哈尔滨工业大学毕业论文侧面

安 娜

哈尔滨哈飞集团汽车博物馆设计 本科毕业设计(论文) 安 娜 院(系):学院 专 业:专业 学 号:0123456789 指导教师:教师 20xx年07月 哈尔滨哈飞集团汽车博物馆设计

 

第二篇:哈尔滨工业大学毕业论文打印装订要求

哈尔滨工业大学毕业论文打印装订规范

一.论文结构及要求

毕业设计(论文)由以下几部分组成:封面、内封(扉页、题目)、毕业设计(论文)评语、毕业设计(论文)任务书、中文摘要、外文摘要、目录、正文、致谢、参考文献、附录。

二.打印及装订要求

1. 字体

论文正文所用字体要求为宋体。

2. 字号

第一层次(章)题序和标题用小二号黑体字。

第二层次(节)题序和标题用小三号黑体字。

第三层次(条)题序和标题用四号黑体字。

第四层次(款)题序和标题用小四号黑体字。

第五层次(项)题序和标题用小四号宋体字。

正文用小四号宋体字。

页码用小五号字,在底线下居中。

论文的中文和外文摘要属二次文献置于目录前,并编入目录,按第一层次(章)的编辑要求处理。致谢、参考文献、附录同样按第一层次(章)的编辑要求处理,另起新页,与正文一起顺序用阿拉伯数字编页。

3.页眉与页脚

毕业设计(论文)除封皮及内封、评语页、任务书外,各页均应加页眉,在版芯上边线隔行加粗细双线(粗线在上,线宽0.8mm),双线上居中打印页眉文字,奇偶页页眉文字均为“哈尔滨工业大学远程教育本(专)科毕业设计(论文)”。

页脚设定为各部分的页码。页码在版芯下边线之下隔行居中放置。摘要、目录等文前部分的页码用罗马数字单独编排,正文以后的页码用阿拉伯数字编排。

4. 摘要及关键词

摘要题头用小二号黑体字居中排写,然后隔行书写摘要的文字部分。

关键词题头用小四号黑体字顶格书写,然后空一格书写有关关键词,各关键词之间加标点符号;最后一词之后不加标点符号。

5. 目录

目录中各章题序及标题用小四号黑体,其余用小四号宋体。

6. 装订顺序

毕业设计(论文)按以下顺序装订:封面、内封(扉页)、毕业设计(论文)评语、毕 1

业设计(论文)任务书、中文摘要、外文摘要、目录、正文、致谢、参考文献、附录。装订裁剪后论文尺寸为 186mm×258mm。

三.打印规范

★打印时,论文版芯大小一般应为145mm×210mm(包括页眉及页码则为

145mm×230mm),每页33行。毕业设计(论文)除封皮及内封、评语页、任务书外,各页均应加页眉,在版心上边线隔行加粗细双线(粗线在上,线宽0.8mm),双线上居中打印页眉文字,奇偶页页眉文字均为“哈尔滨工业大学远程教育本(专)科毕业设计(论文)”(五号字打印)。学生可直接使用相应的模版。

★页码在版芯下边线之下隔行居中放置。摘要、目录等文前部分的页码用罗马数字单独编排,正文以后的页码用阿拉伯数字编排。

★文中所有插表的表题和表中以及所有插图的图题和图中说明文字均使用五号宋体。 ★论文正文分章(绪论除外)、节撰写,每章应另起一页。

★各层次题序及标题不得置于页面的最后一行(孤行)。

2

附录1 参考文献示例

参考文献

1 林来兴.空间控制技术.宇航出版社,1992:25-42

2 J. R. McDonnell, D. Wagen. Evolving Recurrent Perceptions for Time-Series Modeling. IEEE Trans. on Neural Networks. 1994, 5(1): 24-38

3 X. Yao. Evolutionary Artifitial Neural Networks. J. of Neural Systems. 1933,

(4): 203-222

4 谌颖.空间最优交会控制理论与方法研究.哈尔滨工业大学博士论文. 1992:8-13

5 S. Niwa, M. Suzuki and K. Kimura. Electrical Shock Absorber for Docking System in Space. IEEE International Workshop on Intelligent Motion Control, Bogazici University, Istenbul. 1990: 825-830

6 吴葳,洪炳熔.自由浮游空间机器人捕捉目标的运动规划研究.中国第五届机器人学术会议论文集.哈尔滨,1997:75-80

…………

附录2

中华人民共和国法定计量单位

(GB33100~3102-1993)

表2-1 国际单位制的基本单位

哈尔滨工业大学毕业论文打印装订要求

表2-2 国际单位制的辅助单位

3

哈尔滨工业大学毕业论文打印装订要求

表2-3 国际单位制中具有专门名称的导出单位

哈尔滨工业大学毕业论文打印装订要求

表2-4 国家选定的非国际单位制单位

哈尔滨工业大学毕业论文打印装订要求

4

表2-5 用于构成十进倍数和分数单位的词头

哈尔滨工业大学毕业论文打印装订要求

5

哈尔滨工业大学毕业论文打印装订要求

注:

