A structured-light 3D scanner is a device used to capture the three-dimensional shape of an object by projecting light patterns, such as grids or stripes, onto its surface. The deformation of these patterns is recorded by cameras and processed using specialized

algorithm In mathematics and computer science, an algorithm () is a finite sequence of Rigour#Mathematics, mathematically rigorous instructions, typically used to solve a class of specific Computational problem, problems or to perform a computation. Algo ...

s to generate a detailed

3D model In 3D computer graphics, 3D modeling is the process of developing a mathematical coordinate-based representation of a surface of an object (inanimate or living) in three dimensions via specialized software by manipulating edges, vertices, and ...

. Structured-light 3D scanning is widely employed in fields such as

industrial design Industrial design is a process of design applied to physical Product (business), products that are to be manufactured by mass production. It is the creative act of determining and defining a product's form and features, which takes place in adva ...

quality control Quality control (QC) is a process by which entities review the quality of all factors involved in production. ISO 9000 defines quality control as "a part of quality management focused on fulfilling quality requirements". This approach plac ...

, cultural heritage preservation,

augmented reality Augmented reality (AR), also known as mixed reality (MR), is a technology that overlays real-time 3D computer graphics, 3D-rendered computer graphics onto a portion of the real world through a display, such as a handheld device or head-mounted ...

gaming, and

medical imaging Medical imaging is the technique and process of imaging the interior of a body for clinical analysis and medical intervention, as well as visual representation of the function of some organs or tissues (physiology). Medical imaging seeks to revea ...

. Compared to laser-based 3D scanning, structured-light scanners use non-coherent light sources, such as

LED A light-emitting diode (LED) is a semiconductor device that emits light when current flows through it. Electrons in the semiconductor recombine with electron holes, releasing energy in the form of photons. The color of the light (corresp ...

s or

projector A projector or image projector is an optical device that projects an image (or moving images) onto a surface, commonly a projection screen. Most projectors create an image by shining a light through a small transparent lens, but some newer type ...

s, which enable faster data acquisition and eliminate potential safety concerns associated with

laser A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation. The word ''laser'' originated as an acronym for light amplification by stimulated emission of radi ...

s. However, the accuracy of structured-light scanning can be influenced by external factors, including ambient lighting conditions and the reflective properties of the scanned object.

Principle

Projecting a narrow band of light onto a three-dimensional surface creates a line of illumination that appears distorted when viewed from perspectives other than that of the projector. This distortion can be analyzed to reconstruct the geometry of the surface, a technique known as light sectioning. Projecting patterns composed of multiple stripes or arbitrary fringes simultaneously enables the acquisition of numerous

data point In statistics, a unit of observation is the unit described by the data that one analyzes. A study may treat groups as a unit of observation with a country as the unit of analysis, drawing conclusions on group characteristics from data collected a ...

s at once, improving scanning speed. While various structured light projection techniques exist, parallel stripe patterns are among the most commonly used. By analyzing the displacement of these stripes, the three-dimensional coordinates of surface details can be accurately determined.

Generation of light patterns

Two major methods of stripe pattern generation have been established: Laser interference and projection. The laser ''interference method'' works with two wide planar

beam fronts. Their

interference Interference is the act of interfering, invading, or poaching. Interference may also refer to: Communications * Interference (communication), anything which alters, modifies, or disrupts a message * Adjacent-channel interference, caused by extra ...

results in regular, equidistant line patterns. Different pattern sizes can be obtained by changing the angle between these beams. The method allows for the exact and easy generation of very fine patterns with unlimited depth of field. Disadvantages are high cost of implementation, difficulties providing the ideal beam geometry, and laser typical effects like speckle noise and the possible self interference with beam parts reflected from objects. Typically, there is no means of modulating individual stripes, such as with Gray codes. The ''projection method'' uses incoherent light and basically works like a

video projector A video projector is an image projector that receives a video signal and projects the corresponding image onto a projection screen using a lens system. Video projectors use a very bright ultra-high-performance lamp (a special mercury arc l ...

. Patterns are usually generated by passing light through a digital

spatial light modulator A spatial light modulator (SLM) is a device that can control the intensity, phase, or polarization of light in a spatially varying manner. A simple example is an overhead projector transparency. Usually when the term SLM is used, it means that ...

, typically based on one of the three currently most widespread digital projection technologies, transmissive

liquid crystal Liquid crystal (LC) is a state of matter whose properties are between those of conventional liquids and those of solid crystals. For example, a liquid crystal can flow like a liquid, but its molecules may be oriented in a common direction as i ...

, reflective

liquid crystal on silicon Liquid crystal on silicon (LCoS or LCOS) is a miniaturized reflective active-matrix liquid-crystal display or "microdisplay" using a liquid crystal layer on top of a silicon backplane. It is also known as a spatial light modulator. LCoS initia ...

