Sensors and Systems
Breaking News
Trimble and GroundProbe Collaborate to Offer Complete Monitoring Portfolio for Geotechnical and Geospatial Mining Professionals
Rating12345Integrated approach means less hassle and more support for...
Space42 and ICEYE Announce Joint Venture to Bring Satellite Manufacturing to the UAE
Rating12345ABU DHABI, UAE —  Space42 (ADX: SPACE42), a UAE-based...
Hexagon appoints new Group Executive Vice President and new President of Hexagon’s Geosystems division
Rating12345 Thomas Harring, currently President of Hexagon’s Geosystems division,...

January 13th, 2016
Teledyne Optech Lidar Approved for Use in OSIRIS-REx Ssteroid Mission

  • Rating12345

January 13, 2016 — Teledyne Optech is pleased to announce that NASA, the Canadian Space Agency (CSA), and York University have approved the OSIRIS-REx Laser Altimeter (OLA) designed by scientists and engineers from Teledyne Optech and built by MacDonald, Dettwiler and Associates (MDA). The OLA is now being prepared for installation aboard the Origins-Spectral Interpretation-Resource Identification-Security-Regolith Explorer (OSIRIS-REx) spacecraft.

Scheduled for launch in September 2016, OSIRIS-REx will visit the asteroid Bennu to survey, land, and return a sample of its surface material. During the approach, OLA will scan Bennu’s surface and create a high-resolution 3D map of the entire asteroid, which will help scientists understand its morphology and select the best spot for OSIRIS-REx to collect its sample. Because Bennu is a carbonaceous asteroid that has likely changed very little since the birth of the solar system, scientists hope that this mission will shed light on how the solar system developed.

OLA, one of the most advanced lidar instruments ever used for such a mission, is equipped with a rapid scanning mirror and two separate lasers. While many earlier space missions have used simple laser rangefinders to measure the distance to their targets, OLA will use its scanning technology to spread its measurements over the entire asteroid, creating a 3D map of Bennu. The two lasers give OLA extra flexibility for long- and short-range operation: The long-range laser makes measurements from up to 7 km away as OSIRIS-REx approaches Bennu, while the short-range laser fires up to 10,000 times per second to create detailed maps quickly once OSIRIS-REx is in close orbit.

“It has been five years since the beginning phase of this project, and I’m very proud of the team that delivered this complex instrument on schedule,” said Dr. Paul LaRocque, Teledyne Optech’s Vice President for Special Projects. “NASA and the CSA were pleased with our performance, which comes from Teledyne Optech’s long experience in creating lidar systems for space operations.”

OLA is not the first Teledyne Optech lidar to travel into space. Teledyne Optech designed the atmospheric lidar aboard NASA’s Phoenix Mars Lander, which returned a trove of information about the weather, including proof that it actually snows on the red planet. In an application similar to OSIRIS-REx, Teledyne Optech also created the rendezvous lidar for US Air Force Research Lab satellite XSS-11, which successfully tracked other satellites in orbit to assess the possibility of satellite docking and servicing.

Find out more at www.teledyneoptech.com.

About Teledyne Optech

Teledyne Optech is the world leader in high-accuracy lidar 3D survey systems, integrated cameras, and productivity-enhancing workflows. With operations and staff worldwide, Teledyne Optech offers both standalone and fully integrated lidar and camera solutions for airborne mapping, airborne lidar bathymetry, mobile mapping, terrestrial laser scanning, mine cavity monitoring, and industrial process control, as well as space-proven sensors. Teledyne Optech supports its clients with an around-the-clock team, on-site service, and regular efficiency enhancements to the workflow of its integrated systems. Accuracy and productivity matter!

Leave a Reply

Your email address will not be published. Required fields are marked *