For full details, visit the <a href=" http://icc2017.ieee-icc.org/workshop/polar-coding-5g-and-future-wireless-networks ">workshop website</a>.

Channel coding is a well-studied subject – some say. The challenges faced by the code design for future networks, however, clearly falsifies this statement. 5G, as an example for a wireless network, requires coding schemes that cover large ranges of code lengths and code rates. Optical communications, as an example for a wired network, requires extremely low error rates. For both examples, low decoding complexity, low decoding latency and high hardware efficiency are mandatory.

Turbo codes, low-density parity check codes and polar codes are among the most promising candidates. While all these codes are capacity approaching, each class of codes has their own advantages and disadvantages at practical code lengths. This is particularly true with respect to the challenging requirements of future networks. Code design and decoder architectures for these code classes are also in different states of development and practical implementation. A few examples: turbo codes are very well developed with respect to their decoder implementation but they typically exhibit error floors; LDPC codes are very efficient at high code rates but design for low code rates is difficult; polar codes can deal with a large range of rates but their decoding latency is potentially high.

This workshop aims at presenting the state-of-the-art in modern channel coding and solutions to address channel coding problems expected in future networks. For providing the full picture, the topics range from coding theory over code design and decoder design to implementation aspects.

The workshop will provide a platfor m for the dissemination of research on topics of interest but not limited to the following: