Measuring distances in microseconds

Nov 05, 2009
In a measurement channel the laser radar (on the right) determines the distance of an object up to 80 meters away every two microseconds or faster. (© Fraunhofer IPM)

(PhysOrg.com) -- Standard laser devices are fast enough for measuring the size of a room, but they need to be faster for outdoor mobile applications. Researchers have brought these scanners up to speed -- they can measure ten times faster than usual scanners.

Will the massive truck be able to pass under the bridge or should it take another route? Do the houses lining the street leave enough room for the oversized vehicle to pass through? Such questions are answered by sending out a car fitted with distance measuring equipment to check the route the heavy load will take. A mounted on the car scans bridges, buildings, signs and trees along the way.

Working on the time-of-flight principle, the scanner sends out short laser pulses which are reflected by the obstacles they encounter. The time the light needs to travel to the obstacle and back to the integrated sensor provides the distance measurement. The results are coupled with the car’s GPS position.

Unfortunately, the car has to travel very slowly to pick up enough points on the objects for accurate measurements. Using scanners of this type in airplanes or helicopters to determine terrain elevations and objects on the ground is also problematic, as high plane speed means the resolution is low and the resulting image incomplete.

Researchers at the Fraunhofer Institute for Physical Measurement Techniques IPM in Freiburg have now substantially increased the speed of distance measurement, which is the key to more efficient laser scanning. “We can either measure ten times faster or retain the scanner speed but analyze ten times as many points of an object - for instance from an airplane,” explains Dr. Ilia Bourovoi, project manager at the IPM. The laser measures the distance several million times per second. Dr. Bourovoi reveals how the researchers achieve this speed: “We have developed new electronic circuits and special software to process the data. In addition we have optimized the laser pulse rate.”

While conventional scanners need several pulses for one measurement, the new pulse laser radar can determine the on the basis of each individual transmitted pulse. Apart from higher measurement speed, this offers the further advantage that the measured values do not depend on the speed at which the scanner is moving - for instance when mounted on a car or airplane. Scanners requiring several per point produce blurred images as the scanner has already moved when the next pulses are transmitted.

The new pulse laser radar device has already been built on a laboratory scale. In future, cars equipped with it will be able to travel at regular traffic speed as they record 3D data along roads. From aircraft too the pulse laser radar will deliver a high measurement point density.

Provided by Fraunhofer-Gesellschaft (news : web)

Explore further: Researchers propose network-based evaluation tool to assess relief operations feasibility

add to favorites email to friend print save as pdf

Related Stories

Can a laser scanner drive a car?

Mar 28, 2008

A car that navigates city streets without a driver – steered only by a computer? That might seem impossible to many. But researchers from Fraunhofer and the FU Berlin are presenting such an automated vehicle at this year’s ...

Mirror Measures Vortex Drag

Jul 28, 2004

Airplanes generate trailing wake vortices which can be dangerous for following aircraft, especially on takeoff and landing. An onboard laser measuring device scans the air space in front of the plane, recognizes ...

Recommended for you

Large streams of data warn cars, banks and oil drillers

6 hours ago

Better warning systems that alert motorists to a collision, make banks aware of the risk of losses on bad customers, and tell oil companies about potential problems with new drilling. This is the aim of AMIDST, the EU project ...

User comments : 0

More news stories

Quantenna promises 10-gigabit Wi-Fi by next year

(Phys.org) —Quantenna Communications has announced that it has plans for releasing a chipset that will be capable of delivering 10Gbps WiFi to/from routers, bridges and computers by sometime next year. ...

Floating nuclear plants could ride out tsunamis

When an earthquake and tsunami struck the Fukushima Daiichi nuclear plant complex in 2011, neither the quake nor the inundation caused the ensuing contamination. Rather, it was the aftereffects—specifically, ...

Unlocking secrets of new solar material

(Phys.org) —A new solar material that has the same crystal structure as a mineral first found in the Ural Mountains in 1839 is shooting up the efficiency charts faster than almost anything researchers have ...

Patent talk: Google sharpens contact lens vision

(Phys.org) —A report from Patent Bolt brings us one step closer to what Google may have in mind in developing smart contact lenses. According to the discussion Google is interested in the concept of contact ...

How kids' brain structures grow as memory develops

Our ability to store memories improves during childhood, associated with structural changes in the hippocampus and its connections with prefrontal and parietal cortices. New research from UC Davis is exploring ...

Gate for bacterial toxins found

Prof. Dr. Dr. Klaus Aktories and Dr. Panagiotis Papatheodorou from the Institute of Experimental and Clinical Pharmacology and Toxicology of the University of Freiburg have discovered the receptor responsible ...