嵌入式实时操作系统

同时，论文论述了系统相关的软件设计，主要包括嵌入式实时操作系统的移植与使用、系统任务划分及切换、GPRS模块驱动设计及数据/命令解析，以及A/D模块的驱动设计。

And also , it introduces the correlative software design of the system , such as the port of embedded RTOS , the partition and switch of system tasks , the driver design of GPRS module and data parse of it .

嵌入式实时操作系统的采用，提高了系统的实时性和灵活性，增强了系统的可扩展性，降低了软件开发的难度。

The application of embedded RTOS , improved the timeliness and flexibility of the system , enhanced the scalability of the system and reduced the difficulty of software development .

基于B方法的嵌入式实时操作系统的设计

Design of Embedded Real-Time Operating System Based on B Method

视觉系统使用WINDOWSCE嵌入式实时操作系统，在WINDOWSCE基础上，介绍了机器人目标识别系统软件设计。

This vision system is working on Windows CE embedded RTOS .

嵌入式实时操作系统Nucleus邮箱通信机制研究

Study of Mailbox Communication Mechanism for Embedded Operating System Nucleus

基于ARM处理器和嵌入式实时操作系统的数据采集装置设计

Design of Data Acquisition Device Based on ARM and Embedded Real Time Operation System

Java技术在嵌入式实时操作系统上的实现

Realization of Java Technology in RTOS

一种嵌入式实时操作系统&OSEK/VDXOS

An Embedded Real Time Operating System & OSEK / VDX OS

嵌入式实时操作系统Nucleus中线程控制部件的实现方法

The Implementation Method of Thread Control Component in the Embedded Real-time Operating System Nucleus

基于NT技术的嵌入式实时操作系统&WindowsNTEmbedded

An Embedded Real-time Operating System Based on NT Technology & Windows NT Embedded

采用PlatformBuilder集成开发环境完成了WINDOWSCE嵌入式实时操作系统的定制。

It adopts Platform Builder which is the integrated development environment to customize the Windows CE embedded real-time operating system .

嵌入式实时操作系统UC／OS-Ⅱ及在DSP上的移植

UC / OS - II Embed - type Instant Operation System and its Transplant to DSP

对ARM处理器进行嵌入式实时操作系统μC／OS-Ⅱ的移植，并提出了移植过程中可能出现的问题。

Embed the operation system μ C / OS-II RTOS into the ARM microprocessor , and put forward the possible problems in the replanting process .

主要介绍了基于嵌入式实时操作系统uc/osII的单片机数据采集系统的设计。

A single computer data acquisition system based on embedded real time operating system uc / os-II is reported in this paper .

应用程序开发以嵌入式实时操作系统μC／OS-Ⅱ作平台，采用C语言与汇编语言的混合编程方式进行设计，提高了系统的稳定性、可靠性和实时性。

The software design is based on uC / OS-II , a robust and reliable embedded Real-Time Operation System . The application software is developed by C and assembly languages .

在此基础上，提出了基于Linux构建一个通用的、可定制的嵌入式实时操作系统的方案。

Base on that , the paper gave a scheme to make a general and configurable embedded real-time operating system with Linux operating system .

最后，分析了软件系统的总体结构，提出基于嵌入式实时操作系统Linux平台的软件系统设计方案。

At last , we analyse the framework of software system and give the designed project on the platform of Linux embedded real-time operating system .

将新型的32位ARM核微处理器和嵌入式实时操作系统μC/OS-Ⅱ引入系统中来，使继电保护装置的可靠性和灵敏性大幅提高。

This system engaged the new 32-bit microcontroller and embedded real-time operation system , which can improve the relay protection device 's reliability and susceptibility greatly .

本文针对GPRS（通用分组无线业务）技术和嵌入式实时操作系统μC／OS的特点进行了详细的探讨。

In this paper , the GPRS ( General Packet Radio Service ) and the embedded μ C / OS System are discussed in detail .

对半主动悬架控制系统进行了研究实现，完成了嵌入式实时操作系统μC／OS-Ⅱ在DSP上的移植以提高控制系统运行的稳定性。

The realization of the suspension control system are discussed and the real-time embedded OS μ C / OS-II was ported to DSP to improve the stability of control system .

本论文是针对生物杂交实验的要求，基于μC/OS-II嵌入式实时操作系统和专家预补偿PID控制技术，设计了一种智能生物杂交仪。

At the request of hybridization experiment , a design of intelligent hybridization oven base on expert PID control and embedded operation system μ C / OS-II .

文中基于嵌入式实时操作系统，实现了MIMO传输系统中的协议处理、业务汇聚和高速数据传输。

Based on embedded operation system , the high layer protocol model and its implementation in MIMO wireless communication system is introduced .

本文中主要应用了其中的嵌入式实时操作系统（RTOS）技术。

Embedded real time operation system ( RTOS ) is used in this thesis .

运行于NIOS处理器之上的应用软件采用C语言编写，并引入嵌入式实时操作系统μC/osII，以使其能够实时响应各种操作指令。

Upon the NIOS processor , the software is written in C language , and includes real time operating system μ C / OS II .

引入了一个嵌入式实时操作系统μC／OS-Ⅱ，对其内核工作机理，核心数据结构，各种功能的实现方法以及应用程序接口函数做了详细深入的剖析。

Introduced a RTOS μ C / OS - ⅱ . The kernel mechanism , the core data structure and API is deeper analyzed . Today DSP has become the foundation of digital industry .

本文首先全面分析了嵌入式实时操作系统μC／OS～Ⅱ的内核结构、任务管理、任务间通信以及时间管理，讨论了μC／OS-Ⅱ的初始化与启动过程。

The whole contents of the real-time operating system μ C / OS - ⅱ are introduced , including kernel structure , task management , communication between tasks and time management .

简要介绍了嵌入式实时操作系统（RTOS）的概念和技术特点。

Briefly introduced the concept and technology of Embedded RTOS ( Real-Time Operating System ) .

软件设计中，为了增加系统的可靠性，使TCP／IP协议栈更好地运行，课题的程序设计引入了嵌入式实时操作系统μc／OS&Ⅱ。

In order to increase reliability of the system and ensure the well running of TCP / IP stack , μ c / OS & ⅱ is introduced during software designing .

uC／OS-Ⅱ是著名的嵌入式实时操作系统，是可剥夺型内核操作系统。

μ C / OS-II is a popular embedded real-time operating system , is based core operating system can deprivation .

在ARM硬件平台上，使用μC/OS-II嵌入式实时操作系统实现TCP/IP协议栈，并应用到嵌入式系统上，具有现实意义。

On the ARM hardware platform , the μ C / OS-II RTOS can realize the TCP / IP protocol stack , and this system can be applied to embedded system .