(LCOS) or digital light processing (DLP; moving micro mirror) modulators, which have various comparative advantages and disadvantages for this application. Other methods of projection could be and have been used, however. Patterns generated by digital display projectors have small discontinuities due to the

pixel In digital imaging, a pixel (abbreviated px), pel, or picture element is the smallest addressable element in a Raster graphics, raster image, or the smallest addressable element in a dot matrix display device. In most digital display devices, p ...

boundaries in the displays. Sufficiently small boundaries however can practically be neglected as they are evened out by the slightest defocus. A typical measuring assembly consists of one projector and at least one camera. For many applications, two cameras on opposite sides of the projector have been established as useful. ''Invisible'' (or ''imperceptible'') structured light uses structured light without interfering with other computer vision tasks for which the projected pattern will be confusing. Example methods include the use of infrared light or of extremely high framerates alternating between two exact opposite patterns.

Calibration

Geometric distortions by optics and perspective must be compensated by a

calibration In measurement technology and metrology, calibration is the comparison of measurement values delivered by a device under test with those of a calibration standard of known accuracy. Such a standard could be another measurement device of known ...

of the measuring equipment, using special calibration patterns and surfaces. A mathematical model is used for describing the imaging properties of projector and cameras. Essentially based on the simple geometric properties of a

pinhole camera A pinhole camera is a simple camera without a lens but with a tiny aperture (the so-called ''Pinhole (optics), pinhole'')—effectively a light-proof box with a small hole in one side. Light from a scene passes through the aperture and projects a ...

, the model also has to take into account the geometric distortions and

optical aberration In optics, aberration is a property of optical systems, such as Lens (optics), lenses and mirrors, that causes the ''image'' created by the optical system to not be a faithful reproduction of the ''object'' being observed. Aberrations cause the i ...

of projector and camera lenses. The parameters of the camera as well as its orientation in space can be determined by a series of calibration measurements, using photogrammetric

bundle adjustment In photogrammetry and computer stereo vision, bundle adjustment is simultaneous refining of the 3D coordinates describing the scene geometry, the parameters of the relative motion, and the optical characteristics of the camera(s) employed to acq ...

Analysis of stripe patterns

There are several depth cues contained in the observed stripe patterns. The displacement of any single stripe can directly be converted into 3D coordinates. For this purpose, the individual stripe has to be identified, which can for example be accomplished by tracing or counting stripes (pattern recognition method). Another common method projects alternating stripe patterns, resulting in binary

Gray code The reflected binary code (RBC), also known as reflected binary (RB) or Gray code after Frank Gray (researcher), Frank Gray, is an ordering of the binary numeral system such that two successive values differ in only one bit (binary digit). For ...

sequences identifying the number of each individual stripe hitting the object. An important depth cue also results from the varying stripe widths along the object surface. Stripe width is a function of the steepness of a surface part, i.e. the first

derivative In mathematics, the derivative is a fundamental tool that quantifies the sensitivity to change of a function's output with respect to its input. The derivative of a function of a single variable at a chosen input value, when it exists, is t ...

of the elevation. Stripe frequency and phase deliver similar cues and can be analyzed by a

Fourier transform In mathematics, the Fourier transform (FT) is an integral transform that takes a function as input then outputs another function that describes the extent to which various frequencies are present in the original function. The output of the tr ...

. Finally, the wavelet transform has recently been discussed for the same purpose. In many practical implementations, series of measurements combining pattern recognition, Gray codes and Fourier transform are obtained for a complete and unambiguous reconstruction of shapes. Another method also belonging to the area of fringe projection has been demonstrated, utilizing the depth of field of the camera. It is also possible to use projected patterns primarily as a means of structure insertion into scenes, for an essentially photogrammetric acquisition.

Precision and range

The optical resolution of fringe projection methods depends on the width of the stripes used and their optical quality. It is also limited by the wavelength of light. An extreme reduction of stripe width proves inefficient due to limitations in depth of field, camera resolution and display resolution. Therefore, the phase shift method has been widely established: A number of at least 3, typically about 10 exposures are taken with slightly shifted stripes. The first theoretical deductions of this method relied on stripes with a sine wave shaped intensity modulation, but the methods work with "rectangular" modulated stripes, as delivered from LCD or DLP displays as well. By phase shifting, surface detail of e.g. 1/10 the stripe pitch can be resolved. Current optical stripe pattern profilometry hence allows for detail resolutions down to the wavelength of light, below 1 micrometer in practice or, with larger stripe patterns, to approx. 1/10 of the stripe width. Concerning level accuracy, interpolating over several pixels of the acquired camera image can yield a reliable height resolution and also accuracy, down to 1/50 pixel. Arbitrarily large objects can be measured with accordingly large stripe patterns and setups. Practical applications are documented involving objects several meters in size. Typical accuracy figures are: * Planarity of a wide surface, to . * Shape of a motor

combustion chamber A combustion chamber is part of an internal combustion engine in which the air–fuel ratio, fuel/air mix is burned. For steam engines, the term has also been used for an extension of the Firebox (steam engine), firebox which is used to allow a mo ...

