Synchronous data acquisition method based on wireless sensor network
A wireless sensor and data synchronization technology, applied in the field of communication, can solve problems such as large positioning position deviation, degradation of cooperative signal performance, time synchronization error, etc., to ensure time synchronization, improve accuracy and robustness, and reduce time synchronization error Effect
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Embodiment 1
[0049] The present invention is a synchronous data acquisition method based on wireless sensor network. In the application of wireless sensor network, sensor nodes usually need to coordinate and operate together to complete a complex sensing task. For example, if there is a microsecond-level error in time, the Leading to the accuracy of the positioning system, different time offsets will affect the accuracy of the signal.
[0050] The present invention adopts the hardware platform that FPGA and ARM combine, because adopt 32 EBI (External Bus Interface) buses to carry out data transmission between FPGA and ARM, transmission frequency can reach 133MHz, throughput efficiency is extremely high, so between FPGA and ARM Data transmission does not need to subpackage or recombine data, and then when uploading spectrum data, positioning data or detection data, time stamp information can be added to the header of the entire packet of data. The wireless sensor network consists of a manag...
Embodiment 2
[0078] The synchronous data acquisition method based on wireless sensor network is the same as embodiment 1, and the effect of the present invention can also be further proved by the following simulation examples:
[0079]Use VHDL language in Quartus II to realize the functions of time-scale synchronization module, time-scale maintenance module, time-scale correction module and self-renewal module, and use VWF (Vector Wave File) files to simulate the functions of each module.
[0080] The simulation time scale maintenance module does not change the time information of the minute carry, and the simulation results are as follows Figure 6 (1) shown.
[0081] From Figure 6 (1) It can be seen that the three times of coordination and synchronization of PPS and GPS timing information are realized at about 650ms, and the time scale maintenance module starts to work from the synchronization time, and maintains the current time scale with 60MHz, and the timing accuracy can reach 16.6...
Embodiment 3
[0084] The synchronous data acquisition method based on the wireless sensor network is the same as embodiment 1 and example 2, and the effect of the present invention can also be further proved by the following simulation examples:
[0085] The simulation time scale maintenance module has time information changes in minute increments, and the simulation results are as follows Figure 6 as shown in (2);
[0086] From Figure 6 (2) It can be seen that the PPS and GPS timing information has been coordinated and synchronized for three times at about 650ms. The time scale maintenance module starts to work from the synchronization time, and maintains the current time scale with 60MHz. The timing accuracy can reach 16.67ns. The second information is incremented at intervals of 1, Figure 6 (2) In the case where the time information has minute carry, the time scale maintenance module ensures the accuracy of the time information in the sensing node.
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