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614 3d Laser Scanning jobs in United States (43 new)

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3D Laser Scanning Specialist Salary

3D Laser Scanning Specialist Salary in the United States Comparison by Location

Nationwide

United States

$69,467

Washington

District of Columbia

$77,330

3D Laser Scanning Specialist Salary in the United States Comparison by Location

Nationwide

United States

$5,789

Washington

District of Columbia

$6,444

3D Laser Scanning Specialist Salary in the United States Comparison by Location

Nationwide

United States

$1,336

Washington

District of Columbia

$1,487

3D Laser Scanning Specialist Salary in the United States Comparison by Location

Nationwide

United States

Washington

District of Columbia

How much does a 3D Laser Scanning Specialist earn in the United States?

As of November 23, 2022, a 3D Laser Scanning Specialist in the United States earns an average salary of $69,467 per year.

A 3D Laser Scanning Specialist's salary can be paid hourly, weekly or monthly depending on the company and job type. Most part-time jobs will be paid hourly or weekly. Using the salary calculator, the average pay comes out to be about $33 an hour, $1,336/week, or $5,789/month.

The average salary of a 3D Laser Scanning Specialist ranges from $60,561 to $80,864. The average salary range for a 3D Laser Scanning Specialist varies widely, which indicates that there are many opportunities for advancement, promotions, and salary increases. These opportunities depend on many factors, including skills, education, certifications, location, and years of experience.

According to job salary data displays, 3D Laser Scanning Specialist in Alaska and California are high in demand. 3D Laser Scanning Specialist in Alaska earn an average salary of $77,872 per year, which is $8,405(12.1%) more than the national average of $69,467. Alaska is ranked as the top salary of a 3D Laser Scanning Specialist nationwide.

What is the Average 3D Laser Scanning Specialist Salary by City?

Below is a list of the average salaries for a 3D Laser Scanning Specialist in 10 cities in the United States. We've identified 352 cities where the typical salary for a 3D Laser Scanning Specialist job is above the national average. The highest paying city for a 3D Laser Scanning Specialist is in San Jose, CA, and the average salary for a 3D Laser Scanning Specialist job is $87,181, which is higher than the national average.

This is followed by Santa Clara, CA and Fremont, CA in second and third places, which beat the national average by $17,714(25.5%) and $17,492(25.18%) respectively. In fourth place is Daly City, CA, which pays $17,367(25%), above the national average. San Francisco, CA, Bronx, NY and New York, NY continue the rankings.

Based on the summary of average salaries paid by cities, the 3D Laser Scanning Specialist job market in San Jose, CA is relatively active with a higher-paying salary compared to other cities in the United States.

Finally, 3D Laser Scanning Specialist jobs pay differently based on the city, even if they are in the same state. The cost of living might be a key factor when considering the location and salary of a 3D Laser Scanning Specialist position.

CITY Annual Salary Monthly Pay Weekly Pay Hourly Wage
San Jose $87,181 $7,265 $1,677 $42
Santa Clara $87,181 $7,265 $1,677 $42
Fremont $86,959 $7,247 $1,672 $42
Daly City $86,834 $7,236 $1,670 $42
San Francisco $86,834 $7,236 $1,670 $42
Bronx $83,569 $6,964 $1,607 $40
New York $83,569 $6,964 $1,607 $40
Brooklyn $83,569 $6,964 $1,607 $40
Jersey City $83,569 $6,964 $1,607 $40
Hoboken $83,569 $6,964 $1,607 $40

What Similar Jobs are Paid to 3D Laser Scanning Specialist in the U.

S.?

There are 11 jobs that we find are related to the 3D Laser Scanning Specialist job category,these similar jobs include 3D Scanning Technician,Scanning Specialist,Laser Specialist,Store Scanning Specialist,3d Visualization Specialist,3D Design Specialist,3D Modeling Specialist,3D Printing Specialist,3D Technical Specialist,3D Architectural Rendering Specialist,and 3D Architectural Visualization Specialist.

All of these 11 jobs are paid between $36,105 to $79,479, and the 3D Technical Specialist gets the highest paid with $79,479 from them. Those similar job salaries are paid differently by many factors such as company size, department base, responsibility, and others. If you're qualified to be hired for one of these similar jobs to the 3D Laser Scanning Specialist, you could refer to the below list of job salaries based on market prices in the United States.

