Unlocking the true potential of general aviation (GA) requires a significant increase in safety measures. Today, pilots of small aircraft often rely on Visual Flight Rules operations (VFR) to detect and avoid obstacles in the air and on the ground. To operate under Instrument...
Unlocking the true potential of general aviation (GA) requires a significant increase in safety measures. Today, pilots of small aircraft often rely on Visual Flight Rules operations (VFR) to detect and avoid obstacles in the air and on the ground. To operate under Instrument Flight Rules, pilots require special equipment and additional licenses. They must also fly in controlled airspace.These extra requirements are not always feasible for many pilots.
In the past five years alone, there have been more than 7,064 GA accidents, resulting in 2,189 fatalities, most often while using VFR. The AMOR project aims to add a powerful level of safety to GA. As a stand-alone, affordable Electronic
Detection and Avoid (ED&A) system, AMOR can potentially help pilots avoid 80% of accidents that occur under the current VFR system. ED&A provides small aircraft with “electronic eyesâ€. This allows for collision avoidance that reaches far beyond human visibility. It supports and enhances the safety and efficacy of VFR. What’s more, this safety-added system will unlock the true business potential of GA, allowing for an entirely new market of local small aircraft transport, without the need for additional infrastructure. Small aircraft pilots can simply use the more than 2,750 runways already in operation in Europe. While large civil aircraft are able to utilise Air Traffic Control, small aircraft pilots are often left to their own judgment to operate safely.
AMOR will increase their safety by a factor of 5, and, as a stand-alone system, will not interfere with current civil aircraft operations. The successful completion of AMOR will offer a fully operational ED&A set-up that can be demonstrated to the industry. Within five years, AMOR aims to have supplied approx.0.5% of the current GA market (300k aircraft) with an affordable, independent system at a market price of €20k. The system will be distributed through tier 1 and tier 2 co-developers who are already engaged in the project.
• First version of radar simulator has been developed in Matlab (Oct-Nov 2015);
• First development versions of RF units and antennas have been developed (Oct-Nov 2015);
• Fixed based flight simulator basic set-up completed (Oct-Nov 2015);
• Bluebox developments is now based on a fibre optic gyros - which has been ordered end-Oct. (Oct-Nov 2015). The Fiber Optic Gyro has been recalled by the manufacturer and instead a xSens MTi G 700 has been purchased, which is an accurate MEMS IMU/ AHRS.
AMOR will increase their safety by a factor of 5, and, as a stand-alone system, will not interfere with current civil aircraft operations. The successful completion of AMOR will offer a fully operational ED&A set-up that can be demonstrated to the industry. Within five years, AMOR aims to have supplied approx.0.5% of the current GA market (300k aircraft) with an affordable, independent system at a market price of €20k. The system will be distributed through tier 1 and tier 2 co-developers who are already engaged in the project.
More info: http://www.selfly.nl.