Please use this identifier to cite or link to this item: http://localhost/handle/Hannan/649170
Title: Channel Bonding for ATSC3.0
Authors: Lothar Stadelmeier;Daniel Schneider;Jan Zöllner;Jordi Joan Gimenez
subject: terrestrial broadcast|channel bonding|2-tuner receivers|ATSC3.0
Year: 2016
Publisher: IEEE
Abstract: 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.
URI: http://localhost/handle/Hannan/178932
http://localhost/handle/Hannan/649170
ISSN: 0018-9316
1557-9611
volume: 62
issue: 1
Appears in Collections:2016

Files in This Item:
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7422758.pdf1.05 MBAdobe PDFThumbnail
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Title: Channel Bonding for ATSC3.0
Authors: Lothar Stadelmeier;Daniel Schneider;Jan Zöllner;Jordi Joan Gimenez
subject: terrestrial broadcast|channel bonding|2-tuner receivers|ATSC3.0
Year: 2016
Publisher: IEEE
Abstract: 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.
URI: http://localhost/handle/Hannan/178932
http://localhost/handle/Hannan/649170
ISSN: 0018-9316
1557-9611
volume: 62
issue: 1
Appears in Collections:2016

Files in This Item:
File Description SizeFormat 
7422758.pdf1.05 MBAdobe PDFThumbnail
Preview File
Title: Channel Bonding for ATSC3.0
Authors: Lothar Stadelmeier;Daniel Schneider;Jan Zöllner;Jordi Joan Gimenez
subject: terrestrial broadcast|channel bonding|2-tuner receivers|ATSC3.0
Year: 2016
Publisher: IEEE
Abstract: 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.
URI: http://localhost/handle/Hannan/178932
http://localhost/handle/Hannan/649170
ISSN: 0018-9316
1557-9611
volume: 62
issue: 1
Appears in Collections:2016

Files in This Item:
File Description SizeFormat 
7422758.pdf1.05 MBAdobe PDFThumbnail
Preview File