JOB TITLE Annual Salary Monthly Pay Weekly Pay Hourly Wage
3D Scanning Technician $46,830 $3,903 $901 $23
Scanning Specialist $40,754 $3,396 $784 $20
Laser Specialist $39,140 $3,262 $753 $19
Store Scanning Specialist $36,105 $3,009 $694 $17
3d Visualization Specialist $68,697 $5,725 $1,321 $33
3D Design Specialist $65,463 $5,455 $1,259 $31
3D Modeling Specialist $63,351 $5,279 $1,218 $30
3D Printing Specialist $53,614 $4,468 $1,031 $26
3D Technical Specialist $79,479 $6,623 $1,528 $38
3D Architectural Rendering Specialist $69,467 $5,789 $1,336 $33
3D Architectural Visualization Specialist $69,467 $5,789 $1,336 $33

scopes and overview of models / Sudo Null IT News

3D laser scanning - creating a digital model of a physical body using a laser beam. The technology is non-contact, works at close and long distances, eliminates damage to objects during scanning. The principle of operation of 3D laser scanners: a directed laser beam is reflected from the surface of an object, forming a cloud of points. Each point has its own coordinates in space. The software identifies them and creates a finished 3D digital model based on this data.

From the overview you will find out where laser scanning is used and what equipment is used to solve related problems.

Purpose of laser scanners


Source: newequipment.com

Compared to traditional measurement methods, laser scanners have an important advantage - they can digitize objects with complex surfaces and work in hard-to-reach places for humans. The main areas of application of devices are input and output quality control in production, inspection of working devices in order to prevent and eliminate defects, reverse engineering and other areas.

Construction, renovation and renovation of objects


Source: ellisdon.com

During the preparation of the building design, it is necessary to evaluate the features of the site and the cost of the forthcoming works. With the help of 3D laser scanners, a landscape model is created, on the basis of which further work is carried out. During the construction process, intermediate control of the geometry of future buildings is required: walls, corners, openings, etc. Laser scanning copes with this task more accurately and faster than conventional measuring technologies.

The basis for an exterior or interior renovation is often an accurate digital model, on the basis of which changes and additions to the current interior or exterior are planned. Laser scanners are also indispensable in this area.

Road networks and transport


Source: autodesk.com

Laser scanning is becoming an integral part of the planning and creation of urban and suburban road networks, tunnels, pedestrian sections, railways, ports. The technology is used to assess the current state of coatings, plan and estimate the cost of repairs, to obtain models of perennial structures, such as bridges. The equipment is involved in the design, manufacture, repair and tuning of cars, air transport and ships.

Public utilities


Source: 3dscanner.es

With the help of 3D laser scanners, it became possible to quickly digitize and document engineering communications. Scanning significantly saves time during maintenance and reconstruction. The devices work remotely, minimizing the risks of people when working in adverse conditions and in hard-to-reach areas.

Oilfield installations


Source: ramboll.com

Oil production complexes located in the water require constant monitoring of work processes. Objects are regularly exposed to adverse and changeable environmental influences: winds of different strengths and directions, currents, temperature changes, etc. 3D laser scanning is becoming an integral part of the inspection of oil production installations. The equipment allows you to quickly identify and fix deformations and other damage, control wear, calculate the timing of scheduled maintenance, and prevent accidents.

Forensic examination


Source: faro.com

Photographs and manual measurements in investigative processes and forensic examinations are being replaced by 3D laser scanning. The devices create three-dimensional models of scenes of incidents with accurate fixation of the location of objects and the distances between them. The data is used in the process of pre-trial and litigation.

Other applications


Source: news.microsoft.com

3D laser scanners facilitate and optimize workflows in the following areas:

  • In cartography and geodesy - when creating terrain plans, maps, geographic information systems (GIS).
  • In archeology - in the restoration and preservation of ancient artifacts.
  • In paleontology, to create missing parts of excavated skeletons.
  • In medicine, including plastic surgery and dentistry.

