Solution for Stabilization & Aiming
REDUCING FLIGHT TEST CYCLE TIME FROM WEEKS TO HOURS
Immediate data feedback allowed flight engineers to make critical adjustments shortly after each test, enabling multiple tests per day. Previous test programs required week-long delays between flights for data analysis.
INERTIAL SENSING FOR UNDERWATER ROVS AND UUVS
Underwater Remotely Operated Vehicles (ROVs) and Unmanned Underwater Vehicles (UUVs) operate in extremely demanding environments that require precise and reliable feedback. Inertial navigation solutions must be very accurate…
Wireless Torque Monitoring with Torque-Link
Easy-to-Install, High-RPM Hardened Collar for Torque Measuring
INTEGRATING WIRELESS SYSTEMS AND ROTORCRAFT HUMS
Optimize communication, data analysis, and battery life with a Wireless Network
FIXED-WING WIRELESS HEALTH MONITORING
Instant, comprehensive reporting of aircraft health, from nose to rudder
MICROSTRAIN INERTIAL SENSORS GUIDE UNMANNED GROUND VEHICLES
MicroStrain’s miniature, lightweight inertial navigation solutions improve navigational accuracy while reducing power consumption in next-generation unmanned ground vehicles (UGV).
HIGH-PERFORMANCE, MINIATURE INERTIAL SENSOR SOLUTIONS FOR UAV SYSTEMS
LORD MicroStrain® provides high-performance inertial sensing systems with minimal weight,size, and integration barriers
INERTIAL SENSING FOR UNMANNED AIR VEHICLES
LORD Sensing-MicroStrain® inertial sensors provide high performance in a very small and lightweight package. MEMS technologies combined with GNSS/GPS and sophisticated estimation filtering offer accurate and reliable data quantities to provide precise control, stabilization, and pointing at the best value.
WIRELESS TORQUE MONITORING FOR UNMANNED ROTORCRAFT FLIGHT TEST APPLICATIONS
Effective and accurate torque monitoring has been, and will continue to be, an ongoing challenge in the industrial, agricultural, and aerospace arenas. Torque measurements are useful as an indicator of mechanical system health and desirable for test and production run assets.
UNMANNED ROTORCRAFT FLIGHT TESTING USING WIRELESS SENSOR NETWORKS FOR DATA COLLECTION AND CLOUD-BASED COMPUTING
Aircraft flight test has traditionally been expensive and time consuming to accomplish, requiring complex hardware design and integration and extensive operational test teams to address aircraft downtime for instrumentation maintenance and calibration, flight operations, and post-flight data handling and evaluation.
Remote Monitoring – Case Study
Have you ever wondered if there is a vibration condition monitoring system that can be installed anywhere and then monitored from anywhere else? Even on your smartphone?