This invention relates generally to radio-frequency (RF) antennas, and, in particular, to hardware and software for reconfiguring antenna array patterns.

The design of RF antennas can be exceedingly complex and mathematically and empirically intense due to the wide range of tradeoffs involving frequency response, sensitivity, directionality, polarizations, and so forth. Conventional antennas, such as open loops and parallel element arrays are limited in terms of applicability, such that, quite often, a particular geometry is relegated to a dedicated frequency band or direction. It has been found that so-called fractal antennas offer certain advantages over conventional designs, including smaller size and desirable performance at multiple frequencies. In addition to greater frequency independence, such antennas afford enhanced radiation, since the often large number of sharp edges, corners, and discontinuities each act as points of electrical propagation or reception.

This invention resides in methods and apparatus for reconfiguring an antenna array pattern. A substrate is provided with a multiplicity of electrically conductive elements, and the elements are interconnected to form an antenna structure for desired application. Either the antenna pattern itself may be altered according to the invention, or one or more feed points may be changed, or all of the above. As such, the electrically conductive elements may be interconnected to change the directionality of the antenna pattern, the gain, the frequency response, or other operational characteristics. The electrically conductive elements may be arranged in the form of an inchoate antenna pattern or regular array. Switches at key points of the structure enable the pattern to be changed dynamically. Such switching may be carried out in real time in accordance with transmissions reception characteristics, or in advance using simulations associated with the switched elements.

File Number: 0332.00