FARO is a silver sponsor at the upcoming 2nd GEOBIM Middle East Conference, 16-17 August 2015 to be held at the Hotel Al Bustan Rotana Dubai, UAE. Join us to discover the FARO´s strong existense in the field of BIM Technologies with its High End 3D Documentation solutions during the GeoBIM 2015.
The Technical Slot of “3D Documentation in the BIM workflow: Efficiency Increase, Cost Saving, Risk Reduction” to be presented by FARO´s Senior Product Manager 3D Documentation Oliver Bürkler, will focus on implementing FARO´s award winning 3D Documentation solutions in documenting large volume spaces or structures in 3D, surveying and construction, as well as for developing and sustainability of large Scale Infrastructural Projects and the implementation of FARO 3D BIM processes into them.
With more than 30 years of pursuing its vision: “To be the world’s most trusted source for 3D measurement, imaging and realization technology”, we are developing values and adding them to computer-aided measurement and imaging devices and softwares to deliver the superior solutions.
Those who employ FARO 3D Solutions, are enabled to easily and accurately connect the physical world to the virtual world.
Please click here for Plenary Plan and further information of the event!
A clip from Larimer County demonstrating the benefits of our FARO Laser Scanner and how it excels in comparison to previous methods when tasked with documenting a crime scene.
Brian Wangler, a Crime Lab Analyst for the Northern Colorado Sheriff’s Office, received the award for his efforts in introducing the FARO Focus3D X 120 Laser Scanner solution to Larimer County.
By allowing investigators to capture crime scenes in 3D, the FARO Laser Scanner provides an exact record of the entire scene at the touch of a button and permits the site to be returned to normal use a short time later.
With 3D documentation replacing crime scene sketches, the crime scene reconstruction can be visited multiple times to verify witness testimony or evaluate hypotheses. Forensic scientists can accurately analyze line of sight, blood spatter and bullet trajectories to complement other techniques such as offender’s height estimation from video surveillance.
To find out more than click here!
BBC’s ONE’s 60 minute special Rome’s Invisible City follows ScanLAB Projects and presenters Alexander Armstrong and Dr Michael Scott as they explore the hidden underground secrets of Ancient Rome. The show explores Roman infrastructure and ingenuity, all below ground level. We journeyed via the icy, crystal clear waters of subterranean aqueducts that feed the Trevi fountain and two thousand year old sewers which still function beneath the Roman Forum today, to decadent, labyrinthine catacombs. Our laser scans map these hidden treasures, revealing for the first time the complex network of tunnels, chambers and passageways without which Rome could not have survived as a city of a million people.
Used in the program is our very own FARO Focus3D. The FARO Focus3D Laser Scanner creates a precise, virtual copy of the scanned objects at millimeter accuracies in only minutes by capturing up to 976,000 data points per second. At those speeds and with features such as auto-registration, projects are completed in a fraction of the time and can accrue savings up to 50% in scanning and processing time. Intuitive controls on the touchscreen display make the Focus simple to operate; its small size and weight facilitate portability and setup on site.
The FARO Focus3D Laser Scanner is the ideal portable scanning solution for accident reconstruction. With the Focus3D you can quickly capture the scene and minimize safety risk as well as traffic stoppages. Scan data is saved on an SD card for portable upload to the workstation for detailed analysis. The result is a permanent virtual 3D point cloud detailing vehicle, roadway and environmental conditions. This technology enables you to conduct accurate measurements and visualizations to recreate the accident for evaluation, as well as share scan data via the internet with insurance and legal agents.
Known worldwide and welcoming about 3.5 million visitors each year, the Mont Saint-Michel abbey is a major centre of attraction. As it is exposed to bad weather, it benefits from frequent restoration work. The French Centre for National Monuments (CMN) is currently focusing its efforts on the Merveille building, located just to the north of the abbey’s church, and containing the cloister, refectory, work room and chaplaincy. Together, these structures make up two sets of three-storey buildings, resting on the slope of the rock and extending approximately 90 m in length, 40 m in width and up to 50 m high.
“To prepare for this restoration the CMN asked us to produce a detailed digital rendering of the site so they would have access to a very precise survey, which was not available from the existing plans they had access to,” explained Lazare Grenier, Topography and Survey Engineer at Art Graphique & Patrimoine (AGP). The company, with long experience in using FARO equipment, decided to use scanners for this application. The topography of the site is complex and they needed to work outside of visiting hours. Simply put, a maximum of efficiency was required in a minimum of time. In these conditions, AGP was able to get the most out of the methodology they use in this type of application. This consists in defining all the locations where scanners will be placed in advance of placement to limit the amount of overlapping, and above all to avoid forgetting a hidden area. “This task led us to select almost 700 locations for placing the scanners.”
For the Mont Saint-Michel site, AGP used the FARO Focus 3D X 330 over a period of four weeks in late 2014. Certain parts of the site, notably the exterior walls above the cliff, were not visible from any position on the surface, so the digitisation was done using airborne equipment: to achieve this, AGP relied on traditional photogrammetry, since the onboard scanners did not have a high enough precision. The assembly of the scans is done using SCENE software from FARO.
