverse engineering jobs from days to hours.
• Automatic point cloud/mesh healing & cleaning
• Automatic scan data processing from multi-shot point cloud into qualified mesh - Mesh Buildup Wizard™
• Watertight and optimized mesh from raw scan data just with one click - Rewrap™
• Advanced CAD mesh healing
• Automatic hole filling with high curvature continuity
Best-in-class Point Cloud & Mesh Operations
• Cross sectioning freeform curve design on point cloud and mesh
• Instant mesh optimization for direct use in RP, CAM & CAE
• Detail resolution controls(decimate & subdivide)
• Smoothness controls(global & local smoothing)
• Automatic re-meshing for CAE functional models
• Professional yet highly interactive point cloud/mesh editing tools
• Advanced point cloud/mesh modeling & optimization
global remesh, remove marker, de-feature, hole filling, fix boundary, smooth boundary, fit boundary, fit region to analytic shape,
split & trim, divide, thicken, offset, etc.
Direct Color Texture Editing
• Color-texture-aware mesh operation and texture preservation
• Color parameter adjustments and editing
• Automatic color balancing between multiple scans
• Create single texture atlas from multiple textures with minimizing mosaic textures
• 3D data compression and streaming for web publishing
Loft Wizard™
• Automatically create high quality lofted surfaces from scan data
• Generate smooth lofted surfaces and profile curves within a user controlled tolerance
Redesign Assistant™
• Unprecedented tools for extracting design parameters from 3D scan data
• Utilize meshes as redesign parameters Automatic mesh region segmentation
• Automatic extraction of design feature parameters from meshes
filet radius and center, sketch plane & profile(automatic sketching), sweep path curve, extrusion axis, mirroring plane, revolving center axis, pipe center axis, drafting angle, 3D section curve for lofting, feature curve, offset/thickening distance, cylinder/cone axis, slot axis, pattern axis and direction, silhouette curve, parting line, bead line, helix and spiral curve, etc. • Automatically create sketch profiles with dimensions and constraints from mesh models
• Automatic extraction of 2D/3D design features from mesh
• Intelligent real-time 2D/3D geometry recognition and snapping
Accuracy Analyzer™
• Redesign within user-defined allowable tolerances
• Automatic and real-time error visualization
• Diverse sensitive analysis tools(mesh to mesh, mesh to CAD, etc.)
Hybrid Modeling– Solid, Surface, Mesh, Point Cloud and Texture
• Highly sophisticated yet familiar by utilizing widely accepted solid and surface modeling features
Solid Features: extrude, sweep, revolve, pipe, thicken, draft, round with various radius, chamfer, hollow (shell), linear/circular/curve pattern, boolean modeling, embossing, engraving, etc.
Surfacing Features: drape, blend, extrude, revolve, sweep, loft, ruled, offset, mirror, fill face, extend, trim/untrim, match, heal, etc.
• Modeling history management(feature history rebuild, reroute & reorder)
• CAD-like parametric feature management
Quick Mesh-to-Surface
• Automatic shrink wrapped surface model generation
• Optimized representations of original mesh data with negligible deviation error
• Interactive mesh-fit surfacing(region fit & boundary fit)
CAD Correct™– CAD-to-Scan Refit & Redesign
• Update the original CAD model to represent the changes in the as-built part
• Import CAD data in a variety of CAD file formats
• Fast and automatic CAD & mesh model coordinate alignment
• CAD local modification and one-button CAD-to-Scan refit
Sophisticated Curve/Sketch Tools
• Automatic extraction of sketch profile and feature curve from mesh
• Automatic dimensioning & constraining Variety of 2D drafting tools
• Comprehensive 3D curve design tools e.g. section curves
• Intelligent real-time geometry recognition
• Curvature-based curve network design
liveTransfer™ - Seamless Data Transfer
• Transfer output model with full history to CAD system
• Export models in a variety of standard file formats
liveScan™ - Direct Interface with 3D Scanning Devices
• Real-time guided scanning
• Scan and generate design features on-the-fly
• Tightly integrated with Mesh Buildup Wizard
• Fully automated multi-shot registration and scan data processing
Supported File Formats
Rapidform Proprietary Formats
XRL(XOR model file), XDL(Rapidform XOV(XOS) model file), MDL(Rapidform2006 model file), FCS(mesh file), ICF(INUS Compression Format), RPS(Rapidform Point-Stream file)
Standard File Formats
STL, OBJ, PLY, 3DS, WRL(VRML), IGES, STEP, VDAFS, Parasolid model file(X_T, X_B), Rhino(3DM)
3D scanner file format
VVD/CDM/CAM/CDK(Minolta), AC(Steinbichler), CBK/GRK/CWK(Kreon), G3D/CLOUD/SURF(GOM), HYM(Hymarc), CV/SNX(Solutionix), IQSCAN(iQvolution), PSL(LDI), PMJ/PMJX(3D Digital Corp.), RTPI/XYZI/XYZRGB(3rd Tech), PTS/PTX(Cyra), SAB/SAB2(3D Scanners), SOI(MENSI), 3DD(Riegl), STB(Scantech), SWL/BIN/SWB(Perceptron), TFM(Wicks & Wilson), XYZ/CRS/LIN/SMH/BIN(Opton), 3PI(Shape Grabber), PLY(Cyberware), BRE(Breuckmann), M3D(Steintek), FLS(Faro), SCN(NextEngine), PIX(Roland DG)
Point Cloud & Mesh Cleanup
CPU
- Intel® and AMD® processors.
- Dual processors recommended for greater performance
RAM
- Minimum: 512 MB (XP), 1 GB (Vista)
- Recommended: 2 GB
- Virtual Memory; XP: recommended to 2.5 times the amount of RAM Vista: recommended to use the default option; "Automatically manage paging file size for all drives"
Hard Disk
- Temporary file cache requires a minimum of 4 GB free disk space
- 10 GB or more recommended
Display
- 1280X1024 resolution recommended, 32-bit true color required
Graphics Card
Minimum:
- OpenGL 1.2 or above
- NVIDIA GeForce 4 or above
- ATI Radeon 9600 or above
Recommended:
- 512 MB or higher graphic memory
- OpenGL 2.0 or above
- NVIDIA GeForce 6600 or above
- ATI Radeon X1650 or above