Communications system

Communications: directive radio wave systems and devices (e.g. – Directive – Including polarized signal communication transmitter or...

Reexamination Certificate

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C342S363000

Reexamination Certificate

active

06570536

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to communications systems. More specifically, the present invention relates to a communication system in which an information-modulated electromagnetic wave has a carrier frequency and an electric field corresponding to a rotation vector tracing a nonlinear predictable path at a second frequency that is less than the carrier frequency of the wave.
2. Description of the Related Art
An electromagnetic wave can be defined by an electric field and a magnetic field that are orthogonal to one another along an axis of propagation. The behavior of the wave can be described with respect to the orientation of the field vector of the electric (E) field.
Polarization is a term that can be used to characterize the orientation of the field vector of an E field of some electromagnetic waves. Different types of polarization include: linear (also referred to as plane), circular, and elliptical polarization.
Where the field vector of an E field propagates within a plane as the wave propagates along an axis, the polarization of the wave is referred to as linear or plane polarization. Where the terminus of the E field, i.e., the extremity of the field vector, in a given plane perpendicular to the axis of propagation traces a circular path rotating about the axis of propagation at a frequency equal to the frequency of the wave, the polarization is referred to as circular polarization. Similarly, where the terminus of the E field, in a given plane perpendicular to the axis of propagation, traces an elliptical path rotating about the axis of propagation at a frequency equal to the frequency of the wave, the polarization is referred to as elliptical polarization, a general case of circular polarization.
Polarized waves can be transmitted or received in a number of different ways. For example, an antenna itself can impose a certain polarization upon a transmitted wave or be sensitive to received waves of a certain polarization. A dipole antenna oriented horizontally with respect to the earth is suited to receive and/or transmit linearly polarized waves where the plane of polarization is parallel to the earth. Similarly, a dipole antenna oriented vertically with respect to the earth is suited to receive and/or transmit linearly polarized waves where the plane of polarization is perpendicular to the earth's surface. A helical antenna is suited to receive and/or transmit circularly polarized waves.
Communications systems transmitting and receiving polarized waves can be adversely affected by apparent prolonged fading of transmitted/received waves having only one type of polarization. To minimize fading of the amplitude of the received wave having the one type of polarization, communication systems can be designed to transmit and receive multiple waves each having a different polarization. This method can be characterized as polarization diversity.
Polarization has also been used to avoid inter-channel interference in, for example, satellite communications systems. A satellite can communicate with a ground station using right-hand (i.e., clockwise (CW)) circular polarized waves at a given carrier frequency, while an adjacent satellite can communicate with another ground station at the same carrier frequency using left-hand (i.e., counterclockwise (CCW)) circular polarized waves. Helical antennas having opposite twists can be used to receive and/or transmit left-hand and right-hand circular polarized waves.
Polarization can be used to encode information in a communications system. U.S. Pat. No. 4,084,137, issued to Welti, describes a communications system that encodes a horizontally polarized wave and a vertically polarized wave in accordance with information. U.S. Statutory Invention Registration H484 describes a similar system that addresses a sidelobe problem in a radar system.
The polarization encoding concept addressed in the references described above can also be used to minimize the likelihood of unauthorized interception of a message. U.S. Pat. No. 5,592,177, issued to Barrett, describes a communications system that sequentially changes the polarization of a signal-carrying wave in a pseudorandom manner. The Barrett system provides broad polarization bandwidth for transmitting and/or receiving signals while minimizing the required frequency bandwidth of the transmitter and receiver systems. The selected polarizations include linear polarization with a variable polarization plane orientation, right-hand and left-hand circular polarizations, and right-hand and left-hand elliptical polarizations with a variable ellipse major axis orientation. By changing the specific polarization, the signal is spread in polarization in a manner analogous to the spreading of a signal over a continuous range of frequencies in spread spectrum communications systems. Note that when the signal-carrying wave is circularly or elliptically polarized, the field vector of the generated E field is rotating a frequency equal to the carrier frequency.
The concept of transmitting separately encoded horizontally polarized waves and encoded vertically polarized waves can also be used for channel discrimination in a two-channel communications system in which the channels have the same carrier frequency. U.S. Pat. No. 4,521,878, issued to Toyonaga, describes a communications system that encodes a horizontally polarized wave and a vertically polarized wave in accordance with a first code to form a signal corresponding to a first channel, and encodes a horizontally polarized wave and a vertically polarized wave in accordance with a second code to form a signal corresponding to a second channel. The system thus improves cross-polarization discrimination over known systems that attempt to simply transmit a first channel using horizontal polarization and a second channel using vertical polarization.
These known communications systems, however, suffer shortcomings. Regardless of the type of polarization used by the known communications systems, the E-field vector of an electromagnetic wave is either linearly polarized or elliptically polarized and consequently rotates about the axis of propagation at a frequency that equals the carrier frequency of the wave.
SUMMARY OF THE INVENTION
The present invention can increase the amount of information carried by a communications system for a given carrier frequency. The present invention increases the amount of information carried by a communications system within a discrete carrier in an appropriate medium by producing more than one information channel for each carrier frequency within the frequency allocation.
The selectivity of the present invention results in lower noise and therefore creates a higher signal-to-noise ratio for an information channel. The present invention provides an information channel where the noise is limited to characteristics of the channel.
The present invention relates to a communications system in which a communications channel is defined at least in part by an electromagnetic wave having a carrier frequency and an electric (E) field vector the extremity of which traces a non-linear periodic path (or a predictable path whose rate of change about the axis of propagation is at a frequency less than the carrier frequency) at a second frequency less than the carrier frequency from the perspective of an observer located at a plane perpendicular to the axis of propagation of the wave. The transmitter of the communications system creates an electromagnetic wave having such characteristics and which is modulated with information in a suitable manner. The receiver of the communications system is sensitive to the periodic path and carrier frequency of the E-field vector. The combination of E-field vector path and the carrier frequency provides selectivity that can be used to define a communications channel.
In certain exemplary embodiments of the invention, a communications channel is defined at least in part by an electromagnetic wave with an E-field vector, as projected onto or f

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