With many years of experience under his belt using FARO scanners, Lazare Grenier takes stock of lighter and more compact than their predecessors. They are more precise, easier to use and work off batteries. They also have increased their depth of field and are able to record scenes which are much closer, as well as much further away. These scanners also allow for digitising buildings in complete darkness or in full sunlight ensuring total safety for the public in terms of their eyesight. All of this is particularly important in an application such as that of Mont Saint- Michel, where there are many constraints for scanner placement, requiring the scanner to be placed very close to the target in some cases, and farther away in other cases.”
To be held on the 17th of June at the Darwin Building we invite you to join us on a FARO and Autodesk AEC tech collaboration day, to be hosted by and held in association with the University College London.
Point Clouds are becoming the new currency of 3D as built documentation. With the latest innovations in Autodesk software and the continued development of FARO’s laser scanning technology, the integration of point clouds into AEC workflows has never been easier with such possibilities for accurate modelling, as built verification and visualisation.
To find out more about the event and how to register then click here!
Here’s an overview video for FARO Focus3D Laser Scanner for use in capturing and analyzing Crime and Accident Scenes. SCENE Forensic Extension allows for blood spatter analysis, bullet trajectory analysis, and also exports data to popular diagramming software packages (Visual Statement, Crime Zone, Crash Zone, ARAS 360, MapScenes)
The smallest and lightest laser scanners on the market – Focus3D X Series are ideal tools for indoor and outdoor applications. The fast and accurate laser scanners Focus3D offer everything you might expect from professional 3D laser scanners – with FARO’s established and well-known level of simplicity.
An opportunity for geospatial technology manufacturers and service providers to meet face-face with their users to demonstrate the latest technological advances in equipment, explore solutions and capabilities and to collaborate on design issues and options for future developments and requirements.
FARO will also be in attendance promoting the FARO Focus3D Laser Scanner with accompanying FARO Scene Software. The smallest and lightest laser scanners on the market – FARO Focus3D X Series are ideal tools for indoor and outdoor applications. The fast and accurate laser scanners Focus3D offer everything you might expect from professional 3D laser scanners – with FARO’s established and well-known level of simplicity.
Also being demonstrated will be the groundbreaking FARO Scanner Freestyle3D. The new FARO Freestyle3D is a premium quality, high-precision handheld 3D scanner that can quickly and reliably documents rooms, structures and objects in 3D and create high-definition pointclouds. The highly efficient scanner is suitable for all applications in which installations or properties must be precisely and quickly measured from various perspectives. Thanks to its lightweight carbon fibre body, the FARO Freestyle3D weighs less than a kilogramme, rendering it extremely portable and mobile.
Date:27th-28th May 2015
Laser scanning is rapidly gaining acceptance and becoming more and more commonplace in the law enforcement and accident reconstruction communities. Over the past few years, hardware and software have improved significantly creating a simpler, overall system to capture immense detail in a short period of time.
These are 10, of the many, reasons to consider laser scanners for a forensic application:
1) Easy to use: Many manufacturers are moving toward a simpler interface making operation of the scanner more like a digital camera than a complicated survey instrument.
2) Portability: Laser scanners are smaller in size today than ever before making them easier to deploy to a crime/accident scene and useable by just about anyone.
3) Safety: Data can be collected from a distance, with some scanners collected measurements over 300 meters away. This allows the operator to scan a scene out of harms way. In addition, laser scanners can collect up to 1,000,000 points per second with average scan times of several minutes. Less time on a scene means less time for potential danger to the individuals at the scene. Class I lasers are also being used in laser scanners creating a truly eye-safe environment during the scan.
4) Speed and Efficiency: Complete color scans can be captured in as little as several minutes creating a virtual scene with high accuracy and detail that can be revisited over and over without physically traveling to the site. In contrast to traditional methods of surveying/documenting a scene, laser scanning can be much faster and allow multiple investigators to have eyes on the virtual scene.
5) Produce a variety of deliverables: Once the scene has been laser scanned, various types of final products can be extracted or produced from the data. For example, anything from a traditional 2D drawing to a detailed 3D animation can be created from the scan data.
6) Peer pressure: With more and more agencies utilizing laser scanners for their scene documentation, the result is more widely accepted. As well as growth in expectations that future scenes will be documented in 3D.
7) Cost Effective: Laser scanners are becoming more and comparable in price to total stations which are traditionally used for documenting traffic accidents.
8) Specialized Measurement Tools: Software for forensic analysis from 3D data also now includes special tools for measuring blood spatter and bullet trajectory, witness/suspect height, etc.
9) Easy to share: More software tools are available to view and document the scan data without the requirement of installing software or purchasing additional licenses.
10) Archive the scene: Once the scene has been laser scanned it has been essentially frozen in time, preserved for future virtual visits by anyone who may wish to investigate the scene. This allows for measurements to be taken that may not have necessarily been thought to be important at the time of capture as well.