Soft handoff method and apparatus for mobile vehicles using directional antennas
First Claim
1. An antenna system of a mobile platform comprising:
- a beam former for generating a single beam having at least two lobes; and
an antenna controller for steering at least one of the two lobes in a desired direction by adjusting its phase and its amplitude.
1 Assignment
0 Petitions
Accused Products
Abstract
A system and method for implementing soft handoffs in a cellular communications system on a mobile platform. The system employs an antenna controller in communication with a beam forming network that generates two independently aimable lobes from a single beam. The single beam is radiated by a phased array antenna on the mobile platform. In an Air-to-Ground implementation involving an aircraft, a base transceiver station (BTS) look-up position table is utilized to provide the locations of a plurality of BTS sites within a given region that the aircraft is traversing. The antenna controller controls the beam forming network to generate dual lobes from the single beam that facilitate making a soft handoff from one BTS site to another. In a ground-based application, one lobe of the beam is used to maintain a communications link with one BTS site while a second lobe of the beam is continuously scanned about a predetermined arc to receive RF signals from other BTS sites and to determine when a new BTS site has become available that will provide a higher quality link than the link presently made with the one BTS site. A soft handoff is then implemented from the one BTS site to the new BTS site.
-
Citations
28 Claims
-
1. An antenna system of a mobile platform comprising:
-
a beam former for generating a single beam having at least two lobes; and
an antenna controller for steering at least one of the two lobes in a desired direction by adjusting its phase and its amplitude. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A method for generating a single beam having at least a pair of lobes for use with an antenna, the method comprising:
-
using a beam former to generate a single beam having at least a pair of independent lobes; and
controlling a phase and an amplitude associated with at least one of the lobes to steer said one lobe in a desired direction.
-
-
8. An antenna system for use in communicating with a terrestrial cellular network, where a communications handoff is required to be made by the antenna system from communication with a first base transceiver station (BTS) to communication with a second BTS, the system comprising:
-
an antenna controller having information as to the location of the first and second BTSs;
an antenna component adapted to be mounted on an exterior surface of a mobile platform;
a beam forming network responsive to the antenna controller for generating signals applied to said antenna component to cause said antenna component to radiate a single antenna beam having a first lobe having a first gain, and a second lobe having a second gain, with the first and second lobes being independently steerable in desired directions and with the first and second gains being independently controllable; and
the beam forming network using the first and second lobes to simultaneously establish two communication links with said BTSs, wherein the BTSs are located at spaced apart locations within two overlapping cellular coverage regions, and to effect a handoff from the first BTS to the second BTS. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
-
-
17. A method for generating at least two independently steerable beam lobes from a single antenna beam of a phased array antenna, comprising:
-
a) determining complex voltage distributions needed to steer a single beam in each one of a plurality of predetermined directions;
b) calculating a complex voltage distribution needed to generate the plurality of lobes from the single antenna beam by;
b1) multiplying each said complex voltage distribution obtained at operation a) by (1-α
), where α
is a predetermined blending factor having a value between 0 and 1, and such that the sum of the blending factors used is no greater than 1; and
b2) adding together the products of b1. - View Dependent Claims (18, 19, 20, 21, 22)
-
-
23. A method for generating two independently steerable lobes from a single beam of a phased array antenna, in which the phased array antenna has a plurality of independent antenna elements, comprising:
-
a) defining a fixed amplitude distribution;
b) determining a phase distribution needed to steer a single beam in a first direction;
c) using the amplitude distribution from operation a) and the phase distribution from operation b), determining a complex voltage distribution needed to steer a single beam in the first direction;
d) determining a phase distribution needed to steer a single beam in a second direction;
e) using the amplitude distribution from operation a) and the phase distribution from operation d), determining a complex voltage distribution needed to steer a single beam in the second direction;
f) calculating the complex voltage distribution needed to form dual lobes from the single beam by multiplying the complex voltage distribution determined from operation c) by a blending factor (1-α
), and adding a quantity;
(1-α
)×
(the voltage distribution at operation e);
andg) using the information obtained from operation f), generating an amplitude value and a phase value to be applied to each element of the phased array antenna to generate two lobes aimed in desired directions, from the single beam of the phased array antenna. - View Dependent Claims (24, 25, 26)
-
-
27. A method for generating two independently steerable lobes from a single beam of a phased array antenna, comprising:
-
a) calculating a phase distribution, in degrees, needed to steer a single beam from a plurality of elements of said phased array antenna in a first direction;
b) using a baseline, fixed amplitude distribution for said phased array antenna, together with said calculated phase distribution of operation a), calculating a complex voltage distribution needed to steer a single beam in said first direction;
c) calculating a phase distribution, in degrees, needed to steer a single beam from said phased array antenna in a second direction different than said first direction;
d) using the fixed amplitude distribution from operation b), and the phase distribution calculated at operation c), calculating a complex voltage distribution needed to steer the single beam in the second direction;
e) calculating a complex voltage distribution needed to form a blended dual beam by multiplying the complex voltage distribution obtained from operation b) by a value (1-α
), and adding (1-α
) times the complex voltage distribution from operation d);
f) applying the calculation of operation e) to each said element of the phased array antenna;
g) using the complex blended dual beam distribution from operations e) and f), converting the complex voltage value at each said antenna element to an amplitude value, in decibels, and a phase value in degrees;
h) determining a maximum amplitude value in decibels across the elements of the phased array antenna;
i) subtracting the maximum amplitude value obtained at operation h) from the amplitude value at each of the elements of the phased array antenna obtained at operation g) to thus normalize the amplitude distribution across the elements; and
j) applying amplitude values from operation i) and phase values from operation g) to said electronically adjustable attenuators and phase shifters associated with each said element of the phased array antenna to generate the lobes of the single antenna beam.
-
-
28. An aircraft comprising:
-
an antenna system for use in communicating with a terrestrial cellular network, where a communications handoff is required to be made by the antenna system from communication with a first base transceiver station (BTS) to communication with a second BTS, the system comprising;
an antenna controller having information as to the location of the first and second BTSs;
an antenna component adapted to be mounted on an exterior surface of a mobile platform;
a beam forming network responsive to the antenna controller for generating signals applied to said antenna component to cause said antenna component to radiate a single antenna beam having a first lobe having a first gain, and a second lobe having a second gain, with the first and second lobes being independently steerable in desired directions and with the first and second gains being independently controllable; and
the beam forming network using the first and second lobes to simultaneously establish two communication links with said BTSs, wherein the BTSs are located at spaced apart locations within two overlapping cellular coverage regions, and to effect a handoff from the first BTS to the second BTS.
-
Specification