Overview of models and manufacturers


FARO Focus

Source: ifworlddesignguide.com

FARO is one of the popular manufacturers of laser scanning devices. The new Focus3D S-series instruments stand out from other scanners in lightness and compact size, as well as the ability to work in bright sunlight and keep in touch with the location using GPS.

The FOCUS 3D S 150 scanner works at a distance of up to one hundred and fifty meters, with an accuracy of up to ±2000 microns at a maximum distance. The device is used in design, architecture and construction, for digitizing equipment and other objects.

You can learn more about this model on the website.

Source: youtube. com

Focus3D S 350 scans with the same accuracy as the previous device, but the distance to the measurement object is increased to 0.35 km. The device is designed for outdoor use.

Source: kkgeosystem.blogspot.com

SHINING 3D

Source: shining3d.com

FreeScan is a line of well-known Chinese manufacturer of digital equipment SHINING 3D. These are universal laser handheld 3D scanners FreeScan X5 (X5+), FreeScan X7 (X7+) weighing up to 1 kg, with an excellent set of professional features.

Basic parameters:
Specifications

Creaform

Source: foundry-planet.com

Creaform's SCAN 3D range is characterized by high scanning quality combined with ease of use. Portable laser scanners HandySCAN 3D, MetraSCAN 3D have a clear interface, do not require special skills and complex user training.

Instrument features:

ScanTech

Handheld range

Source: cmmxyz.com

The HandHeld Prince series uses blue and red laser beams to scan large and small objects with high accuracy. Scanners can operate in bright sunlight and low light conditions. Due to its compact size, high speed and detail, the equipment is widely used in reverse engineering, quality inspection, digitization of museum, archaeological and other objects.

Key features:

Composite series

Source: twitter.com

In addition to the dual scan mode, the KSCAN20 is equipped with a photogrammetry system, thanks to which the working area of ​​the device is 2.5 m * 3 m with an accuracy of 35 µm / m.

Blue and red lasers provide high-speed scanning of up to 650,000 measurements per second with a resolution of 0.01 mm.

Key Features:

3D Laser Scanner Applications


Reduce construction costs and time with FARO Focus

Source: autodesk. com

US construction company Gilbane invested $60,000 in a FARO Focus-S 350 laser scanner, software, and employee training. At first glance, the amount seems too large for a small-scale firm. But, after the calculations, the company's management came to the conclusion that the investment will pay off in the shortest possible time.

According to Gilbane's director of 3D design, John Tocci Jr., after introducing the expensive new technology, the company began to use the equipment even in areas where it was not originally planned. The specialists managed to save $30,000 for one hour of Focus-S 350 and Autodesk Revit software.

Source: autodesk.com

Building a digital model of air ducts and other systems made it possible to avoid errors during the installation of physical objects, which could take several weeks. The use of FARO Focus in the assembly of plumbing, electrical and mechanical installations helped to optimize costs at all stages of work

Case “Modernization of the building of the University of Miami”


Source: elevar. com

At the time of the start of work, the architects had drawings made 85 years ago, and a little more than 4.5 thousand square meters of the old building. Using a 3D laser scanner, Gilbane digitized the training areas in one day. Modernization of load-bearing structures, as well as the main utility systems: plumbing, electrical and ventilation, was based on data obtained from scanning.

Quality Inspection with ScanTech


Source: 3d-scantech.com

The advantage of metal stamping over forging and casting is the lower weight and thickness of the resulting parts. The use of molds gives high accuracy and maximum compliance of the obtained parts with the specified characteristics, but does not completely exclude deviations and deformations. Which, in turn, can lead to difficulties in assembling finished products and reducing product quality. Therefore, constant quality inspection is a necessary part of production.

Having understood the problems of the manufacturer, ScanTech experts proposed to check the quality of stamped parts using the PRINCE laser scanner. The ability to switch blue and red laser modes allowed the device to combine the functionality of traditional portable and metrological 3D scanners. The mode of operation with an active beam of a red laser provides fast digitization of objects. In the case of increased requirements for accuracy and detail, turn on the blue laser beam mode.

