Xenotran Corporation proposes to develop a new optical true-time-delay antenna steering system suitable for Navy radar and communications systems. The system will be based on the optical commutator, a device that employs fiber optic delay lines which provide exact timing to steer antenna… More

Xenotran corporation proposes to develop a new antenna system employing an optical true-time-delay steering technique that will be suitable for Army radar. The antenna system will be based on the optical commutator, a device that is capable of switching fiber optic delay lines in an ordered… More

Xenotran corporation proposes to develop a new antenna system employing an optical true-time-delay steering technique that will be suitable for Army radar. The antenna system will be based on the optical commutator, a device that is capable of switching fiber optic delay lines in an ordered… More

Not Available Xtensory is uniquely qualified to integrate multiple simulated vehicle platforms into single simulator platforms for testbeds for virtual warfare simulation or for training because it already has developed key components, the device interfaces and device integration server. This can… More

"Xenotran proposes to conduct a program of research and development that will resultin a physical terrain model with a surface that can be reconfigured based on digitalterrain information. Currently, the U. S. Army produces 3-D solid terrain modelsusing stereo lithography or CNC mills. Current… More

During the Phase I of this project, the basic principles of the dynamic sandtable have been successively demonstrated. The prototype met all the specifications. During the Phase II, the design will be refined to make it more readily manufacturable andto reduce the cost. Attention will be given… More

Xenotran proposes to develop a forward error correction (FEC) device for use in Ballistic Missile Defense (BMD) systems for ensuring survivable and robust communications between the Battle Management, Command, Control, and Communications (BM/C3) elementsand an Exo-Atmospheric Kill Vehicle (EKV)… More

Xenotran proposes to design a Forward Error Correction (FEC) device that is flexible and adaptive to changing communications needs. The FEC is based upon High-Dimensional Circular Trellis Coded Modulation (HDCTCM) and takes advantage of recent developmentsin iterative coding techniques. The… More

Xenotran proposes to develop a forward error correction device for use in Ballistic Missile Defense systems for ensuring survivable and robust communications between the Battle Management, Command, Control, and Communications elements and an ExoAtmospheric Kill Vehicle (EKV) during flight. … More

Xenotran proposes to develop a Vehicle Health Monitoring (VHM) sensor based on inductive coupling for detecting failure initiation, and crack propagation in composite materials. The VHM system consists of a very low cost crack sensing transducer that can be interrogated and powered wirelessly from… More

Xenotran proposes to design an adaptive filtering system capable of mitigating the effects of narrowband interference and multi-path distortion on a Multi-h Continuous Phase Modulation (CPM) modulated channel. The adaptive filtering system will be based on the Least-Mean-Square (LMS) algorithm and… More

The Xenotran Corporation and PrismTech Solutions Americas Inc. (PSA) (the "Team") along with the U.S. Government proposes to design and develop a comprehensive Software Defined Radio (SDR) tool suite to aid in the development, porting, integration, debugging and analysis of waveform software. This… More