Channel Bonding for ATSC3.0

Channel bonding is an optional technology in ATSC3.0 that provides increased spectrum flexibility for broadcasters. Channel bonding spreads data of a single physical layer pipe over two different, standard-bandwidth RF channels. Primarily, it enables total service data rates that exceed the net capacity of a single RF channel, but also offers advantages for enhanced statistical multiplexing or scalable video coding services across two RF channels. The channels can be located at any frequency, not necessarily adjacent to each other. Channel bonding receivers require two tuners, but still allow for simple and memory efficient implementations. In particular, channel bonding shares to a best possible extent the architecture of other two tuner operation modes (MIMO and diversity receiver), therefore increasing the market success probability of this enhanced receiver type.

[1]  Francesca De Simone,et al.  Subjective quality evaluation of the upcoming HEVC video compression standard , 2012, Other Conferences.

[2]  David Gomez-Barquero,et al.  An Overview of the ATSC 3.0 Physical Layer Specification , 2016, IEEE Transactions on Broadcasting.

[3]  David Gomez-Barquero,et al.  Coexistence of digital terrestrial television and next generation cellular networks in the 700 MHz band , 2014, IEEE Wireless Communications.

[4]  Gary J. Sullivan,et al.  Comparison of the Coding Efficiency of Video Coding Standards—Including High Efficiency Video Coding (HEVC) , 2012, IEEE Transactions on Circuits and Systems for Video Technology.

[5]  Joerg Robert,et al.  Performance analysis of time frequency slicing , 2011, 2011 14th ITG Conference on Electronic Media Technology.

[6]  James Nightingale,et al.  Video adaptation for consumer devices: opportunities and challenges offered by new standards , 2014, IEEE Communications Magazine.

[7]  David Gomez-Barquero,et al.  Statistical model of signal strength imbalance between RF channels in DTT network , 2012 .

[8]  Sung Ik Park,et al.  Low Complexity Layered Division Multiplexing for ATSC 3.0 , 2016, IEEE Transactions on Broadcasting.

[9]  David Gomez-Barquero,et al.  MIMO for ATSC 3.0 , 2016, IEEE Transactions on Broadcasting.

[10]  David Gomez-Barquero,et al.  Bit-Interleaved Coded Modulation (BICM) for ATSC 3.0 , 2016, IEEE Transactions on Broadcasting.

[11]  David Gomez-Barquero,et al.  Time Frequency Slicing for Future Digital Terrestrial Broadcasting Networks , 2014, IEEE Transactions on Broadcasting.

[12]  David Gomez-Barquero,et al.  Advanced Network Planning for Time Frequency Slicing (TFS) Toward Enhanced Efficiency of the Next-Generation Terrestrial Broadcast Networks , 2015, IEEE Transactions on Broadcasting.