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Time bias estimation and correction method for receiver in burst communication system

A technology of burst communication and receiver, which is applied in the shaping network, transmission system, digital transmission system, etc. Failure and other problems, to achieve the effect of improving initial convergence speed, improving reliability, and rapid change

Active Publication Date: 2015-02-25
上海明波通信技术股份有限公司
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Problems solved by technology

Of course, this method also faces the problem of intermittently using time offset statistics for time offset estimation; in addition, this method is susceptible to the influence of asymmetric narrowband interference on the spectrum due to the use of the odd symmetry of the signal phase
[0005] The above-mentioned technical solution of extracting time offset statistics from the time domain and frequency domain for time offset estimation still faces another problem: due to the long time of convergence of time offset estimation of these algorithms, in order to speed up the initial locking of the system, it is usually desired that the carrier frequency offset The estimation starts at the same time as the time offset, and the estimation of the carrier frequency offset usually adopts the method of extracting statistics from the time domain correlation output or the phase characteristic of the frequency domain signal, so the two loops of time offset and carrier frequency offset estimation are in the The initial convergence phase is prone to tricky interactions
Due to the existence of time skew, the synchronization miss detection or synchronization error of some burst frames is easy to cause a chain reaction, resulting in the failure of subsequent frame synchronization

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  • Time bias estimation and correction method for receiver in burst communication system
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  • Time bias estimation and correction method for receiver in burst communication system

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Embodiment Construction

[0042] see figure 1 , the sender sends out periodic beacon frames (not shown in the figure), the nominal value of the beacon frame interval is T, T is agreed in advance by the communication protocol between the sender and the receiver, the sender and receiver are in communication The T value has been known before.

[0043] In order to estimate the time offset, the receiver first captures the synchronous position of a beacon frame, and resets the local time base counter to the synchronous position of the beacon frame, that is, the starting point of the next counting period of the local time base counter is the same as the beacon frame The synchronization position coincides, and the time offset estimate is reset to 0 at the same time.

[0044] Then, the receiver enters the initial estimation stage of time offset, and the receiver sets the frame synchronization window width of initial estimation as W 1 , as indicated by the local time base counter (T-W 1 / 2,T+W 1 / 2) Search f...

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Abstract

The invention discloses a time bias estimation method for a receiver in a burst communication system, which includes acquiring the initial estimation value of the time bias immediately by metering the inter-frame gap of multiple beacon frames successful in synchronization at the initial estimation stage of the time bias and regulating the estimation value of the time bias and utilizing a protection mechanism for regulating the estimation value of the time bias after the estimation value exceeds the threshold frequently continuously after the time bias estimation of the burst communication system accesses a stable state. The invention further discloses a time bias correction method for the receiver in the burst communication system according to the estimation value, which includes interpolating received data of frames according to the current estimation value of the time bias to acquire sampling value at an imaginary sampling position by utilizing a transmitter as a beat and then controlling to increase or decrease beat of a local time-base counter. By the methods, the initial convergence rate of time bias estimation can be increased, reliability of stead-state tracking in time bias estimation can be improved, and failure in subsequent frame synchronization caused by synchronization omission or synchronization error of some burst frames is avoided.

Description

technical field [0001] The invention relates to a time offset estimation and correction method of a receiver in a burst communication system with periodic beacon frames. Background technique [0002] With the continuous development of communication technology, the burst communication mode has been widely used in both wired and wireless communication systems. For example, in the HiNOC (High Performance Network over Coaxial Cable, high-performance coaxial cable broadband access network) system, the TDD / TDMA burst communication method is used to transmit bidirectional data signals on a coaxial cable. This system takes the bridge head-end device as a timing reference, and sends out periodic beacon frames on the bridge head-end device. In order to simplify the synchronization and demodulation of the access terminal equipment. [0003] In order to recover the system time offset (that is, the frequency deviation between the receiver's local clock and the transmitter's clock) info...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L7/00H04L25/03
Inventor 刘铁陈小元焦金良
Owner 上海明波通信技术股份有限公司
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