一些运营商采用了三角定位技术,此技术通过比较不同基站接收的手机信号来确定手机所处位置。
Some operators opted for triangulation technology, which determines the location of the handset by comparing the signals received by different base-stations.
一些运营商采用了三角定位技术,此技术通过比较不同基站接收的手机信号来确定手机所处的位置。
Some operators opted for triangulation technology, which determines the location of the handset by comparing the signals received by different basestations.
该模式采用图19所示的消息流,通过TCP/IP接收数据,使用WebSphereTX节点进行解析,然后将数据写入到 WebSphere MQ队列。
This pattern uses a message flow shown below in Figure 19, which receives data over TCP/IP, parses it using a WebSphere TX node, and writes it to a WebSphere MQ queue.
它采用空间滤波技术,通过比较主、辅天线接收机的输出信号幅度,实现对干扰信号的抑制。
It adopts space filtering technique to achieve suppression of jamming signal by comparing the output amplitude from the receivers of the main and auxiliary antennas.
它采用空间滤波技术,通过辅助接收通道在干扰方向形成波束图的零点,实现对干扰信号的抑制。
Beam pattern null in the direction of jamming is formed by space filtering and assisted receive channels to suppress the jamming.
MIMO技术通过采用多个发射天线和接收天线可以显著提高无线通信系统的信道容量,增强数据传输的可靠性。
MIMO systems can increase the channel capacity and enhance the transmission reliability by employing multiple antennas at the transmitter and receiver.
硬件部分采用51系列单片机实现,水下测量浮标通过RS- 485串行口与岸站接收处理系统进行通讯。
Microcontroller of 51 series is applied in the hardware and the underwater buoy communicates with the receiving and processing system of the land station by RS-485 serial interfaces.
采用空间分集技术,通过使用多发送天线和多接收天线系统(MIMO系统),可以从一定程度上保证传输信号的质量。
With the introduction of space diversity, by using multi -sending antennas and multi -receiving antennas system(MIMO), we can improve the quality of the signals.
方法:数据结构采用与“军卫一号”相同的表结构,通过网络通信完成中心医院的数据接收。
Methods the table structure of NO. 1 Military Medical Project was adopted, and data reception in the central hospital was realized by network communication.
它采用空间滤波技术,通过辅助接收通道在干扰方向形成波束图的零点,实现对干扰信号的抑制。
Beam pattern null in the direction of jamming is formed by space filtering and assistant receive channels to restrain the jamming.
通过在发送端采用预编码器,在接收端采用均衡器,可以实现最大分集传输。
Maximum diversity transmission can be achieved by adopting precoder at the transmitter and equalizer at the receiver.
在该方案中,接收端进行波束成形,发送端通过TH预编码进行用户间干扰抑制,同时采用层间轮换的用户调度机制。
In this scheme, the receivers perform beam-forming, while the transmitter suppresses the inter-user interference using the THP scheme.
在此基础上,提出了一种采用半导体激光器作光源,PS D作光电接收器的尺寸测量系统,并通过实验对其精度进行了验证。
On the above basis, a dimension measuring system that USES semiconductor laser as its light source and PSD as the receiver, is proposed. Its precision is verified by experiments.
离线校正的方法是现阶段单脉冲雷达系统进行和差通道幅相校正采用的主要方法,它通过注入测试信号的方法来得到对误差接收通道幅相特性的估计。
The former one is now widely used in the monopulse system to calibrate the amplitude and phase imbalances between the sum and difference channels by injecting test signals.
本实施例通过采用光纤传递发射和接收信号,使大容量的微波应用得以实现,而且也大大节省了成本。
The embodiment adopts optical fiber to transmit and receive signals, and realizes large capacity microwave application; meanwhile, the cost is greatly reduced.
该方案允许每个用户都采用相同的小公钥,发送者可根据要发送的用户数通过引入随机数r对加密密钥进行放大,每个接收者用两个小密钥对密文进行解密。
This protocol allowed each recipient using the same public key during the encryption process and the sender using a random number to enlarge the public key following the number of recipients.
该方案允许每个用户都采用相同的小公钥,发送者可根据要发送的用户数通过引入随机数r对加密密钥进行放大,每个接收者用两个小密钥对密文进行解密。
This protocol allowed each recipient using the same public key during the encryption process and the sender using a random number to enlarge the public key following the number of recipients.
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