An example of a medical equipment and responder management system is configured to register potential responders to an emergency event, receive event information including an event location and an event type, provide an automatic notification that includes the event information and mapping information to first and second mobile computing devices associated with first responder and second responders selected from the potential responders, receive a confirmation that the first responder will bring a first item of registered medical equipment to the event, and provide an indication to the second mobile device that the second responder should proceed to the event without the first item of equipment, where the mapping information indicates a location of the first item of equipment located near a first mobile device current location and the current locations of the first and second mobile devices relative to the locations of the event and the first item of equipment.

An example of a medical equipment and responder management system is configured to register potential responders to an emergency event, receive event information including an event location and an event type, provide an automatic notification that includes the event information and mapping information to first and second mobile computing devices associated with first responder and second responders selected from the potential responders, receive a confirmation that the first responder will bring a first item of registered medical equipment to the event, and provide an indication to the second mobile device that the second responder should proceed to the event without the first item of equipment, where the mapping information indicates a location of the first item of equipment located near a first mobile device current location and the current locations of the first and second mobile devices relative to the locations of the event and the first item of equipment.

A community based response system for providing lay responders to cardiac arrest emergencies is configured to receive a notification of a cardiac arrest emergency including a location of a cardiac arrest victim, provide an automatic alert to portable devices in a vicinity of the victim, the automatic alert including a selectable control that enables user interoperation with the system, receive an indication from a lay responder, via a respective portable device, that the lay responder will proceed to the location of the victim, and in response to the indication that the lay responder will proceed to the location of the victim, provide at a display screen of the portable device associated with the lay responder a map including the victim's location relative to the lay responder, and a navigational route to guide the lay responder to the victim, and a dispatch text message notification.

A community based response system for providing lay responders to cardiac arrest emergencies is configured to receive a notification of a cardiac arrest emergency including a location of a cardiac arrest victim, provide an automatic alert to portable devices in a vicinity of the victim, the automatic alert including a selectable control that enables user interoperation with the system, receive an indication from a lay responder, via a respective portable device, that the lay responder will proceed to the location of the victim, and in response to the indication that the lay responder will proceed to the location of the victim, provide at a display screen of the portable device associated with the lay responder a map including the victim's location relative to the lay responder, and a navigational route to guide the lay responder to the victim, and a dispatch text message notification.

Techniques for notification handling based on identity and physical presence are described and may be implemented to determine whether to route a notification from a first device (e.g., a mobile device) to a second device (e.g., a display device) for output at the second device. Generally, the described implementations utilize sensor data captured at a physical location to detect and/or identify persons present at the physical location and to determine whether to route notifications between devices based on the detected persons/identities.

A communication system is presented for a mobile device having a mobile application stored on the mobile device. The mobile application has a graphical user interface and a touchscreen. A controller is configured to interface with the mobile application. The controller includes a processor and tangible, non-transitory memory on which instructions are recorded. The controller is adapted to selectively execute a stealth mode for message transmissions between a user of the mobile device and a remote assistance unit. The stealth mode is activated based in part on a signal from the mobile application and includes muting each audio stream in the mobile device and disabling vibrate notifications. A first phase of inquiries is submitted to the user, via the graphical user interface, along with one or more pre-populated replies. The stealth mode includes alerting an advisor in the remote assistance unit.

A communication system is presented for a mobile device having a mobile application stored on the mobile device. The mobile application has a graphical user interface and a touchscreen. A controller is configured to interface with the mobile application. The controller includes a processor and tangible, non-transitory memory on which instructions are recorded. The controller is adapted to selectively execute a stealth mode for message transmissions between a user of the mobile device and a remote assistance unit. The stealth mode is activated based in part on a signal from the mobile application and includes muting each audio stream in the mobile device and disabling vibrate notifications. A first phase of inquiries is submitted to the user, via the graphical user interface, along with one or more pre-populated replies. The stealth mode includes alerting an advisor in the remote assistance unit.

The present disclosure generally relates to methods and user interfaces for establishing communications.

A computing device may receive, from a remote computing device, a request to establish a communication session with the remote computing device and contextual information indicative of an urgency level of the communication session. The computing device may output, at one or more output devices, the contextual information indicative of the urgency level of the communication session and at least one of: haptic output or an audible alert that indicates the request to establish the communication session.

A smartphone case includes an integrated pager processor and pager antenna. The pager processor interfaces with the smartphone via physical connection such as USB or a wireless connection such as Bluetooth. A battery embedded in the smartphone case powers the pager processor and may be shared with the smartphone via a physical connection. The pager processor may display messages via the smartphone or independently via a speaker embedded in the smartphone case. The smartphone may communicate with a paging source via a cellular network to confirm receipt of one or both of a pager signal or a cellular network signal so that the paging source may produce maps of where various communication methods are useable.