to (elevation), yielding a volume accuracy 10 times better than with volumetric dosing. * Shape of an object large, to about * Radius of a blade edge of e.g. , to ±0.4 μm

Navigation

As the method can measure shapes from only one perspective at a time, complete 3D shapes have to be combined from different measurements in different angles. This can be accomplished by attaching marker points to the object and combining perspectives afterwards by matching these markers. The process can be automated, by mounting the object on a motorized turntable or CNC positioning device. Markers can as well be applied on a positioning device instead of the object itself. The 3D data gathered can be used to retrieve CAD (computer aided design) data and models from existing components (

reverse engineering Reverse engineering (also known as backwards engineering or back engineering) is a process or method through which one attempts to understand through deductive reasoning how a previously made device, process, system, or piece of software accompl ...

), hand formed samples or sculptures, natural objects or artifacts.

Challenges

As with all optical methods, reflective or transparent surfaces raise difficulties. Reflections cause light to be reflected either away from the camera or right into its optics. In both cases, the dynamic range of the camera can be exceeded. Transparent or semi-transparent surfaces also cause major difficulties. In these cases, coating the surfaces with a thin opaque lacquer just for measuring purposes is a common practice. A recent method handles highly reflective and specular objects by inserting a 1-dimensional diffuser between the light source (e.g., projector) and the object to be scanned. Alternative optical techniques have been proposed for handling perfectly transparent and specular objects. Double reflections and inter-reflections can cause the stripe pattern to be overlaid with unwanted light, entirely eliminating the chance for proper detection. Reflective cavities and concave objects are therefore difficult to handle. It is also hard to handle translucent materials, such as skin, marble, wax, plants and human tissue because of the phenomenon of sub-surface scattering. Recently, there has been an effort in the computer vision community to handle such optically complex scenes by re-designing the illumination patterns. These methods have shown promising 3D scanning results for traditionally difficult objects, such as highly specular metal concavities and translucent wax candles.

Speed

Although several patterns have to be taken per picture in most structured light variants, high-speed implementations are available for a number of applications, for example: * Inline precision inspection of components during the production process. * Health care applications, such as live measuring of human body shapes or the micro structures of human skin. Motion picture applications have been proposed, for example the acquisition of spatial scene data for three-dimensional television.

Applications

* Industrial Optical Metrology Systems (ATOS) from GOM GmbH utilize Structured Light technology to achieve high accuracy and scalability in measurements. These systems feature self-monitoring for calibration status, transformation accuracy, environmental changes, and part movement to ensure high-quality measuring data. * Google Project Tango SLAM (

Simultaneous localization and mapping Simultaneous localization and mapping (SLAM) is the computational problem of constructing or updating a map of an unknown environment while simultaneously keeping track of an Intelligent agent, agent's location within it. While this initially ap ...

) using depth technologies, including Structured Light, Time of Flight, and Stereo. Time of Flight require the use of an infrared (IR) projector and IR sensor; Stereo does not.
MainAxis
srl produces a 3D Scanner utilizing an advanced patented technology that enables 3d scanning in full color and with an acquisition time of a few microseconds, used in medical and other applications. * A technology by

PrimeSense PrimeSense was an Israeli 3D sensing company based in Tel Aviv. PrimeSense had offices in Israel, North America, Japan, Singapore, Korea, China and Taiwan. PrimeSense was bought by Apple Inc. for $360 million on November 24, 2013. History Pri ...

, used in an early version of

Microsoft Kinect Kinect is a discontinued line of motion sensing input devices produced by Microsoft and first released in 2010. The devices generally contain RGB cameras, and infrared projectors and detectors that map depth through either structured light o ...

, used a pattern of projected infrared points to generate a dense 3D image. (Later on, the Microsoft Kinect switched to using a

time-of-flight camera A time-of-flight camera (ToF camera), also known as time-of-flight sensor (ToF sensor), is a range imaging camera system for measuring distances between the camera and the subject for each point of the image based on time-of-flight, the round ...

instead of structured light.) * Occipital ** Structure Sensor uses a pattern of projected infrared points, calibrated to minimize distortion to generate a dense 3D image. ** Structure Core uses a stereo camera that matches against a random pattern of projected infrared points to generate a dense 3D image. * Intel RealSense camera projects a series of infrared patterns to obtain the 3D structure. *

Face ID Face ID is a Biometrics, biometric authentication facial recognition system, facial-recognition system designed and developed by Apple Inc. for the iPhone and iPad Pro. The system can be used for unlocking a device, making Apple Pay, payments, ac ...

