A method and an apparatus for estimating synchronization of a broadcast signal in a time domain using a synchronization estimation signal through steps of: performing a correlation operation using a correlation window on a plurality of synchronization estimation signals separated to a plurality of paths and outputting a plurality of correlated signals; delaying the plurality of correlated signals to output a plurality of delayed signals; and estimating the synchronization using the plurality of delayed signals are provided.

A method is for date-stamping an event detected in an automotive vehicle including a plurality of sensors each comprising a relative internal clock and an electronic control unit including an absolute internal clock. The method includes, at each period, resetting the whole set of relative internal clocks of the sensors to zero, storing the absolute time of resetting to zero of the absolute clock at each reset to zero, detecting an event, receiving, at each detected event, a sensor relative time originating from the sensor's relative clock associated with the detected event, and calculating a sensor absolute time as a function of the sensor relative time of the internal clock of a sensor associated with the detected event and of the time of resetting to zero stored by a storage module in the electronic control unit at each reset to zero, defining a reference relative time.

A method is for date-stamping an event detected in an automotive vehicle including a plurality of sensors each comprising a relative internal clock and an electronic control unit including an absolute internal clock. The method includes, at each period, resetting the whole set of relative internal clocks of the sensors to zero, storing the absolute time of resetting to zero of the absolute clock at each reset to zero, detecting an event, receiving, at each detected event, a sensor relative time originating from the sensor's relative clock associated with the detected event, and calculating a sensor absolute time as a function of the sensor relative time of the internal clock of a sensor associated with the detected event and of the time of resetting to zero stored by a storage module in the electronic control unit at each reset to zero, defining a reference relative time.

An apparatus and method for broadcast signal frame using a bootstrap and a preamble are disclosed. An apparatus for generating broadcast signal frame according to an embodiment of the present invention includes a time interleaver configured to generate a time-interleaved signal by performing interleaving on a BICM output signal; and a frame builder configured to generate a broadcast signal frame including a bootstrap and a preamble using the time-interleaved signal.

An apparatus and method for broadcast signal frame using a bootstrap and a preamble are disclosed. An apparatus for generating broadcast signal frame according to an embodiment of the present invention includes a time interleaver configured to generate a time-interleaved signal by performing interleaving on a BICM output signal; and a frame builder configured to generate a broadcast signal frame including a bootstrap and a preamble using the time-interleaved signal.

A synchronization module is configured to generate a synchronization signal for transmission to at least one of a power generator and/or at least one match network, wherein the synchronization signal is formed with pulses having varying durations, wherein a duration of a pulse in the synchronization signal conveys information about an event in a power waveform.

A synchronization module is configured to generate a synchronization signal for transmission to at least one of a power generator and/or at least one match network, wherein the synchronization signal is formed with pulses having varying durations, wherein a duration of a pulse in the synchronization signal conveys information about an event in a power waveform.

A method includes: scheduling transmission of a first synchronization signal by a first node; and scheduling transmission of a second synchronization signal by a second node. The method also includes, after transmission of the first synchronization signal: receiving, from the first node, a first phase reference associated with the first synchronization signal; and receiving, from the second node, a first phase-of-arrival of the first synchronization signal at the second node. The method additionally includes, after transmission of the second synchronization signal: receiving, from the second node, a second phase reference associated with the second synchronization signal; and receiving, from the first node, a second phase-of-arrival of the second synchronization signal at the first node. The method further includes calculating a propagation delay between the first node and the second node based on the first phase reference, the second phase reference, the first phase-of-arrival, and the second phase-of-arrival.

A method includes: scheduling transmission of a first synchronization signal by a first node; and scheduling transmission of a second synchronization signal by a second node. The method also includes, after transmission of the first synchronization signal: receiving, from the first node, a first phase reference associated with the first synchronization signal; and receiving, from the second node, a first phase-of-arrival of the first synchronization signal at the second node. The method additionally includes, after transmission of the second synchronization signal: receiving, from the second node, a second phase reference associated with the second synchronization signal; and receiving, from the first node, a second phase-of-arrival of the second synchronization signal at the first node. The method further includes calculating a propagation delay between the first node and the second node based on the first phase reference, the second phase reference, the first phase-of-arrival, and the second phase-of-arrival.

A wireless media distribution system is provided comprising an access point (6) for broadcasting media and a plurality of stations (2) for reception and playback of media. Each station is configured for receiving and decoding a timestamp in a beacon frame transmitted repeatedly from the access point. This is used to control the output signal of a station physical layer clock (12) which is then used as a clock source for an application layer time synchronisation protocol. This application layer time synchronisation protocol can then be used in the station to control an operating system clock (8) for regulating playback of media.