COMMUNICATION BETWEEN RADIO TERMINALS ON AN EXTRATERRESTRIAL BODY USING A SPACE BASED COMPONENT AND AN ANCILLARY COMPONENT LOCATED ON THE EXTRATERRESTRIAL BODY.

摘要

The underlying invention is "Solar Sonic" deep-space multidimensional coded universal communications "via ionosphere" armed signals and quantum algorithm resonance of hydroxyl molecules cosmic- radio- waves. The said invention is a solar sonic universe multidimensional radio astronomical control tower resonator for systemic muIti-communications and manipulation of all resonating matters and antimatters alike. The solar sonic multidimensional interstellar radio signal communications resonator is a novel technology precisely pertaining to deep space multidimensional radio signal communications, which is an art reflected within the formal technology stated title. The present invention provides a system for communications on an extraterrestrial body, may include a space-based component and an ancillary extraterrestrial component on the extraterrestrial body. The space-baaed component may be configured to provide wireless communications with plurality of radio-terminals located on the extraterrestrial body over a satellite frequency band wherein the space-based component includes at least one satellite orbiting the extraterrestrial body. The ancillary extraterrestrial component may be configured to provide wireless communications with the plurality of radio-terminal located on the extraterrestrial body. Moreover, the ancillary extraterrestrial component may reuse at least one satellite frequency of the satellite frequency band and the space-based component and the ancillary extraterrestrial component may be configured to relay communications there between. An exciter system is provided for use in facilitating electromagnetic communication within an enclosed space. The system includes an exciter which may be in the form of a three dimensional hemispherical exciter or a two dimensional planar sector exciter depending on the size of the associated structure and the power requirements of operation. The exciter system operates in conjunction with a hub/controller network. The exciter system is adapted to induce a quasi-static evanescent field within the space and to thereby enable communications using the evanescent field at frequencies within an operational frequency range determined by the characteristics of the space. The exciter is mounted in opposition to a portion of a conductive framework within the enclosed space. In operation an coaxial connector connects the exciter to die hub/controller network with the central conductor connecting at a feed point to the exciter while the shield conductor is connected to the opposing conductive framework. In some embodiments a post acts as a curtain to enhance performance at tower frequencies. Improved communications systems and methods, however, may be desired to accommodate increasing communications to and from extraterrestrial bodies such as the moor and/or mars as more missions are sent to extraterrestrial bodies. More particularly, communications systems and methods may be desired to accommodate increased communications between radio- terminals on the extraterrestrial body and a satellite orbiting a celestial body and/ or transceivers on earth. The present invention relates generally to wireless communications and more particularly to systems for internal communications within structures, at frequencies in the range of 0.5 to l00 MHz.