Abstract: A system for air-to-air communications which provides for multi-band simultaneous high and low frequency communications utilizing a variable geometry type antenna. The system operates simultaneously in a broadcast mode on low frequencies and in a directed mode on high frequencies.

Abstract: Apparatus and method improving the performance and allowing increased directionality and bandwidth via display-like software defined antenna. A surface is composed of an array of interconnected pixels which are capable of either becoming conducting or resistive allowing arbitrarily sized and shaped antenna structures. Each pixel is controlled by biasing the base which alters the conductivity on the top portion of the pixel. The specific pattern which is active on the display style antenna is based on the desired direction, frequency range, and waveform necessary for a required transmit and receive function.

Abstract: Apparatus for improving the performance and allowing increased directionality of reflecting-type antenna systems by varying the geometry of the reflecting surface. A reflecting surface is composed of an array of actuated pins which are capable of extending or retracting to alter the overall pattern. An actuator controlling unit has the address of each actuator and is able to extend or retract the pins to the desired degree. The specific pattern which the actuator control unit realizes is determined by the iterative position calculator which utilizes directional inputs from the user and/or inputs from a system which determines the effectiveness of previous pin movements. The apparatus attempts to maximize the received signal by assessing amplitude changes over time and utilizing that information to direct alteration in the reflecting surface for optimal performance.

Abstract: Apparatus for multi-band simultaneous high and low frequency communications utilizing a variable geometry type antenna. Apparatus operates simultaneously in a broadcast mode on low frequencies and in a directed mode on high frequencies. Radiating elements are individually selectable in the directed mode to permit phasing and resultant beam steering. The geometry, arrangement and number of radiating elements are chosen such that radio frequency coupling amongst the radiating elements will occur at the broadcast mode frequency so as to cause the radiating elements, collectively, and therefore the antenna to structure, to resonate in broadcast mode thereby producing a e omnidirectional radiating pattern.

Abstract: A communications system for multiple aircraft in flight which provides for multi-hand simultaneous high and low frequency communications utilizing a variable geometry type antenna. The system operates simultaneously in a broadcast mode on low frequencies and in a directed mode on high frequencies.

Abstract: Apparatus for multi-band simultaneous high and low frequency communications utilizing a variable geometry type antenna. Apparatus operates simultaneously in a broadcast mode on low frequencies and in a directed mode on high frequencies.

Abstract: Apparatus and method improving the performance and allowing increased directionality and bandwidth via display-like software defined antenna. A surface is composed of an array of interconnected pixels which are capable of either becoming conducting or resistive allowing arbitrarily sized and shaped antenna structures. Each pixel is controlled by biasing the base which alters the conductivity on the top portion of the pixel. The specific pattern which is active on the display style antenna is based on the desired direction, frequency range, and waveform necessary for a required transmit and receive function.

Abstract: Apparatus for improving the performance and allowing increased directionality of reflecting-type antenna systems by varying the geometry of the reflecting surface. A reflecting surface is composed of an array of actuated pins which are capable of extending or retracting to alter the overall pattern. An actuator controlling unit has the address of each actuator and is able to extend or retract the pins to the desired degree. The specific pattern which the actuator control unit realizes is determined by the iterative position calculator which utilizes directional inputs from the user and/or inputs from a system which determines the effectiveness of previous pin movements. The apparatus attempts to maximize the received signal by assessing amplitude changes over time and utilizing that information to direct alteration in the reflecting surface for optimal performance.