本文研究一种基于嵌入式微处理器系统的大气激光信号处理方法。
This investigates one kind of atmosphere laser signal processing method on the embedded microprocessor system.
以嵌入式微处理器s3c 44b0x为中心,配置图像采集等外围器件,构建了机器视觉系统的硬件平台。
We selected the S3C44B0X embedded microprocessor and configured image acquisition peripheral device to set up the hardware platform of machine vision system.
课题采用嵌入式微处理器负责控制整个通信板卡系统,从而将接口处理速度有效的提高了。
This topic use the embedded microprocessor to be responsible to control the entire communication card system, thus processing speed is effectively enhanced.
该系统由倾角传感器、绝对式光栅编码器和嵌入式微处理器组成。
The system is made of obliquity sensor, absolute grating encoder and embedded microprocessor.
目前大多数嵌入式系统处于单独应用方式,以嵌入式微处理器为核心,与一些监测、伺服、指示设备配合实现一定的功能。
Most embedded systems have been applied in a single approach to embedded microprocessor core, with some monitoring, servo, pointing device with a certain function.
本文首先介绍了嵌入式微处理器和嵌入式实时操作系统,给出了基于单处理器的多任务调度方案。
Firstly, the embedded microprocessor and embedded Real Time Operating System are described, and the multi-task scheduling solution based on single-processor is given.
给出了嵌入式系统的定义和体系结构。较详细地阐述了几种常用的嵌入式微处理器及其应用领域;
This paper introduces the definition and hardware structures of the embedded system Several embedded microprocessor units and their application fields are presented.
以嵌入式微处理器S3C44B0X 为中心,配置图像采集和电机驱动等外围器件,构建了机器人视觉系统的硬件平台;
We selected the S3C44B0X embedded microprocessor and configured image acquisition and motor driver peripheral devices to set up the hardware platform of robot vision system.
在微电子领域,以arm、DSP、FPGA为代表的嵌入式微处理器的性能飞速提高,为构建嵌入式系统提供了硬件保证。
In the microelectronics field, to ARM, DSP, FPGA embedded microprocessors as the representative of the rapid increase performance, provide for the building of the embedded system hardware guarantee.
该系统充分发挥了S3C44B0嵌入式微处理器高性能优势,经调试证明,能够可靠地实现对半导体分立器件的参数测试和分选的功能。
The semiconductor testing system makes full use of the high-powered ARM microprocessor S3C44B0. It is testified that the system can meet the requirement of function.
系统采用32位嵌入式微处理器arm直接控制CMOS图像传感器,实现图像数据的高速采集。
To implement image acquisition in high speed, the CMOS sensor is directly controlled by ARM which is embedded processor with 32 bit.
本文研究了一种基于ARM内核的高性能的嵌入式微处理器和嵌入式实时操作系统的航向姿态参考系统。
This paper researches a kind of AHRS which consists of high-performance ARM embedded microprocessor and embedded real-time operating system.
该系统以嵌入式微处理器LPC2 210为核心,包括数据采集、步进电机的驱动及人机交互界面等几部分。
The system is based on ARM7 processor LPC2210 and consists of several parts, such as data collection, stepping motor driving, man-machine interface and so on.
嵌入式微处理器和嵌入式实时操作系统是嵌入式系统的两大核心技术。
Embedded microprocessor and real-time operating system are two core technologies of an embedded system.
嵌入式微处理器和嵌入式实时操作系统是嵌入式系统的两大核心技术。
Embedded microprocessor and real-time operating system are two core technologies of an embedded system.
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