The photo shows the stages of work:

1. Installing markers - takes about two minutes.

Source: 3d-scantech.com

2. Digitizing a part takes about three minutes.

Source: 3d-scantech.com

Source: 3d-scantech.com

3. Deviation detection - lasts 3 minutes.

Source: 3d-scantech.com

The digital model shows the parameters and deviations, allows you to correct errors at the design stage. The case clearly shows that the process required a minimum of time and effort.

Using FARO 3D scanners on Justin Timberlake's world tour


Source: disguise.one

Timberlake's "Man of the Woods" program features scenery brought to life on stage. First, the ScanLAB team digitized a number of corners of the forest in the US state of Oregon. Laser projectors then directed images over the auditorium and stage, painting amazing pictures of the Portland landscape on translucent canvases suspended in the air.

Source: faro.com

Two Faro Focus X 330 laser scanners, Faro Scene 6.2 software were used to prepare visual effects. In total it took 40 digital copies and 1 working day in the concert hall.

Source: www.esa.int

Considering the limited preparation time, the large surface areas for displaying the image and the corresponding need for high image resolution, creating visual effects in a short time without using the chosen technology was impossible.

Selection guide for 3D laser scanners

In the review, we introduced you to the equipment of market leaders with an excellent reputation. All the devices described have high performance, so we recommend that you pay attention to these devices for use in various fields:

FARO Focus: Focus3D S350, Focus 3D S150.
Creaform: MetraSCAN 350 (350 Elite), MetraSCAN 750 (750 Elite), HandySCAN Black (Black Elite).
SHINING 3D: FreeScan X5 (X5+), FreeScan X7 (X7+).
ScanTech: KSCAN20, PRINCE 775, PRINCE 335.

Results


Source: 3d-scantech.com

The cases discussed clearly prove that the use of 3D laser scanning optimizes workflows in many areas. The range of tasks solved with the help of 3D laser scanners is constantly expanding.

Buy a professional 3D laser scanner in Top 3D Shop — experienced specialists will help you choose the most suitable equipment, software for your business, and offer a project to modernize production.

How does a 3d scanner work? Device, principle and technologies of 3D scanning

3D scanner is a stationary or small hand-held device for scanning objects with complex spatial geometry. Simple scanners process images in a plane, while 3d scans physical volumetric objects, displaying information as a polygonal model or a cloud of points. Three-dimensional scanning devices are used in medicine (dentistry, plastic surgery, making prostheses, organ models, etc.), for creating computer games, in the film industry, design, architecture, engineering, for designing industrial parts, cars, for reconstructing objects in archeology. Scanners analyze and digitally recreate a three-dimensional model of an object, its shape and color with a high degree of detail, working in different conditions (with insufficient visibility, in the dark, with vibration), with any materials, provide the desired format of output information for software for work with her on the computer.

How does a 3D scanner work?

The principle of operation of the 3d scanner is the ability of the device to determine the distance to an object, convert the received data into a digital image (three-dimensional model), transfer it to a computer. The scanner determines the coordinates of points in space on the surface of the processed object, analyzes them, and forms a detailed digital model. Cameras, lasers, rangefinders, devices for illumination are involved in its work.

3D scanning technologies

  • Contact (contacts with the object).
  • Non-contact (without object contact). These are the most promising and new technologies that allow you to create models of objects simply by directing a laser beam, light, waves at them. The scanner is applied at a distance and is able to create a copy of a hard-to-reach object without physical contact with it.

Non-contact 3d scanners

The two most common scanning technologies are optical (passive and radiation) and active laser.

Active emission principle

Scanner emits structured, intermittent light, laser triangulation. A laser beam, a beam of light generated in a special way (diodes, lamp flashes), and waves are directed to the object under study. Based on the analysis of their reflection and position, a three-dimensional copy of the object is formed.

Passive radiation principle

Do not emit anything, analyze the light or infrared (thermal) radiation of an object. Work like a human eye;

Photometric non-contact passive 3d scanning technology

Scanners from this group are represented on the market by the XYZprinting model. These are quite compact simple models that have only basic 3D scanning functions.
Pluses: reasonable price and compactness.

Device

Passive 3d scanner device (on the example of the specified model): housing, one compact camera, USB cable for connecting to a computer and transferring the image of the scanned object to it. Scanner without stand, manual, made in the form of a stapler.