system works by projecting more than 30,000 infrared dots onto a face and producing a 3D facial map. * VicoVR sensor uses a pattern of infrared points for skeletal tracking. * Chiaro Technologies uses a single engineered pattern of infrared points called Symbolic Light to stream 3D point clouds for industrial applications *

Made to measure Made-to-measure (MTM) typically refers to custom clothing that is cut and sewn using a standard-sized base pattern. Suits and sport coats are the most common garments made-to-measure. The fit of a made-to-measure garment is expected to be superi ...

fashion retailing * 3D-

Automated optical inspection Automated optical inspection (AOI) is an automated visual inspection of printed circuit board (PCB) (or LCD, transistor) manufacture where a camera machine vision, autonomously scans the device under test for both catastrophic failure (e.g. missin ...

* Precision shape measurement for production control (e.g. turbine blades) *

Reverse engineering Reverse engineering (also known as backwards engineering or back engineering) is a process or method through which one attempts to understand through deductive reasoning how a previously made device, process, system, or piece of software accompl ...

(obtaining precision CAD data from existing objects) * Volume measurement (e.g. combustion chamber volume in motors) * Classification of grinding materials and tools * Precision structure measurement of ground surfaces * Radius determination of cutting tool blades * Precision measurement of planarity * Documenting objects of cultural heritage * Capturing environments for augmented reality gaming * Skin surface measurement for cosmetics and medicine * Body shape measurement *

Forensic science Forensic science combines principles of law and science to investigate criminal activity. Through crime scene investigations and laboratory analysis, forensic scientists are able to link suspects to evidence. An example is determining the time and ...

inspections * Road pavement structure and roughness * Wrinkle measurement on cloth and leather * Structured Illumination Microscopy * Measurement of topography of solar cells * 3D vision system enables DHL's e-fulfillment robot

Software

* 3DUNDERWORLD SLS – OPEN SOURCE * DIY 3D scanner based on structured light and stereo vision in Python language * SLStudio—Open Source Real Time Structured Light

References

Sources

* Fechteler, P., Eisert, P., Rurainsky, J.
Fast and High Resolution 3D Face Scanning
Proc. of ICIP 2007 * Fechteler, P., Eisert, P.
Adaptive Color Classification for Structured Light Systems
Proc. of CVPR 2008 * * Kai Liu, Yongchang Wang, Daniel L. Lau, Qi Hao, Laurence G. Hassebrook
Gamma Model and its Analysis for Phase Measuring Profilometry
J. Opt. Soc. Am. A, 27: 553–562, 2010 * Yongchang Wang, Kai Liu, Daniel L. Lau, Qi Hao, Laurence G. Hassebrook
Maximum SNR Pattern Strategy for Phase Shifting Methods in Structured Light Illumination
J. Opt. Soc. Am. A, 27(9), pp. 1962–1971, 2010 * * Hof, C., Hopermann, H.
Comparison of Replica- and In Vivo-Measurement of the Microtopography of Human Skin
University of the Federal Armed Forces, Hamburg * Frankowski, G., Chen, M., Huth, T.
Real-time 3D Shape Measurement with Digital Stripe Projection by Texas Instruments Micromirror Devices (DMD)
Proc. SPIE-Vol. 3958(2000), pp. 90–106 * Frankowski, G., Chen, M., Huth, T.
Optical Measurement of the 3D-Coordinates and the Combustion Chamber Volume of Engine Cylinder Heads
Proc. Of "Fringe 2001", pp. 593–598 * * * Elena Stoykova, Jana Harizanova, Venteslav Sainov: Pattern Projection Profilometry for 3D Coordinates Measurement of Dynamic Scenes. In: Three Dimensional Television, Springer, 2008, * Song Zhang, Peisen Huang
High-resolution, Real-time 3-D Shape Measurement
(PhD Dissertation, Stony Brook Univ., 2005) * Tao Peng
Algorithms and models for 3-D shape measurement using digital fringe projections
(Ph.D. Dissertation, University of Maryland, USA. 2007) * W. Wilke
Segmentierung und Approximation großer Punktwolken
(Dissertation Univ. Darmstadt, 2000) * G. Wiora
Optische 3D-Messtechnik Präzise Gestaltvermessung mit einem erweiterten Streifenprojektionsverfahren
(Dissertation Univ. Heidelberg, 2001) * Klaus Körner, Ulrich Droste
Tiefenscannende Streifenprojektion (DSFP)
University of Stuttgart (further English references on the site) * R. Morano, C. Ozturk, R. Conn, S. Dubin, S. Zietz, J. Nissano, "Structured light using pseudorandom codes", IEEE Transactions on Pattern Analysis and Machine Intelligence 20 (3)(1998)322–327