Responder network

What is claimed is: 1. An automated external defibrillator (AED) system that includes an AED, a display screen and a communications unit, the AED system being configured to: receive an incident message that indicates a location of a potential cardiac arrest incident for which the AED may be helpful; in response to the reception of the incident message, (i) generate a nearby incident alert that indicates that there is the potential cardiac arrest incident nearby for which the AED system may be helpful, and (ii) render an accept incident GUI element on the display screen that a responder can interact with to accept the incident thereby indicating that the responder is willing to take the AED system to a location of the potential cardiac arrest incident, wherein the nearby incident alert includes at least one of (iii) a visual message displayed on the display screen, and (iv) an audible message; receive via the accept incident GUI element, the responder's acceptance of the incident indicating a willingness to help by bringing the AED to the location of the potential cardiac arrest incident; convey an indication of the responder's acceptance of the incident to a remotely located server; and render an indication of a location of the potential cardiac arrest incident, wherein the indication of the location of the potential cardiac arrest incident includes at least one of a map that shows the location of the potential cardiac arrest incident, directions to the location of the potential cardiac arrest incident, an address of the potential cardiac arrest incident, or geographic coordinates of the potential cardiac arrest incident, whereby the responder may utilize the rendered location indication to navigate to the location of the potential cardiac arrest incident, and whereby a bystander that hears or sees the nearby incident alert is encouraged to take the AED system to the location of the potential cardiac arrest incident regardless of whether the bystander is a registered responder and regardless of whether the bystander is a trained emergency responder. 2. An AED system as recited in claim 1 , wherein the rendered indication of the location of the potential cardiac arrest incident is or includes the map that shows the location of the potential cardiac arrest incident, the AED system being configured to display the map that shows the location of the potential cardiac arrest incident on the display screen, whereby the responder may utilize the map displayed on the display screen to navigate to the location of the potential cardiac arrest incident. 3. An AED system as recited in claim 2 wherein the indication of the location of the potential cardiac arrest incident further includes a textual rendering of the address of the potential cardiac arrest incident. 4. An AED system as recited in claim 3 further configured to show a current location of the AED on the map and to update the current location displayed on the map as the responder navigates to the location of the potential cardiac arrest incident. 5. An AED system as recited in claim 1 , wherein one of: the display screen and the communication unit are both components of the AED; or the AED system is a portable modular defibrillator system that includes a base defibrillator unit that serves as the AED and an interface unit that is mounted on the base defibrillator unit to provide the portable modular defibrillator system, wherein the communication unit and the display screen are part of the interface unit. 6. An AED system as recited in claim 1 further configured to: display an arrived GUI widget on the display screen, the arrived GUI widget being configured to receive a user input indicating that the AED system has arrived at the location of the potential cardiac arrest incident; and send an arrived at the incident location notification to the server indicting that the AED system has arrived at the location of the potential cardiac arrest incident in response to receipt of the user input indicating that the AED system has arrived at the location of the potential cardiac arrest incident. 7. An AED system as recited in claim 1 further configured to automatically transition to displaying an AED operating instruction when the AED is determined to have arrived at the location of the potential cardiac arrest incident. 8. An AED system as recited in claim 1 further configured to transition to displaying an AED operating instruction, in response to a user input indicative that the AED has arrived at the location of the potential cardiac arrest incident. 9. An AED system as recited in claim 1 further configured to support messaging between the responder and a telecommunicator at a public safety answering point (PSAP). 10. An automated external defibrillator (AED) system comprising an AED capable of delivering a defibrillation shock to a patient experiencing cardiac arrest, a speaker, a display screen and a communications unit, the AED system being configured to: receive an incident message that indicates a location of a potential cardiac arrest incident for which the AED may be helpful; in response to the reception of the incident message, (i) generate a nearby incident alert that indicates that there is the potential cardiac arrest incident nearby for which the AED system may be helpful, and (ii) render an accept incident GUI element on the display screen that a responder can interact with to accept the incident thereby indicating that the responder is willing to take the AED system to a location of the potential cardiac arrest incident, wherein the nearby incident alert includes at least one of (iii) a visual message displayed on the display screen, and (iv) an audible message; receive via the accept incident GUI element, the responder's acceptance of the incident indicating a willingness to help by bringing the AED to the location of the potential cardiac arrest incident; convey an indication of the responder's acceptance of the incident to a remotely located server; and render a map on the display screen, wherein the map shows the location of the potential cardiac arrest incident; update the map displayed on the display screen as the responder navigates with the AED towards the location of the potential cardiac arrest incident, wherein the update of the map is or includes updating a current location of the AED displayed on the map as the responder navigates with the AED towards the location of the potential cardiac arrest incident; and convey an arrived notification to the remote server indicating that the AED system has arrived at the location of the potential cardiac arrest incident when the AED system is determined to have arrived at the location of the potential cardiac arrest incident. 11. An AED system as recited in claim 10 further configured to automatically transition to displaying an AED use instruction when the AED is determined to have arrived at the location of the potential cardiac arrest incident. 12. An AED system as recited in claim 10 further configured to transition to displaying an AED operating instruction, in response to a user input indicating that the AED has arrived at the location of the potential cardiac arrest incident. 13. An AED system as recited in claim 10 further configured to show the directions to the location of the potential cardiac arrest incident on the display screen, the directions to the location of the potential cardiac arrest incident being from the current location of the AED. 14. An AED system as recited in claim 13 wherein the directions include textual directions displayed on the display screen, whereby the responder may utilize the