System and methods of testing adaptive antennas

I claim as follows: 1. A method of testing adaptive antennas and circuitry in a wireless receiver, including: establishing a first test condition exposing an adaptive antennas system in a mobile device (referred to as a DUT, for device under test) to RF signals from multiple antennas within an anechoic chamber, wherein: the multiple antennas produce distinct angles of arrival to the DUT; one or more RF sources generate multiple components of a first signal that establishes the first test condition; and the multiple antennas transmit the multiple components of the first signal; establishing a second test condition exposing the DUT to multiple components of a second signal that causes the adaptive antennas system in the mobile device to adapt to a change between the first signal and the second signal, the adaption involving modification of antenna configuration, signal processing or both within the DUT; receiving data from the DUT, quantifying performance of the adaptive antennas system during the change between the first signal and the second signal; and reporting the quantified performance data correlated with the change between the first signal and the second signal. 2. The method of claim 1 , further including graphically representing positions of the DUT and one or more signal sources correlated with the quantified performance data. 3. The method of claim 1 , further including graphically representing positions of the DUT, at least one signal source and at least one interferer correlated with the quantified performance data. 4. The method of claim 1 , further including graphically animating positions of the DUT, at least one signal source and at least one interferer correlated with the quantified performance data. 5. The method of claim 1 , further including patterning the change between the first signal and the second signal to emulate motion of the DUT through an emulated environment and rotation of the DUT as it moves. 6. The method of claim 1 , further including patterning the change between the first signal and the second signal to emulate motion of an interferer through an emulated environment that includes a base station and the DUT, whereby ability of the DUT to adapt to separating a base station signal from the interferer as a relative angle of arrival changes is tested. 7. The method of claim 1 , further including patterning the change between the first signal and the second signal to emulate motion of at least the DUT at varying speeds through an emulated environment that includes a base station and an interferer, whereby response time of the adaptation is tested. 8. The method of claim 1 , further including varying attenuation of the first and second signal during the adaptation. 9. The method of claim 1 , further including patterning the first signal and the second signal to emulate multi-pathing from one or more sources to the DUT during the adaptation. 10. The method of claim 1 , further including: receiving adaptation parameter data from the DUT, at least during the adaptation to the change between the first signal and the second signal; and reporting the quantified performance data correlated with the change between the first signal and the second signal. 11. The method of claim 1 , further including, based on data received from the DUT during the first and second test conditions, automatically modifying at least one of the first and second test conditions to set third and fourth test condition parameters, then establishing third and fourth test conditions and exposing the DUT to multiple components of third and fourth signals. 12. A non-transitory tangible computer readable medium with instructions that, when loaded into a memory and executed on at least one processor coupled to the memory, cause the processor to carry out a method, including: establishing a first test condition exposing an adaptive antennas system in a mobile device (referred to as a DUT, for device under test) to RF signals from multiple antennas within an anechoic chamber, wherein: the multiple antennas produce distinct angles of arrival to the DUT; one or more RF sources generate multiple components of a first signal that establishes the first test condition; and the multiple antennas transmit the multiple components of the first signal; establishing a second test condition exposing the DUT to multiple components of a second signal that causes the adaptive antennas system in the mobile device to adapt to a change between the first signal and the second signal, the adaption involving modification of antenna configuration, signal processing or both within the DUT; receiving data from the DUT, quantifying performance of the adaptive antennas system during the change between the first signal and the second signal; and reporting the quantified performance data correlated with the change between the first signal and the second signal. 13. The non-transitory tangible computer readable medium of claim 12 , further including graphically representing positions of the DUT and one or more signal sources correlated with the quantified performance data. 14. The non-transitory tangible computer readable medium of claim 12 , further including graphically representing positions of the DUT and at least one signal source and at least one interferer correlated with the quantified performance data. 15. The non-transitory tangible computer readable medium of claim 12 , further including patterning the change between the first signal and the second signal to emulate motion of the DUT through an emulated environment. 16. The non-transitory tangible computer readable medium of claim 12 , further including patterning the change between the first signal and the second signal to emulate motion of the DUT through an emulated environment and rotation of the DUT as it moves. 17. A system of testing adaptive antennas and circuitry in a wireless device under test (DUT), the system comprising: a test controller; a network emulator and a channel emulator coupled to the test controller; multiple antennas within an anechoic chamber, coupled to at least the channel emulator; a communications channel that couples the test controller to the DUT; the test controller adapted to set parameters of and initiate signals from the network emulator and the channel emulator to establish a first test condition exposing an adaptive antennas system in the DUT to RF signals from the multiple antennas within the anechoic chamber, wherein: the multiple antennas produce distinct angles of arrival to the DUT; one or more RF sources generate multiple components of a first signal that establishes the first test condition; and the multiple antennas transmit the multiple components of the first signal; the test controller further adapted to set parameters of and initiate signals from the network emulator and the channel emulator to establish a second test condition exposing the DUT to multiple components of a second signal that causes the adaptive antennas system in the mobile device to adapt to a change between the first signal and the second signal, the adaption involving modification of antenna configuration, signal processing or both within the DUT; and the test controller further adapted to receive data, from the DUT, quantifying performance of the adaptive antennas system during the change between the first signal and the second signal and report the quantified performance data correlated with the change between the first signal and the second signal. 18. The system of claim 17 , further incl