Orientation-responsive acoustic array control

The invention claimed is: 1. An audio device comprising: an elongate casing operating in a first orientation and a second orientation different from the first orientation; an orientation input device disposed on the casing to detect an orientation of the casing relative to the direction of the force of gravity; a plurality of acoustic drivers disposed on the casing and operable to form a plurality of acoustic interference arrays, each array being associated with one of a plurality of audio channels, the acoustic drivers operate to acoustically output audio signals in a first frequency range; a controller that modifies at least one of the acoustic interference arrays in response to a change in the orientation detected by the orientation input device by selecting a first plurality of coefficients to configure a plurality of filters in response to determining that the casing is in the first orientation, and selecting a second plurality of coefficients to configure the plurality of filters in response to determining that the casing is in the second orientation; and a first infrared sensor and a second infrared sensor, wherein: in response to the casing being positioned in the first orientation, the first sensor is enabled so that it is configured to receive infrared signals from an external control device, and the second sensor is disabled; and in response to the casing being positioned in the second orientation, the second sensor is enabled so that it is configured to receive infrared signals from the external control device, and the first sensor is disabled. 2. The audio device of claim 1 , wherein the plurality of acoustic drivers are disposed on the casing and form a laterally extending row. 3. The audio device of claim 1 , wherein: the audio device is a portion of an audio system comprising the audio device and a subwoofer comprising a separate casing; and the audio device and the subwoofer cooperate to acoustically output audio received from another device, wherein the subwoofer acoustically outputs a portion of the received audio comprising sounds in a second frequency range lower than the first frequency range. 4. The audio device of claim 3 , wherein the audio device comprises a wireless transmitter to provide the subwoofer with at least sounds in the second frequency range. 5. The audio device of claim 1 , wherein the orientation input device comprises a gravity detector comprising an accelerometer. 6. The audio device of claim 1 , wherein the plurality of acoustic drivers are disposed on the casing at an angle relative to the casing. 7. The audio device of claim 1 , wherein the controller is further configured to perform equalization on the audio signals. 8. The audio device of claim 1 , further comprising: a plurality of digital-to-analog converters accessible by the controller; a plurality of audio amplifiers, of which each audio amplifier is coupled to an output of one of the digital-to-analog converters, and of which each audio amplifier is coupled to one of the acoustic drivers; a storage accessible to the controller in which is stored a control routine comprising a sequence of instructions that when executed by the controller, causes the controller to: monitor the orientation input device to determine the orientation of the casing; provide the first plurality of coefficients to the plurality of filters in response to determining that the casing is in the first orientation, wherein each filter of the plurality of filters is accessible by the controller and an output of each filter of the plurality of filters is provided as an input to one of the digital-to-analog converters; and provide the second plurality of coefficients to the plurality of filters in response to determining that the casing is in the second orientation. 9. An audio device comprising: a casing capable of operating in a first orientation and a second orientation different from the first orientation; an orientation input device to detect an orientation of the casing relative to the direction of the force of gravity; a plurality of acoustic drivers, each driver operating to acoustically output audio signals in a first frequency range; a controller comprising a plurality of filters having associated filter coefficients, wherein the plurality of acoustic drivers and plurality of filters cooperate to form a plurality of interference arrays, each interference array being associated with one of a plurality of audio channels, and wherein the controller changes at least one filter coefficient to change the plurality of interference arrays in response to the orientation of the casing detected by the orientation input device; and a first infrared sensor and a second infrared sensor, wherein: in response to the casing being positioned in the first orientation, the first sensor is enabled so that it is configured to receive infrared signals from an external control device, and the second sensor is disabled; and in response to the casing being positioned in the second orientation, the second sensor is enabled so that it is configured to receive infrared signals from the external control device, and the first sensor is disabled. 10. The audio device of claim 9 , wherein the plurality of acoustic drivers are disposed along an elongate axis of the casing and form a laterally extending row. 11. The audio device of claim 9 , wherein: the audio device is a portion of an audio system comprising the audio device and a subwoofer comprising a separate casing; and the audio device and the subwoofer cooperate to acoustically output audio received from another device, wherein the subwoofer acoustically outputs a portion of the received audio comprising sounds in a second frequency range lower than the first frequency range, and the audio device comprises a wireless transmitter to provide the subwoofer with at least sounds in the second frequency range. 12. The audio device of claim 9 , wherein the plurality of acoustic drivers are disposed on the casing at an angle relative to the casing. 13. The audio device of claim 9 , wherein the orientation input device comprises a gravity detector comprising an accelerometer. 14. The audio device of claim 9 , wherein the controller is further configured to perform equalization on the audio signals. 15. An audio system comprising: a casing rotatable about an axis between a first orientation and a second orientation different from the first orientation; an orientation input device to detect an orientation of the casing relative to the direction of the force of gravity; a plurality of acoustic drivers disposed on the casing, each acoustic driver operating in a first frequency range, the plurality of acoustic drivers configured to form a plurality of acoustic interference arrays; a subwoofer separate from the casing, the subwoofer comprising at least one acoustic driver to acoustically output audio in a second frequency range lower than the first frequency range, wherein: in response to the casing being in the first orientation, the plurality of acoustic drivers are configured to form at least a first acoustic interference array; and in response to the casing being in the second orientation, the plurality of acoustic drivers are configured to form at least a second acoustic interference array different from the first acoustic interference array; and a first infrared sensor and a second infrared sensor, and wherein: in response to the casing being positioned in the first orientation, the first sensor is enabled so that it is configured to receive infrared signals from an external control devi