在一个由主设备的设备地址决定的伪随机跳频序列的指引下,每一个数据包都经由不同的频率信道来传输。
Each data packet is transmitted on a different frequency channel, following a pseudo-random hopping sequence determined by the device address of the master device.
TORQUE还要求所有节点名均被解析成一个IP地址,所以可以使用这些节点的IPMI作为伪执行节点,如清单27所示。
TORQUE also requires that all node names be resolved to an IP address, so use the IPMIs of the nodes as dummy execution nodes, as shown in Listing 27.
他由一个8位6502CPU(不支持整数模式,也被称为BCD),DMA传输单元,伪音频处理单元,1/12时钟分频器,以及1位逻辑单位的地址译码。
It consists of an 8-bit 6502 CPU (without support for decimal mode, also known as BCD), DMA transfer unit, pseudo audio processing unit, 1/12 clock divider, and a bit of logic for address decoding.
结果显示:理论上采用双极性纯随机序列作为地址码可以使多址干扰达到最小,而在实际应用中伪随机m序列作为地址码也使多址干扰趋向最小。
The results show that MAI is minimized if pure random sequences are used as address codes, and m sequences are appropriate substitutes for pure random sequences in practice.
结果显示:理论上采用双极性纯随机序列作为地址码可以使多址干扰达到最小,而在实际应用中伪随机m序列作为地址码也使多址干扰趋向最小。
The results show that MAI is minimized if pure random sequences are used as address codes, and m sequences are appropriate substitutes for pure random sequences in practice.
应用推荐