介绍了利用多任务控制方式来设计风力发电机液压测试系统。
This paper mainly introduces the use of multi-task control mode to design a hydraulic testing system for wind-turbines.
文中讨论了多任务调度原理及实现实时多任务控制的有关管程设计等问题。
This paper covers the principles of multitask scheduling and monitor design of the real-time multitask control.
软件实现方法引入实时多任务控制系统的概念,采用分时操作的方法并行处理多任务。
For software realization, the concept of multi-mission control system is cited to deal with multi missions by real time operating system.
复杂三维模型的建立、建模工具的灵活使用、三维动画设计方法、多任务控制面板的设计以及计算机考试模块的设计。
It mainly includes building a complex three-dimension model, use of modeling tools, methods of three-dimension movie design, design of multi-task controlling panel and computer testing modules.
采用32位高性能CPU,运用实时多任务控制技术和DSP高速、高精度插补控制技术,工作时高稳定性,高速运行,低噪音。
32 bits high speed and characteristics, Multi-task Controlling System and DSP high-speed, high-precision interpolation control technology, to increase stability and high speed with low noise.
采用多个单片机和双端口ram研发了一种总线型控制器,可以进行实时多任务控制,非常适合于复杂自动化设备控制系统的应用。
A bus type controller is developed with multi SCM and dual port RAMs, which have real time multitask function and fits to complex automation equipment well.
AMDR的设计为一个可扩展多任务雷达系统,是由一个X波段、S波段和雷达套件控制器(RSC)组成的。
Designed as a scalable, multi-mission radar system, AMDR is comprised of an X-band, S-band and radar Suite Controller (RSC).
许多任务有相关联的控制台命令,有助于提供更多信息。
Many of the tasks have associated console commands, which can help provide additional insight.
子系统支持服务程序的路径选择或控制程序。此程序根据所有子系统支持服务功能的优先级提供多任务和控制支持。
The routing or controlling routines of Subsystem Support Services. This routine provides multitasking and control support, on a priority basis, for all Subsystem Support Services functions.
的路径选择或控制程序。此程序根据所有子系统支持服务功能的优先级提供多任务和控制支持。
The routing or controlling routines of Subsystem support Services. This routine provides multitasking and control support, on a priority basis, for all Subsystem support Services functions.
通过启用中断,抢占式的调度器就可以周期性地接管控制权,从而提供多任务处理能力。
With interrupts enabled, the pre-emptive scheduler periodically takes control to provide multitasking.
通过比较各种方法,提出了采用轮循技术开发支持多任务的控制程序的方法。
Through comparing several others, this paper introduces a method to develop controlling program with multitask by using repeating query technology.
根据寻北系统的功能要求,软件设计采用实时控制系统事件驱动的程序设计方法构造了寻北系统的多任务软件结构。
According to the function demands of north-finding system, software design builds multi-task software structure of north-finding system based on event driven mechanism in real time control system.
在描述多任务系统时,支配型位置用来表示控制流,非支配型位置用来表示任务间通信、任务间相互作用。
When describing multi-task systems, dominating places are used to express the control flow and the undominating places to express the interaction of tasks and inter-task communication.
运用时分多任务程序结构构建系统控制软件,解决外设响应慢对实时系统地制约,从而提高程序执行效率。
Time-sharing multitask that solve slow response reaction of peripheral has powerful utilities to build embedded software system, advance efficiency for program.
此程序根据所有子系统支持服务功能的优先级提供多任务和控制支持。
This routine provides multitasking and control support, on a priority basis, for all Subsystem support Services functions.
通过多任务实时软件代替运动控制卡,完成实时伺服控制任务。
Motion control boards were displaced with multitask software to perform the servo controlling motion accurately.
基于工控机和多任务运动控制器的缠绕机CAM系统采用电子齿轮方式实现缠绕机同步运动控制。
CAM system based on industry computer and multi-task motion controller adopts the electrical gear to accomplish synchronous motion control of the winding machine.
本文介绍了实时多任务监控系统的设计思想,着重阐述了RTMMON的核心模块:任务控制部、资源控制部、中断控制部及通信控制部的设计。
This paper describes the design of a real-time multitask monitoring system, and more on the kernel module RTMMON in: task control, resource management, interrupt process and communication.
然后针对水下航行器制导系统多任务特点,讨论了水下航行器制导系统的动力学、运动学模型及控制、导引方程,并对其任务进行详细划分。
The dynamic and kinematic model, control and guidance equations of underwater vehicle are discussed, which tasks are divided in details, according to it's characteristics.
结果表明:所移植的操作系统能很好地工作在MCS - 51上,为MCS - 51的应用开发建立了一个实时控制多任务平台。
The result shows: the ported operating system can work well on MCS-51. So the Real-Time Kernel has been set up for the application and development of MCS-51.
每种布料的染色分别配有不同的温度控制曲线(程序),由一台PLC控制多台染色机同时工作就构成了一个实时多任务系统。
Each dyeing process has a different temperature control curve (dyeing formula). A real - time multi-process control system can control multi-process with one PLC.
目标控制程序的设计采用多任务调度,使其结构通用,尽可能满足各种控制要求。
The structure of control program is designed as multi-task scheduling to be general to fulfill various control requirements.
目标控制程序的设计采用多任务调度,使其结构通用,尽可能满足各种控制要求。
The structure of control program is designed as multi-task scheduling to be general to fulfill various control requirements.
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