Techniques are disclosed for managing delivery of content and tracking the same via audio cues. For example, a client computing device may monitor ambient sound for audio that matches audio sampled from broadcast content. In response to detecting matching audio, the client computing device transmits tracking data to a centralized content server. The content server records the tracking information and evaluates whether the matching audio was detected within a geographic area associated with the broadcast content. If so, the content server executes additional actions including transmitting supplemental content to the client computing device and/or updating summary level metrics that indicate receptions of broadcast content within target geographic locations.

Techniques are disclosed for managing delivery of content and tracking the same via audio cues. For example, a client computing device may monitor ambient sound for audio that matches audio sampled from broadcast content. In response to detecting matching audio, the client computing device transmits tracking data to a centralized content server. The content server records the tracking information and evaluates whether the matching audio was detected within a geographic area associated with the broadcast content. If so, the content server executes additional actions including transmitting supplemental content to the client computing device and/or updating summary level metrics that indicate receptions of broadcast content within target geographic locations.

The ATSC 3.0 physical layer broadcast standard is extended with new OFDM numerology, L1 signaling and frame structure aligned with 5G. This is done to enable improved broadcast mobility and convergence 5G release 16 as a Non-3GPP access network. The 5G core network and Broadcast core network interwork over defined interfaces to enable convergence layer 3. This enables improvements of broadcast physical layer for physics of broadcast. The 5G unicast physical layer is enhanced for physics of unicast, and then both are converged at layer 3. This is novel and has many benefits compared to the legacy LTE broadcast method (e.g., Evolved Multimedia Broadcast Multicast Services (eMBMS)), which combines both broadcast and unicast into a single shared LTE frame at layer 1. The eMBMS method is then improved for dominate unicast mode in shared L1 frame. The result is the broadcast performance and efficiency in eMBMS are less than optimal.

An enhanced radio system is disclosed that provides for the capture and playback of one or more radio stations. A user may tune to a station, scan through stations, rewind through missed content (even while the system is off), and fast-forward through undesired content, while downloading and uploading audio content, and sending content to another user. A user may rate content, and be notified when that content is played on any station, with undesirable content skipped and desirable content saved, or station recommendations made. Support for multiple sets of configuration information to allow use by multiple listeners and in multiple locations may be provided. Optionally provided are security features to prevent the unauthorized downloading, uploading, and saving of copies of content, other radio related and content related information, a karaoke mode, integration with a telephone with the radio, or reporting usage information to a collection facility.

A computer system receives information snippets from a mobile device. The information snippets are extracted from a simulcast of a data stream of a radio broadcast received on the mobile device. The system identifies content metadata from the information snippets. The content metadata describes one or more features of the radio broadcast. The system selects a radio station from a radio station repository based on attributes of the radio station. One of the selection criteria is that the attributes of the radio station match at least a portion of the content metadata. The system presents a reference to the radio station to the mobile device as a recommendation.

A computer system receives information snippets from a mobile device. The information snippets are extracted from a simulcast of a data stream of a radio broadcast received on the mobile device. The system identifies content metadata from the information snippets. The content metadata describes one or more features of the radio broadcast. The system selects a radio station from a radio station repository based on attributes of the radio station. One of the selection criteria is that the attributes of the radio station match at least a portion of the content metadata. The system presents a reference to the radio station to the mobile device as a recommendation.

An enhanced radio system is disclosed that provides for the capture and playback of one or more radio stations. A user may tune to a station, scan through stations, rewind through missed content (even while the system is off), and fast-forward through undesired content, while downloading and uploading audio content, and sending content to another user. A user may rate content, and be notified when that content is played on any station, with undesirable content skipped and desirable content saved, or station recommendations made. Support for multiple sets of configuration information to allow use by multiple listeners and in multiple locations may be provided. Optionally provided are security features to prevent the unauthorized downloading, uploading, and saving of copies of content, other radio related and content related information, a karaoke mode, integration with a telephone with the radio, or reporting usage information to a collection facility.

A method at a user equipment, the method including receiving at the user equipment over a first technology, an emergency notification, the emergency notification providing information for a second technology capable of carrying an emergency message; and activating the second technology using the information for the second technology to receive the emergency message.

Disclosed herein are a broadcast node and a method for dynamically managing radio resources and heterogeneous network connectivity. The broadcast node is installed for a transmitter of an intelligent broadcast/broadband network, wherein the broadcast node is configured to generate an attribute message including an associated identification parameter for connection to a broadcast core network, and initiate a series of communication protocols for connection with additional intelligent entities, and manage a service request queue, a radio resource, an interface, and one or more services.

Disclosed herein are a broadcast node and a method for dynamically managing radio resources and heterogeneous network connectivity. The broadcast node is installed for a transmitter of an intelligent broadcast/broadband network, wherein the broadcast node is configured to generate an attribute message including an associated identification parameter for connection to a broadcast core network, and initiate a series of communication protocols for connection with additional intelligent entities, and manage a service request queue, a radio resource, an interface, and one or more services.