Abstract: An optical communication system using a high altitude tethered balloon 10 that operates above most clouds and atmospheric turbulence. An optical communication system includes a balloon 10 with an optical communication payload 30, a fiber optic cable attached to the tether 12, an automated winch system 14, and a ground station 28. The balloon 10 is designed for sustained flight at, and recovery from, high altitude using the automated winch system 14. An acquisition, tracking and pointing (ATP) system 22 enables a balloon-based optical transceiver 24 to maintain line-of-sight optical communications with an overhead satellite 34. The optical link between the satellite 34 and the balloon 10 is an open channel. Data is transmitted to the ground station 28 from the balloon 10 through the secure fiber optic closed channel attached to the tether 12.

Abstract: An optical communication system using a high altitude tethered balloon 10 that operates above most clouds and atmospheric turbulence. An optical communication system includes a balloon 10 with an optical communication payload 30, a fiber optic cable attached to the tether 12, an automated winch system 14, and a ground station 28. The balloon 10 is designed for sustained flight at, and recovery from, high altitude using the automated winch system 14. An acquisition, tracking and pointing (ATP) system 22 enables a balloon-based optical transceiver 24 to maintain line-of-sight optical communications with an overhead satellite 34. The optical link between the satellite 34 and the balloon 10 is an open channel. Data is transmitted to the ground station 28 from the balloon 10 through the secure fiber optic closed channel attached to the tether 12.

Abstract: An integrated receiver and navigation instrument receives RF navigation signals and performs hyperbolic coordinate conversions utilizing a specially programmed computer to control the measurement modes and sequences and to improve the accuracy of the navigational information produced. An RF unit processes the incoming signal for use by a Digital Measurement unit which makes digital measurements at preselected points on the incoming signal waveform, and which can operate in various modes. The specially programmed computer controls the operating modes of the Digital Measurement unit, performs coordinate conversions, and provides navigational information using various parameters obtained in the receiver section of the instrument. The Digital Measurement unit modes permit a search for a desired signal, positioning of the measurement points on the signal and continuous tracking of the signal.