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Near Vertical Incident Skywave (NVIS) techniques involve physical propagation using the electromagnetically reflective canopy of ionosphere. HF radio transmission is normally optimized for distances beyond 1000 miles. However, NVIS techniques optimize communication from the transmitting station out to 200 miles. A void exists in communication distances beyond line-of-sight and closer than several hundred miles. Line-of-sight communications can easily be accomplished with transceivers operating above 90 MHz. Long distance communication around the globe can be accomplished with HF radios, however HF communication is frequently disrupted by the peculiar nature of skip propagation. Skip propagation is the tendency for HF waves to be received in the immediate vicinity of the transmitter and also received several hundred miles away, but to be missing (skipping) the interval between. This is the result of optimizing the design of HF antennas for long distance communication. The NVIS system characterized in this work was designed to eliminate skip propagation by optimizing the design for contiguous coverage. The NVIS technique involves use of transmission and receiving antennas that create nearly vertical propagation and continuous coverage from the transmitter to a distance of 200 miles.