Systems and methods for monitoring subjects in potential physiological distress

What is claimed is: 1. A method for real-time monitoring of a subject using a monitoring apparatus, wherein the monitoring apparatus includes a plurality of physiological sensors, a memory and a processor, the method comprising: the plurality of physiological sensors obtaining sensor data from the subject, said sensor data including anatomical data indicative of changes in a cross-sectional area of the subject's torso over time, the processor determining a physiological parameter for the subject as a function of said anatomical data; the processor accessing a library of subject data stored in the memory of said monitoring apparatus, the subject data including a plurality of baseline physiological parameters, the baseline physiological parameters including at least one of baseline cardiac rate, baseline cardiac stroke volume, baseline respiration rate, baseline respiration tidal volume and baseline minute ventilation; the processor comparing said physiological parameter for the subject to said library of subject data; the processor determining a physiological state of the subject as a function of said physiological sensor data, said physiological parameter, and said library of subject data, the determination of physiological state includes an indication of whether said physiological parameter of the subject is within a target range, the processor determining a reason for the physiological state for the subject such that the processor adjusts processing of the data to more frequently sample and process data from pertinent sensors based on the reason for the determined physiological state; the monitoring apparatus wirelessly transmitting said physiological state to a selected external monitoring display unit so as to provide a message to inquire a response from an individual monitoring the external monitoring display unit; and displaying said physiological state and said message at said selected external monitoring display unit. 2. The method of claim 1 , wherein said monitoring apparatus for obtaining physiological sensor data and determining physiological state is a portable data unit. 3. The method of claim 1 , wherein said selected external monitoring display unit is selected from a plurality of available external monitoring display units. 4. The method of claim 3 , wherein one external monitoring display unit of said plurality of available external monitoring display units has a higher signal strength than the remaining available external monitoring display units, and wherein said selected external monitoring display unit comprises said external monitoring display unit having the higher signal strength. 5. The method of claim 3 , wherein each of said plurality of available external monitoring display units has an assigned priority, and wherein said selected external monitoring display unit is selected based on said assigned priorities. 6. The method of claim 1 , wherein said physiological state includes said physiological parameter. 7. The method of claim 1 , wherein said physiological state is transmitted in dependence on whether a determined physiological parameter associated with the subject is within the target range. 8. The method of claim 1 , wherein said library of subject data includes temporal trends for said physiological parameters, said temporal trends describing physiological functioning, and wherein said indication of whether said physiological parameter is within a target range is further determined in dependence on at least one of said temporal trends. 9. The method of claim 1 , wherein the physiological parameter includes at least one of cardiac stroke volume, respiration rate, respiratory tidal volume, and minute ventilation. 10. A method for real-time monitoring of a subject using a monitoring apparatus, wherein the monitoring apparatus includes a plurality of physiological sensors, a memory and a processor, the method comprising; the plurality of physiological sensors obtaining sensor data from the subject, said sensor data including anatomical data indicative of changes in a cross-sectional area of the subject's torso over time; the processor determining a physiological parameter for the subject as a function of said anatomical data; the processor accessing a library of subject data stored in the memory of said monitoring apparatus; the processor determining a physiological state of the subject as a function of said physiological sensor data, said physiological parameter, said library of subject data, and said determination of physiological state including an indication of whether said physiological parameter of the subject is within a target range such that the processor adjusts processing of the data to more frequently sample and process data from pertinent sensors based on the reason for the determined physiological state; the monitoring apparatus wirelessly transmitting, said physiological state to a selected external monitoring display unit so as to provide a message to inquire a response from an individual monitoring the external monitoring display unit; and displaying, said physiological state and said message at said selected external monitoring display unit, wherein displaying said physiological state further comprises displaying at least one icon for the subject, said icon representing a physiological state. 11. A method for real-time monitoring of a subject using a monitoring apparatus, wherein the monitoring apparatus includes a plurality of physiological sensors and a processor, the method comprising: the plurality of physiological sensors obtaining sensor data from the subject, said sensor data including anatomical data indicative of changes in a cross-sectional area of the subject's torso over time; the processor determining a physiological parameter for the subject as a function of said anatomical data; the processor accessing a library of subject data stored in the memory of said monitoring apparatus, the processor comparing said physiological parameter for the subject to said library of subject data; the processor determining a physiological state of the subject as a function of said physiological sensor data, said physiological parameter, said library of subject data, said determination of physiological state including an indication of whether said physiological parameter of a subject is within a target range such that the processor adjusts processing of the data to more frequently sample and process data from pertinent sensors based on the reason for the determined physiological state; the monitoring apparatus wirelessly transmitting, said physiological state to a selected external monitoring display unit so as to provide a message to inquire a response from an individual monitoring the external monitoring display unit; and displaying said physiological state and said message at said selected external monitoring display unit, wherein displaying the physiological state further comprises displaying at least one icon for the subject, the icon representing a physiological state, and wherein said physiological state further comprises location information associated with the subject, and wherein said icons are displayed in a layout representing the actual physical locations of the subject. 12. A method for real-time monitoring of a subject using a monitoring apparatus, wherein said monitoring apparatus includes a plurality of physiological sensors, a memory and a processor, the method comprising: the plurality of physiological sensors obtaining sensor data from the subject, said sensor data including anatomical data indicative of changes in a cross-sectional area of the subject's torso over time, the processor determining