该系统采用程序访问式传送数据;
该系统采用两级分布式控制。
该系统采用计算机现场比对校验模式;
The system employes computer field contrast calibration mode.
该系统采用了机械联动用以升降导航。
该系统采用积分分离增量试pid算法。
The system employed with integrated and separated incremental PID algorithm.
该系统采用直线振动装置来分配粉末材料。
This system USES a linear vibratory unit to dispense powder material.
该系统采用了密封固化室围绕着一个小惰辊。
The system features a sealed curing chamber built around a small idler roller.
该系统采用模糊控制策略,能获得较高的控制精度。
The system adopts fuzzy control tactics, such that a high control precision is obtained.
该系统采用模块化结构,自顶向下的程序设计方法。
The mode structure is applied in this system which is vertically programmed (by a way from top to bottom).
该系统采用直线振动装置来分配粉末,颗粒或颗粒状干燥物质。
This system USES a linear vibratory unit to dispense powder, pellet or granular dry material.
该系统采用HLA框架结构,接口规范通过调用接口联接联邦成员。
HLA frame structure was adopted in the simulation system, and federal members were joined by transferring interface in interface standard.
该系统采用字幕与图像分别传送,用户可自主选择字幕的显示方式。
The system transmits captions and images respectively. The caption displays are selected freely by users.
该系统采用了多光束传输链路,提高了通信的容量、能量和可靠性。
Multi-beam transmission link is adopted in this system, which improves the capacity, energy, reliability and communication.
该系统采用了图象处理中的邻域平均法、阈值选取及图象分割技术。
And the neighborhood averaging, threshold choice and image segmentation in the image processing are adopted in the system.
该系统采用滚动编译码方式,每发射一次编码按非线性滚动变化一次。
The system employs rolling coding-decoding, producing a change of coding by non-linear rolling for every transmission.
该系统采用最流行的一体式中央控制柜及最先进的主控电脑系统组成。
The system uses the most popular all-in-one central control cabinet and the most advanced computer control system.
该系统采用AES算法来实现对于车辆的身份认证和地理位置信息的保密。
The system USES AES algorithm to realize the identity authentication of vehicle and the security of the geographic information of vehicle.
该系统采用一般器件,与其他同类系统相比,具有成本低、性能可靠等优点。
The system USES general devices and compared with the other systems of this kind, it has the merits of low-cost and reliability.
该系统采用了先进的网络技术、智能分析技术、单片机技术和远程控制技术。
This system adopts the advanced network technique, intelligent analysis technique, micro controller technique and remote control technique.
该塔的特色是集成了光伏系统,该系统采用了时下最先进的太阳能电池板技术。
The tower features integrated photovoltaics, the latest in solar panel technology.
该系统采用计算机网络技术和射频卡识别技术,实现了各企业管理的计算机化。
This system USES the technology of computer network and identification for contactless smartcard, it makes undertaking management computerized.
该系统采用模糊控制策略实现了液面加压的合理控制,并具有泄漏补偿的能力。
The control system which has function of leakage compensation adopted fuzzy control strategy and realized the pressure control on the liquid surface.
同时该系统采用相关网络安全技术,保证了执行任务过程中信息交互的安全性。
In addition, some related network security technologies are adopted so as to ensure the security of information exchanges during the implementation procedure.
方法该系统采用了网络技术、数据库技术、语音技术和相关的流行病学分析方法。
Method The system use the net technology, database technology, speech technology and relative epidemiological analysis method.
该系统采用模块化设计,集成度高、应用范围广,适合不同频率的信号采集与分析。
This system is designed by modularization, so it has high integration, wide application field, suits different frequency signal acquisition and analyse.
该系统采用了红外照相机核心的LED后挡板,并提供在灰尘、遮蔽天气和昼夜环境下的能见度。
The system USES an infrared camera core in an LED-equipped tailgate assembly and provides visibility through dust, obscurants and incremental weather in both day and night operations.
该系统采用独特的优化模型方法,为复杂工艺过程的优化控制提供了一条新的可行途径。
Adopting unique optimization model, this system provides a new feasible method of optimization control for the sophisticated technological process.
该系统采用模块化的设计,关键算法和功能均封装在模块中。使系统具有良好的扩展性。
This system USES modular design, and encapsulates the key algorithms and functions in the module, makes the system has good scalability.
该系统采用采水井内换热器和地面套管式换热器,既可节省保温费用,又可减少散热损失。
The system can save insulating cost and reduce heat loss using heat-exchanger in well bore and casing heat-exchanger on surface.
该系统采用采水井内换热器和地面套管式换热器,既可节省保温费用,又可减少散热损失。
The system can save insulating cost and reduce heat loss using heat-exchanger in well bore and casing heat-exchanger on surface.
应用推荐