Asian Surveying & Mapping
Breaking News
Building in Bangkok collapses as powerful earthquake hits southeast Asia
One person has died and 50 were injured in...
Bellatrix Aerospace Partners with Astroscale Japan for Space Debris Removal
Bellatrix Aerospace, a Bengaluru-based space mobility company, has joined...
NSTC announces Pingtung site as Taiwan’s space mission launch center
Taipei, March 26 (CNA) Taiwan's National Science and Technology...
ISRO-NASA mission to send Indian astronaut to ISS faces budget cut
New Delhi: The ISRO-NASA mission to send an Indian...
China launches new data relaying satellite into space
China successfully launched a new data relaying satellite into...
China unveils first homegrown space mining robot
China's first space mining robot has been developed by...
North Korea rejects G7 call for denuclearization, vows to ‘strengthen’ nuclear forces
North Korea on Monday vowed to "steadily update and...
Taiwan showcases innovative technologies at Satellite 2025
Innovative technologies are on display at the Taiwan Space...
Japanese Astronaut Onishi departs with three others for 2nd Space Mission
Takuya Onishi has left for space for his second...
Saudi Arabia, Korea Sign Memorandum of Cooperation to Enhance Space Collaboration
Riyadh, SPA: The Saudi Space Agency (SSA) today signed...

November 21st, 2011
WINDCUBE v2 Lidar Remote Sensor

The profitability of a wind farm project depends on two major challenges: reducing data uncertainty and reducing project risks. Uncertainties are related to both turbine response and wind resource estimation. The wind industry community agrees that the best practice is the use of a Lidar in combination with a fixed mast . It offers a reduction of several uncertainties according to the following promising practice: one fixed mast for the whole wind ressource assessment period + one moving Lidar for shorter periods of time. Read More