Multiple independent audio spheres for patient monitor

The invention claimed is: 1. A patient monitoring system for monitoring a patient, the patient monitoring system comprising: a patient data acquisition system configured to acquire patient data via a plurality of patient physiological sensors; a first patient monitor display; a second patient monitor display; a first audio system built into or operatively connected with the first patient monitor display; a second audio system built into or operatively connected with the second patient monitor display; and a control system programmed to: output patient data acquired by the patient data acquisition system via at least one of the first patient monitor display and the second patient monitor display; output a patient audio monitor signal generated based at least in part on patient data acquired by the patient data acquisition system using at least one of the first and second audio systems; wherein the control system includes one or more processors programmed to: control a first audio configuration and a separate second audio configuration associated with a corresponding one of the first and second audio systems; control a first visual configuration and a second visual configuration of the corresponding one of the first and second patient monitor displays; and transfer operation of one of the first and second patient monitor displays to the other of the first and second patient monitor displays such that at least one of the first and second patient monitor displays is continuously activated. 2. The patient monitoring system according to claim 1 , wherein the control system is configured to: detect an operational state of the outputting of the patient audio monitor signal; and transfer the patient audio monitor signal from one of the first and second audio systems to the other of the first and second audio systems in response to detecting loss of an operational state of the outputting of the patient audio monitor signal. 3. The patient monitoring system according to claim 1 , wherein: the first audio system is built into the first patient monitor display; and the second audio system is built into the second patient monitor display. 4. The patient monitoring system according to claim 1 , wherein: the first patient monitor display and the first audio system are disposed inside a patient room; and the second patient monitor display and the second audio system are disposed outside the patient room. 5. The patient monitoring system according to claim 1 , wherein the first and second audio configurations each have predefined parameters, the predefined parameters of the first audio configuration being different from the predefined parameters of the second audio configuration. 6. The patient monitoring system according to claim 5 , wherein the predefined parameters of the first and second audio configurations includes alarm sound type and alarm sound volume, each of the predefined parameters being individually configurable. 7. The patient monitoring system according to claim 5 , wherein the control system is configured to transfer the patient audio monitor signal from one of the first and second audio systems to the other of the first and second audio systems to ensure that the patient audio monitor signal is output by at least one of the first and second audio systems. 8. The patient monitoring system according to claim 1 , wherein the primary audio control system is configured to detect a failure of at least one of the first and second audio systems. 9. The patient monitoring system according to claim 8 , wherein the control system is configured to transfer operation of one of the first and second audio systems to the other of the first and second audio systems upon detection of the failure. 10. The patient monitoring system according to claim 1 , further including a third audio system disposed outside of the patient room and spaced from the second audio system, the third audio system including a third patient monitor display controlled by the control system. 11. The patient monitoring system according to claim 1 , wherein the control system further includes one or more processors programmed to control the first visual configuration and the second visual configuration of the corresponding one of the first and second patient monitor displays, the first and second visual configurations include at least one visual alarm with parameters including color and intensity. 12. The patient monitoring system according to claim 1 , further comprising: a patient data acquisition system configured to acquire patient data via a plurality of patient physiological sensors; a first patient monitor display disposed inside a patient room; a second patient monitor display disposed outside the patient room; a first audio system disposed with the first patient monitor display inside the patient room; a second audio system disposed with the second patient monitor outside the patient room; a control system configured to output patient data acquired by the patient data acquisition system via at least one of the first patient monitor display and the second patient monitor display and further configured to output a patient audio monitor signal generated based at least in part on patient data acquired by the patient data acquisition system using at least one of the first and second audio systems; wherein the control system includes one or more processors programmed with a first audio configuration for operating the first audio system and a second audio configuration for operating the second audio system. 13. The patient monitoring system according to claim 12 , wherein the first and second audio configurations each have predefined parameters, the predefined parameters of the first audio configuration being independent from the predefined parameters of the second audio configuration. 14. A method for monitoring a patient in a patient room, the method comprising: outputting a patient monitor signal generated using at least one of: an audio system disposed inside of a patient room and a patient monitor display disposed inside of the patient room, and an audio system disposed outside of the patient room and a patient monitor display disposed outside of the patient room; wherein the generating uses a first audio configuration when outputting the patient monitor signal using the audio system disposed inside the patient room and a second audio configuration when outputting the patient monitor signal using the audio system disposed outside the patient room; electronically linking the audio system disposed inside the patient room and the audio system disposed outside the patient room to ensure that the patient monitor signal is output using at least one of the audio system disposed inside the patient room and the audio system disposed outside the patient room; wherein the generating uses a first visual configuration when outputting the patient monitor signal using the patient monitor display disposed inside the patient room and a second video configuration when outputting the patient monitor signal using the video system disposed outside the patient room; electronically linking the video system disposed inside the patient room and the video system disposed outside the patient room to ensure that the patient monitor signal is output using at least one of the video system disposed inside the patient room and the video system disposed outside the patient room; and transferring the patient audio monitor signal from one of the first and second audio systems to the other of the first and second audio systems to ensure that the patient audio monitor signal is