Development of Improved SOQPSK based Data Transmission over Aeronautical Telemetry Link

2021 National Conference on Communications (NCC) Pub Date : 2021-07-27 DOI:10.1109/NCC52529.2021.9530180

Ravindra Mohan Nigam, P. M. Pradhan

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引用次数: 1

Abstract

In aeronautical telemetry Alamouti encoded Shaped Offset Quadrature Phase Shift Keying - Telemetry Group (SOQPSK-TG) modulated signal is used to resolve “Two antenna problem” due to simultaneous transmission from the two onboard antennae. Detection of this signal at the receiver requires estimation of channel impairments (channel gains, time delays and frequency offset). The Maximum Likelihood Sequence Estimation (MLSE) based decoder of Space Time Coding (STC) encoded SOQPSK- TG signal requires 512 states, which is too complex for implementation. In this paper, pulse shaping is performed on SOQPSK- TG frequency pulse to reduce the pulse duration. Pulse of length 2 bit interval is found to be approximately matching the SOQPSK- TG characteristic while reducing the decoder complexity to 8 number of states. Subsequently parameter estimation is carried out for STC encoded SOQPSK-2T by Maximum Likelihood (ML) estimation method. The performances of proposed pulse shaping functions are compared with those of SOQPSK- TG and Feher's Quadrature Phase Shift Keying (FQPSK-JR), and are found to be superior for aeronautical telemetry display and level flight operations.

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基于改进SOQPSK的航空遥测链路数据传输研究

在航空遥测中，采用阿拉穆提编码的形偏置正交相移键控遥测组(SOQPSK-TG)调制信号来解决由两个机载天线同时传输的“双天线问题”。在接收器上检测这个信号需要估计信道损伤(信道增益、时间延迟和频率偏移)。基于最大似然序列估计(MLSE)的空时编码(STC)编码SOQPSK- TG信号解码器需要512个状态，实现起来过于复杂。本文对SOQPSK- TG频率脉冲进行了脉冲整形，减小了脉冲持续时间。发现长度为2位间隔的脉冲近似匹配SOQPSK- TG特性，同时将解码器的复杂度降低到8个状态。随后，采用最大似然估计方法对STC编码的SOQPSK-2T进行参数估计。将所提出的脉冲整形函数与SOQPSK- TG和Feher正交相移键控(FQPSK-JR)的脉冲整形函数的性能进行了比较，发现其在航空遥测显示和水平飞行操作中具有优越的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 National Conference on Communications (NCC)

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