大部分工作已经完成对数据的使用和低功耗优化。
Much work has been done on optimising for low data usage and power consumption.
利用直接数字合成(DDS)技术完成对数据的调制。
And while programmed on DSP, we modulated data by the way of Direct Digital Synthesizer (DDS).
采用ADO技术连接到数据库,完成对数据库的查询和修改。
Furthermore, the database is inquired and modified with the ADO technique.
最后边界点相联,组成光滑的边界曲线,完成对数据点云的划分。
At last, the smooth curves were obtained by linking the edge-points. So the segmentation of data points is...
本文利用PCI9052的直接数据传输模式,完成对数据的传输。
In this paper, PCI9052 direct data transmission mode, the completion of data transmission.
使用标准的SQL语句和JDBCAPI来完成对数据库进行读取和写入操作。
The reading and writing on database with standard SQL sentence and JDBC API can be made.
在完成对数据的解编之后,分析并总结在不同地层情况下阵列声波单极子和偶极子的波形特征。
After this we analyzed and summarized monopole and dipole array acoustic waveform data under the different strata.
再采用基于互联合矩阵的集成方法,在构造的相似度矩阵上应用谱聚类算法来完成对数据的最后聚类。
Then using the combining method of co-association matrix, the final result is obtained by using spectral clustering algorithm on this matrix.
为此查询生成的SQL会转换成对数据库中用户定义函数的调用(请参见此查询后面的 SQL 代码)。
The SQL built for this query translates to a call to the user-defined function in the database (see the SQL code following the query).
监控点完成对数据的采集工作并经过编码由AIS发射出去之后,监控中心通过AIS接收各监控点的水深和位置信息。
The water depth data is collected and launched out by AIS after coding in supervision points, the supervision center receives the water depth data and location information from supervision points.
该实例是利用AT 90CAN 128这块芯片做主控芯片,ATA6660做CAN的控制器,通过对芯片里面的寄存器进行操控,来完成对数据的传输。
The instance utilizes the chip AT90CAN128 as the main chip and the chip ATA6660 as Can transceiver. The Can bus transmits the data by controlling the inside registers.
该实例是利用AT 90CAN 128这块芯片做主控芯片,ATA6660做CAN的控制器,通过对芯片里面的寄存器进行操控,来完成对数据的传输。
The instance utilizes the chip AT90CAN128 as the main chip and the chip ATA6660 as Can transceiver. The Can bus transmits the data by controlling the inside registers.
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