Directive array for drive-by meter reading

What is claimed is: 1 . A system comprising: a receiver configured to receive wirelessly transmitted data from a plurality of utility meters at customer locations; an antenna assembly configured to be mounted on a top surface of a vehicle, the antenna assembly comprising a housing and a plurality of antennas, each of the plurality of antennas connected to a top of the housing, each antenna extending from the top of the housing in a direction substantially perpendicular to the ground; and a circuit board operatively coupled between the receiver and the antenna assembly, the circuit board configured to impedance match among the plurality of antennas, wherein the plurality of antennas are arranged in a plane substantially parallel with a first axis corresponding to a forward direction of the vehicle, wherein the antenna assembly creates a pattern generally directed in opposite directions about a line substantially parallel to the ground and perpendicular to the first axis, and wherein the antenna assembly is configured to receive the wirelessly transmitted data from the plurality of utility meters. 2 . The system of claim 1 , wherein each of the plurality of antennas comprises three collinear elements and operates at a frequency of 900 MHz. 3 . The system of claim 1 , wherein the plurality of antennas are substantially parallel to each other and are separated by a distance of between one-half to five-eighths of an operational wavelength. 4 . The system of claim 1 , wherein the circuit board further comprises a high pass filter and a low-noise amplifier. 5 . The system of claim 1 , wherein the circuit board is supported inside the housing, wherein an output from the circuit board is supplied to the receiver located inside the vehicle, and wherein the circuit board is configured to receive a 12V DC signal from the vehicle. 6 . A meter reading apparatus comprising: a receiver configured to receive wirelessly transmitted data from a plurality of utility meters; an antenna assembly including at least a housing and a plurality of antennas; and a circuit board operatively coupled between the receiver and the antenna assembly, the circuit board configured to impedance match among the plurality of antennas, wherein the housing is configured to be mounted on a top surface of a vehicle, each antenna extending from the housing in an upward direction, wherein the antennas are arranged in a plane substantially parallel to a forward direction of the vehicle and configured to receive the wirelessly transmitted data from the plurality of utility meters. 7 . The meter reading apparatus of claim 6 , wherein the antenna assembly comprises two antennas. 8 . The meter reading apparatus of claim 6 , wherein the antenna assembly comprises four antennas. 9 . The meter reading apparatus of claim 6 , wherein each of the plurality of antennas comprises three collinear elements. 10 . The meter reading apparatus of claim 6 , wherein the plurality of antennas are substantially parallel to each other and are separated by a distance of between one-half to five-eighths of a wavelength of communication signals. 11 . The meter reading apparatus of claim 6 , wherein the circuit board further comprises a high pass filter and a low-noise amplifier. 12 . The meter reading apparatus of claim 6 , wherein the circuit board is supported inside the housing, wherein an output from the circuit board is supplied via a coaxial cable to the receiver located inside the vehicle, and wherein the circuit board is configured to receive a 12V DC signal from the vehicle. 13 . An antenna assembly comprising: a first antenna vertically configured to be mounted on a top surface of a vehicle; a second antenna vertically configured to be mounted on the top surface of the vehicle; a receiver configured to communicate with a plurality of wireless utility meters via the first and second antennas; and a circuit board communicatively connected to the first antenna, the second antenna, and the receiver, the circuit board configured to provide an impedance transformation between the first antenna and the second antenna, wherein the first and second antennas are aligned with a direction of travel of the vehicle. 14 . The antenna assembly of claim 13 , wherein each of the first and second antennas comprises three elements. 15 . The antenna assembly of claim 14 , wherein the three elements are collinear. 16 . The antenna assembly of claim 13 , wherein the first antenna and second antenna receive communication signals resonating at a frequency of about 900 MHz. 17 . The antenna assembly of claim 13 , wherein the first antenna and second antenna are substantially parallel to each other and are separated by a distance of between one-half to five-eighths of a wavelength of communication signals. 18 . The antenna assembly of claim 13 , wherein the circuit board is configured to match the first and second antennas to a 50-ohm impedance. 19 . The antenna assembly of claim 13 , wherein the circuit board further comprises a high pass filter and a low-noise amplifier. 20 . The antenna assembly of claim 13 , further comprising a third antenna and a fourth antenna.