Celestain continually launches research & development projects in the areas of emerging technologies and applications. We take up research and prototype development projects for our customers. We also partner with academic institutions and conduct government funded research programs. The ongoing research efforts are summarized here. Please contact us for more information in the areas of your interest.
Development of models & simulations to analyze the traffic growth pattern in the air space. The models and simulations will aid in capacity planning in airspace and airports. The simulations consider various socio-economic, political and technological direct/indirect drivers contributing to the airspace traffic.
Development of GPS algorithm to improve the location accuracy of mobile objects. Location accuracy required for smaller areas with safety restrictions is in the orders of centimeters. The algorithm will use inexpensive methods for achieving such higher order of accuracy. Applications include surface movement control in airports.
Real-Time accuracy prediction and improvement algorithms for communication networks that integrate and host system-wide information. The real-time prediction algorithms will be used in System-Wide Information Management. The algorithms will give the estimates of real-time of the information accessed through single point across integrated airport locations.
Devising efficient and simpler methods to embed and identify uniqueness of aerospace parts in the production and at the repair shops.
Efficient and simpler methods to predict the reliability and maintenance requirements of aircraft parts from diagnostics and prognostics data.
Wireless sensor for nonintrusive diagnosis of remote equipment by signal signature analytics. Applications include telemetry installations, remote monitoring systems and airport equipment such as radars, navigation and weather systems.
IoT sensor uniqueness identification to prevent physical device masquerade threats in remote installations. Authentic sensor replacements are recognized by unique code.
Automatic Line of Sight search & alignment algorithm for mobile optical wireless transceivers. This technique is applied for fast data upload/download in aircrafts at airports.
Image processing for diagnosis of light emitting device clusters installed in safety operations. This method is applicable for continuous upkeep of airfield lighting without the expensive wired diagnosis.