OKIS Automatic Take-off and Landing System

OKIS Automatic Take-off and Landing System

Safe and Independent Operations

RADAR BASED SOLUTION

Today, the first systems used by the modern armies for landing and take-offs of unmanned aerial vehicles (UAVs), which they intensively used for reconnaissance, surveillance and destruction of military targets are operator-controlled manual systems. For this reason, 50% of UAV loss is experienced during the take-off and landing phases.

OKIS Automatic Take-off and Landing System is a radar-based system for automating take-off and landing phases of the UAVs. OKIS consists of two
subsystems;Airborne and Ground Segments. Airborne Segment is atransponder withitsantenna set installed
ontheUAVandGroundSegmentisaninterrogatorradarinstalledinthesidelineoftherunway.

Due to the unprotected nature of GPS signals against various jamming techniques ,OKIS provides a reliable solution especially
in war time for the automatic take-off and landing processes of UAVs. OKIS also could be used for improving take-off and landing
capability of helicopters during adverse weather conditions and night operations.
OKIS Airborne Segment having small size and weight could be used in almost any kind of UAV swithout having any significant
capacity degradation on payload capacity.
OKIS Ground Segment provides a safe and precise take-off/landing by feeding accurate UAVs 3D position information (range,
bearing, elevation) to Ground Control Station (GCS).
OKIS has a strong mobility with its two man lift feature and easy installation and de-installation feature in a very short time. OKIS
has a robust design against the battlefield conditions and mission reliability requirements and it facilitates ground operators to
take-off and land UAVs in both ends of the runways.

Key Features of OKIS Automatic Take-off and Landing System

  • Operational Continuity
  • Long Detection and Tracking Ranges
  • High Positional Accuracy
  • Low RF Power Requirement
  • Platform-Independent Architecture
  • Two-Man Lift Feature

APPLICATIONS

  • Unmanned aerial vehicles (UAVs)