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Version 15 (ABDALLAH, Hussein, 03/13/2016 11:31 AM) → Version 16/60 (ABDALLAH, Hussein, 03/13/2016 11:31 AM)
h1. Simplified communication schemes of Voyager I Probe
h1. *State of the art of coding schemes and modulation techniques*
h3. [[Introduction]] Introduction
In all communication systems, coding and decoding aspects represent basic and essential steps in order to avoid errors or correct them and therefore establish a reliable communication. In this part of the project, we will present different coding schemes and modulations involved in the Voyager 1 and 2 communication systems, in particular Manchester, Golay and Reed-Solomon codes. And then by focusing on technical mechanism and algorithm, we will try to understand how they work, how we implement such code and what are their benefits and the drawbacks.
h3. [[ Some definitions you need to know ]]
A lot of technical terms will be present in this project, so for purpose of simplicity, the section below is appropriated to give an idea about some definitions and technical terms.
*Error detection:* Is the detection for errors occurred due to noise and impairments in the transmission from the transmitter to the receiver
*Cyclic redundancy check (CRC):* it is an error-detecting code used to detect changes on data transmitted, by adding a check value (redundancy) on the system input. On retrieval, after doing the same calculation as in input, if check values do not match that means an error occurs.
*Parity bits:* it is a bit added to the source bits in order to obtain an even or odd number of set bits (with value 1) in the outcome.
*Redundancy:* In order to correct a message, some additional bits are added to the data transmitted which will be used by the receiver to check consistency of the delivered message and then recover the erroneous data.
*Error correction:* Is the reconstruction of the data after detecting errors in the receiver side.
*Forward error correction (FEC) or channel coding:* it is a technique during which additional information (redundant bits) are encoded to the message by the sender using error-correction code (ECC). This redundancy allows the receiver to detect a limited number of errors, and then recovers the original data without relying on retransmissions of data. It is used in applications such as mobile communication
*Systematic code scheme:* In this scheme, parity data (check bits) derived from an algorithm are attached to the original message. The same algorithm is implemented on the receiver. Once the data is received, the algorithm will be applied, and by comparing the output with the received check bits, the receiver detects error if the results do not match (Golay code is a systematic code).
h1. *State of the art of coding schemes and modulation techniques*
h3. [[Introduction]] Introduction
In all communication systems, coding and decoding aspects represent basic and essential steps in order to avoid errors or correct them and therefore establish a reliable communication. In this part of the project, we will present different coding schemes and modulations involved in the Voyager 1 and 2 communication systems, in particular Manchester, Golay and Reed-Solomon codes. And then by focusing on technical mechanism and algorithm, we will try to understand how they work, how we implement such code and what are their benefits and the drawbacks.
h3. [[ Some definitions you need to know ]]
A lot of technical terms will be present in this project, so for purpose of simplicity, the section below is appropriated to give an idea about some definitions and technical terms.
*Error detection:* Is the detection for errors occurred due to noise and impairments in the transmission from the transmitter to the receiver
*Cyclic redundancy check (CRC):* it is an error-detecting code used to detect changes on data transmitted, by adding a check value (redundancy) on the system input. On retrieval, after doing the same calculation as in input, if check values do not match that means an error occurs.
*Parity bits:* it is a bit added to the source bits in order to obtain an even or odd number of set bits (with value 1) in the outcome.
*Redundancy:* In order to correct a message, some additional bits are added to the data transmitted which will be used by the receiver to check consistency of the delivered message and then recover the erroneous data.
*Error correction:* Is the reconstruction of the data after detecting errors in the receiver side.
*Forward error correction (FEC) or channel coding:* it is a technique during which additional information (redundant bits) are encoded to the message by the sender using error-correction code (ECC). This redundancy allows the receiver to detect a limited number of errors, and then recovers the original data without relying on retransmissions of data. It is used in applications such as mobile communication
*Systematic code scheme:* In this scheme, parity data (check bits) derived from an algorithm are attached to the original message. The same algorithm is implemented on the receiver. Once the data is received, the algorithm will be applied, and by comparing the output with the received check bits, the receiver detects error if the results do not match (Golay code is a systematic code).