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Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications
Abstract <p>The objective of this thesis is t<p>The objective of this thesis is to improve the performance of real-time communication overa wireless channel, by means of specifically tailored channel coding. The deadlinedependent coding (DDC) communication protocol presented here lets the timeliness and thereliability of the delivered information constitute quality of service (QoS) parametersrequested by the application. The values of these QoS parameters are transformed intoactions taken by the link layer protocol in terms of adaptive coding strategies.Incremental redundancy hybrid automatic repeat request (IR-HARQ) schemes usingrate compatible punctured codes are appealing since no repetition of previously transmittedbits is made. Typically, IR-HARQ schemes treat the packet lengths as fixed and maximizethe throughput by optimizing the puncturing pattern, i.e. the order in which the coded bitsare transmitted. In contrast, we define an IR strategy as the maximum number of allowedtransmissions and the number of code bits to include in each transmission. An approach isthen suggested to find the optimal IR strategy that maximizes the average code rate, i.e., theoptimal partitioning of n-kparity bits over at most M transmissions, assuming a givenpuncturing pattern. Concatenated coding used in IR-HARQ schemes provides a new arrayof possibilities for adaptability in terms of decoding complexity and communication timeversus reliability. Hence, critical reliability and timing constraints can be readily evaluatedas a function of available system resources. This in turn enables quantifiable QoS and thusnegotiable QoS. Multiple concatenated single parity check codes are chosen as examplecodes due to their very low decoding complexity. Specific puncturing patterns for thesecomponent codes are obtained using union bounds based on uniform interleavers. Thepuncturing pattern that has the best performance in terms of frame error rate (FER) at a lowsignal-to-noise ratio (SNR) is chosen. Further, using extrinsic information transfer (EXIT)analysis, rate compatible puncturing ratios for the constituent component code are found.The puncturing ratios are chosen to minimize the SNR required for convergence.The applications targeted in this thesis are not necessarily replacement of cables inexisting wired systems. Instead the motivation lies in the new services that wireless real-time communication enables. Hence, communication within and between cooperatingembedded systems is typically the focus. The resulting IR-HARQ-DDC protocol presentedhere is an efficient and fault tolerant link layer protocol foundation using adaptiveconcatenated coding intended specifically for wireless real-time communications.</p>reless real-time communications.</p>
Author Elisabeth Uhlemann +
Diva http://hh.diva-portal.org/smash/record.jsf?searchId=1&pid=diva2:237548
PublicationType PhD Thesis  +
Publisher Chalmers tekniska högskola  +
Title Adaptive Concatenated Coding for Wireless Real-Time Communications  +
Year 2004  +
Has queryThis property is a special property in this wiki. Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications + , Publications:Adaptive Concatenated Coding for Wireless Real-Time Communications +
Categories Publication  +
Modification dateThis property is a special property in this wiki. 26 June 2014 03:41:59  +
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