理工科本科毕业论文写作格式要求(模版)

.

本科毕业论文写作格式要求（模版）

1. 基本要求

理工科类本科毕业论文不少于6000字（不含图∕表）。摘要部分应有200~300字，关键词4~5个，参考文献5~8篇，其中含2篇以上英文参考文献。 2. 打印要求

论文一律用 A4标准复印纸打印，论文正文及设计任务书采用双面打印（其中任务书封面采用单面打印），论文封面、开题报告、目录采用单面打印。上述材料用塑料封皮夹住，不得自己装订，论文将由学校统一装订。版面页边距上空2.5cm，下空2.5cm，左空2.5cm，右空2.5cm，装订线1cm，装订线位置：左边。页码位于页面底端（页脚），居中对齐，首页显示页码，页码标记由正文第一页开始。行距为1.5倍行距，字符间距为标准。

毕业论文章、节的编号一律按阿拉伯数字分级编号。 3. 计量单位使用要求

须采用1984年2月27日国务院发布的《中华人民共和国法定计量单位》。 4. 论文装订顺序

毕业论文封面→开题报告→目录→正文→指导教师评阅意见→评阅教师评阅意见→成绩评定表→设计任务书。附有图纸的论文，图纸按A4大小折叠。 5. 摘要写作要求

摘要是论文内容不加注释和评论的简短陈述，应以第三人称陈述。它应具有独立性和自含性，即不阅读论文的全文，就能获得必要的信息。摘要的内容应包含与论文同等量的主要信息，供读者确定有无必要阅读全文。摘要一般应说明研究工作目的、试验研究方法、结果和最终结论等。摘要中一般不用图、表、公式等，不用非公知公用的符号、术语和非法定的计量单位。 6. 参考文献要求

文献类型的标识代码：普通图书 M ；会议录 C ；汇编 G ；报纸N ；期刊J；学位论文D；报告R ；标准S ；专利P；数据库DB ；计算机程序 CP ；电子公告 EB

电子文献载体和标志代码: 磁带（magnetic tape ）MT ；磁盘（disk）DK；光盘（CD-ROM）CD；联机网络（online）OL 7．写作格式要求 （见后范例）

..

毕

论文题目 姓 名 院 系 指导教师

..

.

安 徽 农 业 大 学

业 论 文（设计）

智能化温度监控系统的研究与设计 ××× 学 号 ×××××× 信息与计算机学院 专 业 计算机科学与技术 ××× 职 称 ×××××

中国·合肥 二

o×× 年 六 月

.

安徽农业大学学士学位论文（设计）开题报告

课题名称 学生姓名 指导教师姓名 智能化温度监控系统的研究与设计 ××× ××× 专业 职称 计算机科学与技术 课题来源 学号 导师指定 ×××× ×××× 研究内容 1． 开关量输入：按键开关。 2． 开关量输出：控制外部设备（用以控制加热器、风扇、LED指示灯等）。 3． 模拟量输入：用温度传感器检测外部模拟量。 4． 串行通信：上、下行通信。 5． 接收红外信号，控制检测点的被控设备。 6． 接收PC机的控制信号，控制检测点的被控设备。 3月中?3月底 调研、查资料。 4月初?4月中 确定系统架构、分析并划分各功能模块的接口。 4月底?5月中 各功能模块软、硬件的设计与开发。 5月下?5月底 各功能模块及整个系统的调试与运行。 6月初 撰写毕业设计论文。 1. 数据通信规约：自主设计，稳定性好。 2. 系统稳定，抗干扰能力强，控制模式多。 3. 系统具有较强的实际应用价值。 教研室意见 研究计划 特色与创新 指导教师意见 学院意见

..

.

目 录（黑体三号、居中）

1 引言 ············································································································ 1 2 设计思想 ······································································································ 2 3系统的硬件设计······························································································ 3 3.1 模拟量采集模块 ······················································································· 4 3.2 模-数转换模块 ························································································· 7 3.3 串行通信模块 ·························································································· 8 3.4 控制面板模块 ·························································································· 9 3.5 显示模块 ······························································································ 10 3.6 报警模块 ······························································································ 10 3.7 控制模块 ······························································································ 10 3.8 电源模块 ······························································································ 11 3.9 电路图的绘制 ························································································ 12 3.9.1 电路原理图的绘制 ············································································ 12 3.9.2 电路PCB图的绘制 ············································································ 12 4 系统的软件设计 ··························································································· 13 4.1 通信协议设计 ························································································ 13 4.2 单片机程序设计 ····················································································· 14 4.2.1主程序设计 ························································································ 5 4.2.2 定时中断模块 ·················································································· 15 4.2.3 串口中断模块 ·················································································· 15 4.3 PC机串口程序设计 ·················································································· 16 5单片机程序调试及其遇到的问题 ······································································ 17 6 结束语 ······································································································· 18 参考文献 ······································································································· 18 英文摘要 ······································································································· 19 致谢 ············································································································· 19 附录1 ··········································································································· 19 附录2 ··········································································································· 20 附录3 ··········································································································· 21

..

.

智能化温度监控系统的研究与设计（黑体三号、居中）

学生：×××，指导教师：×××（宋体小四号、居中）

(安徽农业大学 信息与计算机学院 合肥 230036) （宋体小四号、居中）

摘 要（宋体小四号、加粗、顶格）：本文介绍了基于AT89C51单片机的智能化温度监控系统。给出了系统硬件电路的设计，讨论了通信规约、单片机程序和PC机通信程序的研制。本系统为增强其实用性设置了下位操作、PC远程监控及红外遥控三种控制模式，并实现了自动监控及越界报警等功能。（中文用楷体小四号、英文用

Roman小四号、两端对齐）

Times New

关键词（宋体小四号、加粗、顶格）：温度传感器，A/D转换器，AT89C51，通信规约（楷

体小四号、两端对齐）（关键词间，用逗号隔开）

1 引言（中文用宋体四号、英文用Times New Roman四号、加粗，顶格、两端对齐，序号后空1格，不

用标点符号）

随着计算机技术、半导体制作技术的不断发展，单片机的运用已经渗透到当今社会的各个方面，其价格也随着半导体集成电路制作技术的不断进步而降低，单片微处理器的使用摆脱了以前的繁杂的外扩系统，提高了应用的可靠性，真正的实现了“嵌入式”的设计和“单片”式微机的应用[1]（引文序号用Times New Roman小

四号，上标）。温度是最基本的物理量之一，对温度的测量与控制在工农业生产实践

中获得了广泛的应用，工业生产领域，如：液态离子炉温控系统，实验室水温、油温检测及温控自动化；在农业生产领域，如：温室栽培、人工孵化、育秧和种子发芽最佳环境温度控制等方面，如图1-1、1-2所示。基于单片机的温度控制系统较之传统的温度控制系统，具有硬件成本低，智能化程度高等优点。本系统是现代化设施农业生产中微机综合监控系统中的一个子系统，本人主要负责温度监控系统、通信协议、PC机程序设计，以及整体项目的研究和设计[2-4]（连续引用多篇

引文序号用Times New Roman小四号，X-Y, 上标）。本文通过一个实际的温度控制系统的设计

过程，详细地介绍了基于单片机的温度控制系统的设计方法。（中文用宋体小四号、英文

用Times New Roman小四号、段前缩进2个汉字，1.5倍行距，两端对齐）

..