自动化专业的学科属性及主干课程设置探讨

本文对自动化专业的学科属性、主干课程设置、教学改革建议等进行了讨论，提出了加强数学和工程背景基础，以适应未来社会需求等建议，对教师素质的提高也进行了探讨。     

大米加工自动控制系统中的可视化设计

介绍了Siemens公司的产品之一WinCC在大米加工自动控制系统中的应用。     

CAN总线及其在水电站自动化的应用

本文介绍了CAN总线的特性，并吸取当今先进的电站设计思想。在分析相关技术文献、资料的基础上，利用先进的嵌入式控制技术．PLC技术及现场总线通信技术等进行系统设计．给出了一种基于CAN总线的水电站自动化监控系统。与传统的水电站自动化监控系统相比。该方法改传统方法中将现场综合电量装置、保护装置及温度巡检装置通过RS485总线接到工控机上为将这些装置与PCC相连．通过PCC联到上位监控系统。使得整个现地单元自成一个独立的系统层次。增加了系统的稳定性和可靠性。避免了系统数据的丢失。同时简化了系统的结构，节约了系统硬件成本，更加利于资金不足的地区白建小型水电站。     

自动化和建环专业联合开展毕业设计的教学改革实践

为培养复合型、学科交叉型人才，适应建筑智能化工程的需要，作者所在单位进行了自动化和建环专业联合开展毕业设计的教学改革。本文介绍了这一教改过程取得的初步成效、做法和体会。     

Delphi在CAD系统中的应用

介绍在Delphi中访问和控制AutoCAD的基本原理和一般方法，实现了用Delphi创建、选择、编辑和管理AutoCAD实体等具体功能，解决了利用Delphi完成AutoCAD软件二次开发中与AutoCAD软件的接口问题。     

利用Lotus Domino/Notes实现SQL Server 数据在OA系统中发布

论述了基于Lotus Domino/Notes 群件技术,通过ODBC访问后台SQL Server数据库,根据用户的需求,动态地产生用户需要的数据,并在办公自动化系统中,采用Browser/Web Server模式,发布动态页面的技术与实现方法.     

应用VB6.0绘制工程勘察图件的实践

首先利用Access建立土工试验成果、土的物理力学指标和钻孔土层及土的性质数据库，为土工试验资料的数据采集、整理和查询等提供方便，然后在AutoCAD中使用ActiveX Automation技术，采用VB6．0开发工程勘察绘图图件CAD应用程序，该程序由录入数据库、统计报表、绘制CAD图件组成。最后通过工程实例来验证程序的正确性、可用性。程序界面清晰，操作简单方便，便于工程应用。     

PLC在自动化立体仓库控制系统中的应用

PLc全称Programmable Logic Controller，即可编程逻辑控制器，是以微处理器为基础，综合了计算机技术、自动控制技术和通讯技术而发展起来的一种新型工业控制装置。根据2003年天津华维斯特自动化立体仓库系统的实施，深入探讨了PLC在自动化立体仓库控制系统中的具体应用。     

Application of robotics in onshore oil and gas industry—A review Part I

With ever increasing global demand and depleting resources for fossil fuels, oil and gas industry is now positively looking for advanced robotic solutions to increase their productivity and safety. With time easy resources of the fossil fuels are shrinking and newly searched reservoirs, to feed supply demands of global consumption, are mostly located in extreme environmental conditions such as hot deserts, deep water and arctic zone etc. Production of the fossil fuels, in such inhospitable environmental conditions, poses difficult challenges to health, safety and environment (HSE). Tragic incidents like Exxon Valdez and Deepwater Horizon oil spills are examples of such challenges. Therefore, oil and gas industry has lot to learn from successful implementation of robotics and automation for dull, dirty and dangerous (3D) tasks of manufacturing industry. Most of the robotics technologies, currently used in the oil and gas industry, are mainly focused on inspection, maintenance and repair (IMR) of plant facilities with higher frequency and accuracy. Fundamental idea, involved in the automatization of these processes, is based on the principle of teleoperation with skilled operator. Automation of 3D tasks not only improves HSE standards but also lead to much needed economic efficiency by reducing production cycle, floor space and number of staff members required for continuous inspection and manipulation of plant facilities. Considering the risks involved in this industry usage of completely autonomous robots, first without achieving very high reliability, is still a far fetch choice. Therefore, semi-autonomous robots, where actions are performed by robots but cognitive decisions are still taken by skilled operator, is an excellent choice for this industry as a near future solution. In the onshore oil and gas industry robotic solutions are used both in upstream and downstream processes, such as site survey, drilling, production and transportation, mainly focused in the form of in-pipe inspection robots (IPIRs), tank inspection robots (TIRs), unmanned aerial vehicles (UAVs) and wireless sensor networks (WSNs) etc. This paper presents the state of art robotic solutions currently used in onshore oil and gas facilities.     

锻压机床智能化探析

提出智能的概念及智能锻压机床的概念,阐述智能制造在中国的现状,分析锻压机床如何实现智能化,介绍徐锻在打造智能锻压系统集成商方面的做法。