Method for eliminating initial oscillation of shock filtering response of ABSK (Asymmetry Binary Shift Keying) signal

A technology of shock filter and shock filter, which is applied in the modulation carrier system, shaping network in transmitter/receiver, sustainable building, etc., can solve the problems of unreliable data transmission and low signal-to-noise ratio, and achieve favorable Energy saving, consumption reduction, shortened start-up time, and improved transmission efficiency

Active Publication Date: 2013-01-02
苏州东奇信息科技股份有限公司
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  • Claims
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Problems solved by technology

Although it effectively utilizes the peak part with high signal-to-noise ratio in the initial oscillation period (ie image 3 CD segment in), but because the shock filter response in the initial segment (before point "E") has not yet reached the amplitude average value in the steady state (after point "B"), the signal-to-noise ratio at this time is low, and the data transmission Not reliable enough, so the AG segment that lasts about 70 symbol periods is still discarded in the design of the data frame

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  • Method for eliminating initial oscillation of shock filtering response of ABSK (Asymmetry Binary Shift Keying) signal
  • Method for eliminating initial oscillation of shock filtering response of ABSK (Asymmetry Binary Shift Keying) signal
  • Method for eliminating initial oscillation of shock filtering response of ABSK (Asymmetry Binary Shift Keying) signal

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Embodiment Construction

[0074] The present invention will be described in detail below with reference to the accompanying drawings and in combination with embodiments.

[0075] 1. ABSK communication system

[0076] Figure 5 It is an all-digital realization scheme of the existing ABSK modulator. First, the modulated waveform g within one symbol period represented by formula (2) or formula (3) 1 (t) and g 0 (t) discrete sampling value (for pseudo-random CP-EBPSK modulation, then generate g according to formula (3) 11 (t), g 12 (t) and g 0 (t) discrete sampling value) is stored in the read-only memory in advance. Then, under the control of the information sequence to be transmitted, the corresponding g is selected according to the sampling frequency provided by the clock generator 0 (t) waveform sample (when the information bit is "0") or g 1 (t) Waveform sample (when the information bit is "1"); and for a pseudo-random CP-EBPSK modulated signal, if the information bit is "1", it is also necess...

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Abstract

The invention discloses a method for eliminating initial oscillation of a shock filtering response of an ABSK signal. The method comprises the steps of step (1), presending a string of modulation signals which are not lower than 500 code element periods, and receiving the modulation signals through signal channels by an ABSK receiver and sending the modulation signals to a shock filter; step (2), storing and recording output states X[n] and Y[n] of the shock filter at the moment after the shock filtering response of the ABSK signal enters a steady state from a continuously oscillated transient state; and step (3), setting initial states X[0] and Y[0] of the shock filter into X[n] and Y[n] obtained in the step (2) before subsequent actual communication, wherein the initial state is predetermined to be the steady state of the shock filter. According to the method for eliminating the initial oscillation of the shock filtering response of the ABSK signal, the transmission efficiency and accuracy rate can be vigorously improved, and the transmitting power is greatly saved; and the method is particularly suitable for small data packet communication systems such as burst communication and power line carrier communication and wireless sensor networks which extremely concerns about power consumption.

Description

technical field [0001] The invention belongs to the field of digital communication and digital signal processing, relates to a digital communication system, in particular to a method for eliminating the initial oscillation of an ABSK signal shock filter response. Background technique [0002] 1. Asymmetric binary phase shift keying [0003] The rapidly growing demand for broadband wireless services puts forward higher and higher requirements for wireless communication, which directly leads to more and more crowded radio frequencies in the air. Compressing the wireless transmission spectrum to the maximum has important practical significance and direct economic benefits. The spectrum utilization rate of a digital communication system can be evaluated by the digital rate (expressed in bps / Hz, but strictly speaking, it should be the information rate or "net" code rate after deducting channel coding) that can be transmitted within a unit frequency band, mainly depends on The fr...

Claims

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Application Information

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IPC IPC(8): H04L27/00H04L25/03
CPCY02B60/50
Inventor 王继武但吉兵吴乐南
Owner 苏州东奇信息科技股份有限公司
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