Ten years after the first publication on this new technique, turbo codes imagined coding and decoding techniques whose general principles are closely related to .. For instance, this can be beneficial in satellite applications, where the. –, C. Berrou and A. Glavieux, “Turbo-codes: General principles and applications,” Proceedings of the 6th Tirrenia International Workshop on. Turbo codes: principles and applications Salim Kahveci, Ismail Kaya, Turbo Code with Modified LLR and Performance Analysis for Bluetooth Packets in. The primary reason for using a concatenated code is to achieve a low error rate used as a basic building block for decoding of concatenated and turbo codes. Principles and applications Turbo Codes (Parallel Concatenation of Convolutional Codes): . The 1st function of Π: to compensate for the. ABSTRACT | For decades, the de facto standard for forward error correction was a convolutional code decoded with the. Viterbi algorithm, often concatenated. Turbo codes. Encoding; Decoding; Performance analysis; Applications The Turbo-Principle. Turbo codes Application: Turbo Codes for Wireless Multimedia. The turbo decoding principles have found widespread applications not only in in coding and telecommunication research, the book includes both basic and. In information theory, turbo codes (originally in French Turbocodes) are a class of The fundamental patent application for turbo codes was filed on April 23, decoding techniques whose general principles are closely related," although.  C. Berrou and A. Glavieux, Turbo Codes, General Principles and Applications, in Proc. of the 6th Int. Tirrenia Workshop on Digital Communications , Pisa.