| Patent application number | Description | Published |
|---|
| 20090058748 | Wideband Vehicular Antennas - Antennas suitable for wideband transmission and reception are disclosed that are useful in environments susceptible to vibration and impact motion such as for example vehicles of various types, e.g., automobiles, trains, etc. The apparatus can include a bicone antenna including two cone-shaped elements. The physical shape of at least one of the two cone-shaped elements may be at least partially defined by one or more pleats (e.g, a series) that extend about a portion of the cone. An antenna can further includes a mast for supporting the bicone as well as a second antenna section including a fractalized dipole. The fractalized dipole can be configured as a conformal circuit board conforming to the shape of the mast and can include self-similar portions or extensions. The antenna may also include a counterpoise to balance the electrically conductive conformal portion. The counterpoise may be defined substantially by a repetitive tooth-like pattern. | 03-05-2009 |
| 20090135068 | Transparent Wideband Antenna System - Antennas are disclosed that include an electrically conductive conformal portion that is substantially defined by a triangular portion and self-similar extensions. The antennas also includes an electrically non-conductive conformal portion. Both the electrically conductive conformal portion and the electrically non-conductive portion are substantially transparent at visual wavelengths. | 05-28-2009 |
| 20090153420 | Wideband Antenna System for Garments - A portable antenna system includes an antenna that is substantially defined by one or more portions that include electrically conductive self-similar extensions. The system also includes an article of clothing in which the antenna is attached to a surface of the article of clothing such that electrically conductive self-similar extensions extend across the surface of the article of clothing. | 06-18-2009 |
| 20100134373 | ANTENNA SYSTEM FOR RADIO FREQUENCY IDENTIFICATION - An antenna including an electrically conductive portion defined substantially by a self-similar geometry present at multiple resolutions. The electrically conductive portion includes two or more angular bends and is configured to radiate broadband electromagnetic energy. The antenna further includes an electrically non-conductive portion that structurally supports the electrically conductive portion. | 06-03-2010 |
| 20100156556 | WIDEBAND ELECTROMAGNETIC CLOAKING SYSTEMS - Arrangement of resonators in an aperiodic configurations are described, which can be used for electromagnetic cloaking of objects. The overall assembly of resonators, as structures, do not all repeat periodically and at least some of the resonators are spaced such that their phase centers are separated by more than a wavelength. The arrangements can include resonators of several different sizes and/or geometries arranged so that each size or geometry corresponds to a moderate or high “Q” response that resonates within a specific frequency range, and that arrangement within that specific grouping of akin elements is periodic in the overall structure. The relative spacing and arrangement of groupings can be defined by self similarity and origin symmetry. | 06-24-2010 |
| 20100194646 | WIDE-BAND FRACTAL ANTENNA - An apparatus includes a discone antenna including a cone-shaped element whose physical shape is at least partially defined by at least one pleat. | 08-05-2010 |
| 20100220029 | Fractal Counterpoise, Groundplanes, Loads, and Resonators - Antenna and related structures and circuits are described having a ground plane or ground counterpoise system that has at least one element whose shape, at least is part, is substantially a deterministic fractal of iteration order N≧1. Using fractal geometry, the antenna ground counterpoise has a self-similar structure resulting from the repetition of a design or motif (or “generator”) that is replicated using rotation, and/or translation, and/or scaling. The fractal element will have x-axis, y-axis coordinates for a next iteration N+1 defined by x | 09-02-2010 |
| 20110050360 | WIDEBAND ELECTROMAGNETIC CLOAKING SYSTEMS - Arrangement of resonators in an aperiodic configurations are described, which can be used for electromagnetic cloaking of objects. The overall assembly of resonators, as structures, do not all repeat periodically and at least some of the resonators are spaced such that their phase centers are separated by more than a wavelength. The arrangements can include resonators of several different sizes and/or geometries arranged so that each size or geometry corresponds to a moderate or high “Q” response that resonates within a specific frequency range, and that arrangement within that specific grouping of akin elements is periodic in the overall structure. The relative spacing and arrangement of groupings can be defined by self similarity and origin symmetry. Fractal based scatters are described. Further described are bondary condition layer structures that can activate and deactive cloaking/lensing structures. | 03-03-2011 |
| 20110050521 | WIDEBAND ANTENNA SYSTEM FOR GARMENTS - A portable antenna system includes an antenna that is substantially defined by one or more portions that include electrically conductive self-similar extensions. The system also includes an article of clothing in which the antenna is attached to a surface of the article of clothing such that electrically conductive self-similar extensions extend across the surface of the article of clothing. | 03-03-2011 |
| 20110063189 | Methods and Apparatus for Enhanced Radiation Characteristics From Antennas and Related Components - Aspect of the present disclosure are directed to methods and apparatus producing enhanced radiation characteristics, e.g., wideband behavior, in or for antennas and related components by providing concentric sleeves, with air or dielectric material as a spacer, where the sleeves include one or more conductive layers, at least a portion of which includes fractal resonators closely spaced, in terms of wavelength. A further aspect of the present disclosure is directed to surfaces that include dual-use or multiple-use apertures. Such aperture engine surfaces can include a top (or first) layer of antenna arrays, a middle (or second) layer of a metal-fractal backplane player, and a third (or bottom) layer for solar cell or solar oriented power collection. | 03-17-2011 |
| 20110095955 | FRACTAL ANTENNAS AND FRACTAL RESONATORS - An antenna includes at least one element whose physical shape is at least partially defined as a second or higher iteration deterministic fractal. The resultant fractal antenna does not rely upon an opening angle for performance, and may be fabricated as a dipole, a vertical, or a quad, among other configurations. The number of resonant frequencies for the fractal antenna increases with iteration number N and more such frequencies are present than in a prior art Euclidean antenna. Further, the resonant frequencies can include non-harmonically related frequencies. At the high frequencies associated with wireless and cellular telephone communications, a second or third iteration, preferably Minkowski fractal antenna is implemented on a printed circuit board that is small enough to fit within the telephone housing. | 04-28-2011 |
| 20110130689 | Oncological Ameliorization by Irradiation and/or Ensonification of Tumor Vascularization - Techniques are disclosed, including methods and systems/apparatus, that can be used to treat cancerous tissue by exploiting the fact that such tissues have vascular branching with fractal descriptions and fractal dimensions, which are different from those found in normal soft tissue vascular branching. Such fractal branching of diseased tissue can produce resonances, or preferential energy absorption, when irradiated by either ultrasound and/or radio frequencies of EM energy; these resonances are not shared by the vascularization in normal soft tissue. Accordingly, one or more specific arrangements of multiband radiation (e.g., RF and/or ultrasonic) used to irradiate such diseased tissue will cause heating and possibly localized necropsy of tumor blood vessels, with little or minimal damage to surrounding healthy tissue. Embodiments can utilize ablation devices in conjunction with RF and/or ultrasonic sources. Embodiments can further utilize chemotherapy (before, during, or after hyperthermic treatment) for enhancing cancer treatment. | 06-02-2011 |
