Methods and systems automatically allocate cellular communication network resources to emergency response personnel during emergency situations which are detected by call volumes exceeding a predetermined maximum. Access to cellular communication network resources is provided by dedicating a portion of communication radio resources to emergency response personnel use. By reserving radio resources for emergency communication purposes, emergency personnel are able to both initiate and receive calls or data sessions from both other mobile devices as well as conventional landline telephone stations. Qualified emergency response personnel can preregistered their phones and be assigned personal identification numbers to enable access to allocated network resources. Users can also be registered “on the fly.”

A method for prioritizing a mobile originated emergency call over mobile terminated call signaling, includes: initiating an emergency call on a first subscription; determining whether a mobile terminated (MT) call is incoming on a second subscription; in response to determining that the MT call is incoming on the second subscription, aborting the MT call signaling; determining whether the first subscription is out of service; and in response to determining that the first subscription is not out of service completing the emergency call on the first subscription.

A system enables a device such as a mobile phone to operate as a transmitter and receiver over non-cellular radio frequencies such as very-high frequency (VHF) and ultra-high frequency (UHF) not natively compatible with the mobile phone. The system includes a radio appliance coupled to a radio that receives and transmits information over non-cellular radio frequencies. The radio appliance provides an interface between the radio and a web appliance accessible on a network such as the internet. The radio appliance receives information in broadcast from the radio and transmits the information to the web appliance over the network. The web appliance provides mobile devices access to the information received from the radio appliance, such as audio that was broadcast, over the network. Additionally, the web appliance may receive information from the mobile phone for transmission to the radio appliance and subsequent broadcast by the radio.

A system for monitoring a safety condition of a user includes: a hero device; a measuring device; and a mobile device, the mobile device comprising a processor and a memory device, the memory device configured to store a safety mobile application enabling the mobile device to: record a video recording of the user using the measuring device during a measuring period, receive, from the measuring device, user data measured by the measuring device of the user during the measuring period, transmit, to a server, the user data and video recording of the user from the measuring period, and transmit, to the hero device, a status report message comprising the user data and video recording of the user from the measuring period.

Short range wireless location and motion sensing devices and reporting methods are provided herein. An example device includes a housing configured to couple with a power port of a vehicle. The housing includes a wireless interface, a motion sensor that senses at least one of velocity, acceleration, and orientation of the vehicle, a processor and a memory that stores logic that is executed by the processor to receive motion signals from the motion sensor and transmit the motion signals on the wireless interface to a mobile device that is communicatively coupled with the wireless adapter.

An exemplary aspect relates an emergency response system and associated technologies. More specifically, an exemplary aspect relates to first responder and associated equipment access to one or more communications systems at, for example, an emergent event. Another exemplary aspect relates to an inference engine for first responders that assists with making inferences based on received information and/or more or more prior inference(s) and optionally automatically providing the inference and/or a recommendation(s) to one or more destinations, such as a communications device. Still another aspect relates to access point authentication and management for certain class(es) of personnel optionally based on location information.

A heart generated signal is provided by a heart sensor of a mobile device to an analog to digital (A/D) converter for A/D converting the sensor provided signal. The A/D converted heart signal is processed to provide heart rate. The heart rate is recorded or stored in the mobile device or is transmitted in a wireless communication system. The mobile device receives sensor provided Electro Cardiogram (ECG) signal. The ECG signal is stored or is provided to an interface unit. The mobile device has transceivers for receiving and transmitting Orthogonal Frequency Division Multiplexed (OFDM) signals and for modulating and transmitting spread spectrum baseband signals. The spread spectrum baseband signals have cross-correlated in-phase and quadrature-phase filtered baseband signals.

Presented is a method, apparatus, and computer-readable medium for aiding emergency response. An exemplary method includes receiving, by a processor, a first data, the first data related to medical information of an individual, and receiving, by a processor, a plurality of second data, the plurality of second data from a plurality of devices with information of the individual. The method further includes determining, by the processor, a trauma level of the individual based on the received first data and the received plurality of second data, and transmitting, by the processor, the first data and the plurality of second data to a trauma center

A computer-implemented method executed by one or more computer servers includes receiving a notification from a first communication device. The notification indicates an armed intruder within a first stationary geofence. The method further includes determining whether one or more of a first plurality of communication devices are within a second stationary geofence different than the first stationary geofence, and in response to the notification, providing an emergency alert to the communication device(s) determined to be within the second stationary geofence. Other example computer-implemented methods, communication devices including software applications, and systems for notifying one or more LEOs of an armed intruder by a premises personnel associated with a premises are also disclosed.

The present invention provides a system for providing geolocation services in a mobile-based crowdsourcing platform. The system includes a plurality of remote mobile devices configured to communicate and exchange data with a geolocation service based on the crowdsourcing, or polling, of users of such mobile devices to determine location and movement of the users within a specific environment. For example, in an outdoor environment such as a parking lot, the system can track the location of a user's vehicle within the lot and provide the user with an exact position of their vehicle upon the user returning to the parking lot. In the instance of an indoor environment, such as an airport, the system provides a messaging/location alert service for persons within the airport, where any given person's location within the airport can be determined and correlated with an impending departure of a flight for which they are associated.