How it works

Light-sensitive camera captures light from an object, processes it and forms a three-dimensional model, exporting it to a computer. The user can have two modes of operation: scanning a person or objects. To get started, you need to install the software on your computer, connect the device to it via a USB cable, select the operating mode, press the button on the scanner and, slowly swiping it in front of the object, scan.

How the technology works

The device uses passive scanning photometric technology without any radiation and projection onto the object. The work is carried out with a slightly improved simple optical camera that captures visible light. The disadvantage is that if the lighting is insufficient, the object needs to be additionally illuminated.

Scanning is performed using the so-called silhouette method. It reproduces the contours of an object based on a sequence of frames captured by a video camera swept around the object against a well-contrasted background.

Non-contact passive 3d scanning stereoscopic system

Models with non-contact passive scanning technology

This type of device is represented by 3D Systems Sense, 4D Dynamics Gotcha models.

Device and principle of operation of a 3d scanner based on a non-contact passive scanning system

Devices are equipped with two cameras and an infrared sensor. The 3D Systems Sense scanner is made in the form of a stapler, it is a compact handheld device, it can be used with a tripod, in Gotcha (with a tripod and a handle), it is included. The principle of operation is passive optical. In both cases, power and data transfer is carried out via a USB cable. The devices have standard modes: scanning a person and an object.

Scan technology

This camera detects infrared (thermal) radiation and normal light reflected from the subject. The systems are stereoscopic, that is, they use two cameras. The device compares frames, based on small comparisons of differences between them, determines the distance at each point of the image and recreates the object in digital form.

3d scanners with laser active scanning

This group of devices is represented by the following scanner models: 3D Systems iSense, DAVID Starter-Kit ver.2, MakerBot Digitizer.

Device

Devices have two lasers and a camera. It should be noted that the laser safety of gadgets corresponds to level I, which is completely safe for the eyes. The iSense scanner is designed to work only with the iOS operating system and with Apple iPad above 4 generations. It is made in a compact case, which is installed on a mobile gadget and connected to it with a USB cable, the battery lasts for 4 hours of its operation. It attaches like a webcam, scans and immediately displays the image on the iPad.

Models

DAVID Starter-Kit ver.2 3D scanner device: webcams and laser sensors with automatic adjustment function. The device comes with a tripod and tripod.

Maker Bot Digitizer is somewhat different in design from the previous model. The body of the scanner is made as a pedestal, one part of which is a rotating platform, the other is equipped with two lasers on the sides and a camera in the middle. They scan an object located on the site.

How technology works

Let's describe how a 3D scanner works. Laser scanning is based on the triangulation method. This is an active scan tool. It uses laser beams by projecting it onto an object. The laser processes the surface of the object, its points are fixed on its different parts. The camera captures the laser dots on it, the angle of displacement of the laser beam and transmits the data to a computer with the appropriate software, which forms the object in digital form.

The scanning technology is called "triangulation", because the triangle of the device's functional elements is involved in the work: the laser point on the object, its emitter, and the camera. In most cases, the dot is formed by a laser streak or spot passing over the surface of the object.

Structured light 3d scanning technology

Models that use structured or intermittent light technology in their work: DAVID SLS-2, RangeVision Smart, RangeVision Standard Plus, RangeVision Advanced, RangeVision Premium. A separate group includes manual Artec Spider, Artec Eva, Artec Eva Lite.

Device

The main functional elements of these devices are cameras and a light source that structures it in a special way and directs it to the scanned object. In the DAVID SLS-2 model, a video projector serves as a light source. These are mounted on a tripod with a tripod, which are included. This allows you to set up and calibrate instruments, install them in different positions and securely fix them, reducing vibration. Light sources in devices are halogen lamps, diodes, video projector.

Artec Spider, Artec Eva, Artec Eva Lite are made in a compact body with an iron-like handle. The handle has control buttons and outputs for interface and power cords. At the bottom there is also a hole for standard photo tripods and legs for fixing the device on the surface. 3d scanner device has the following. From the bottom it is equipped with a 3D camera (there are three of them in Artec Spider) with increased resolution, from the top of the device - a flash (projector) of structured illumination, a central color texture camera in the middle, along with light sources in the form of 6 or 12 diode bulbs.

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