1.周、月、年(年的符号为a)为一般常用时间单位。

2.[ ]内的字,是在不致混淆的情况下,可以省略的字。

3.()内的字为前者的同义语。

4.角度单位度、分、秒的符号不处于数字后时,用括号。

5.升的符号中,小写字母l为备用符号。

6.r为“转”的符号。

7.公里为千米的俗称,符号为km。

8.104称为万,108称为亿,1012称为万亿,这类数词的使用不受词头名称的影响,但不

应与词头混淆。

说明:法定计量单位的使用,可查阅19xx年国家计量局公布的《中华人民共和国法定计量

单位使用方法》。

附录3 数字用法示例

按《关于出版物上数字用法的规定》(19xx年国家语言文字工作委员会等7个单位公布),除习惯用中文数字表示的以外,一般数字均用阿拉伯数字。

(1)公历的世纪、年代、年、月、日和时刻一律用阿拉伯数字,如20世纪,80年代,4时

3刻等。年号要用四位数,如19xx年,不应用89年。

(2)记数与计量(含正负整数、分数、小数、百分比、分数等)一律用阿拉伯数字,如3/4,

4.5%,10个月,500多种等。

(3)一个数值的书写形式要照顾到上下文。不是出现在一组表示科学计量和具有统计意义

数字中的一位数可以用汉字,如一个人,六条意见。星期几一律用汉字,如星期六。邻近两个数字并列连用,表示概数,应该用汉字数字,数字间不用顿号隔开,如三五天,七八十种,四十五六岁,一千七八百元等。

(4)数字作为词素构成定型的词、词组、惯用语、缩略语等应当使用汉字。如二倍体、三

叶虫,第三世界,“七五”规划,相差十万八千里等。

(5)5位以上的数字,尾数零多的,可改写为以万、亿为单位的数。一般情况下不得以

十、百、千、十万、百万、千万、十亿、百亿、千亿作为单位。如345 000 000公里可改写为3.45亿公里或34 500万公里,但不能写为3亿4 500万公里或3亿4千5百万公里。

(6)数字的书写不必每格一个数码,一般每两数码占一格,数字间分节不用分位号“,”,凡

4位或4位以上的数都从个位起每3位数空半个数码(1/4汉字)。“3 000 000”,不写成“3,000,000”,小数点后的数从小数点起向右按每三位一组分节。一个用阿拉伯数字 6

书写的多位数不能从数字中间转行。

(7)数量的增加或减少要注意下列用词的概念:1) 增加为(或增加到)过去的二倍,即过

去为一,现在为二;2) 增加(或增加了)二倍,即过去为一,现在为三;3) 超额80%,即定额100,现在为180;4) 降低到80%,即过去为100,现在为80;5) 降低(或降低了)80%,即原来为100,现在为20;6) 为原数的1/4,即原数为4,现在为1,或原数为1,现在为0.25。

应特别注意在表达数字减小时,不宜用倍数,而应采用分数。如减少为原来的1/2,1/3等。

附录4 插表示例

例1

哈尔滨工业大学毕业论文打印装订要求

①×××××。

例2

哈尔滨工业大学毕业论文打印装订要求

附录5 有关的技术制图国家标准

GB/T17450 – 1998:《技术制图图线》 GB/T17451 – 1998:《视图》

GB/T17452 – 1999:《剖视图和断面图》 GB/T16675 – 1996:《技术制图简化表示方法》

附录6 有关电气图中图形符号、文字符号的国家标准

GB/T4728.1~13 – 1998.1999.2000:《电气图用图形符号》 GB5465.1~2 - 1985:《电气设备用图形符号》 GB7159 - 1987:《电气技术的文字符号制订通则》 GB6988 - 1997:《电气制图》

7

附录7 中文摘要示例

摘 要

交会对接技术是发展空间在轨基础设施的关键技术。本文对基于计算机视觉的空间飞行器自动对接系统进行了详细的研究。

首先,讨论了许多常规姿态表示方法,并指出姿态表示的复杂性。然后给出李代数法姿态表示和可能的定义。在各种姿态表示下,给出了空间飞行器姿态运动学和动力学方程。为后面建立对接系统数学模型打下了基础……

关键词 交会对接;计算机视觉;非线性最小二乘;非线性观测器

附录8 外文摘要示例

Abstract

Rendezvous and docking are two of the key techniques to develop an inorbit space infrastructure. In this thesis, an automatic spacecraft docking system based on computer vision is studied in detail.

First, a number of conventional methods for attitude representation are discussed and their complexity in dealing with the problem of attitude representation are…

Key words rendezvous and docking computer vision nonlinear least spuares nonlinear

observer nonlinear controller

8

附录9 目录示例(理工类)

目 录

摘要 ························································································································································· Ⅰ Abstract ···················································································································································· Ⅱ

第1章 绪论 ··········································································································································· 1

1.1 课题背景 ··································································································································· 1

1.2 交会对接技术发展概况 ············································································································ 2

1.2.1 美国空间交会对接发展概况 ·························································································· 3

1.2.2 欧空局空间交会对接发展概况 ······················································································ 5

1.2.3 我国的空间交会对接发展概况 ······················································································ 5

1.3 相关工作 ··································································································································· 5

1.4 本文主要研究内容 ··················································································································· 8

第2章 空间飞行器姿态表示和运动方程 ········································· …………………………………10

2.1 引言 ········································································································································ 10

2.2 标准正交旋转矩阵姿态表示 ·································································································· 10 ……

结论 ························································································································································ 52 致谢 ························································································································································ 53 参考文献 ················································································································································· 54 附录1······················································································································································ 56 附录2······················································································································································ 58

9

附录10 目录示例(文管类)

目 录

摘要 ························································································································································· Ⅰ Abstract ···················································································································································· Ⅱ

一、当前国际货币体系的状况及成因 ····································································································· 1

(一)国际货币体系的状况 ············································································································· 2

(二)国际货币体系的成因 ············································································································· 8

1.经济上的原因 ·················································································································· 8

2.政治上的原因 ··············································································································· 8

二、国际货币新体系构想 ······················································································································ 12

(一)理论界关于国际货币体系的几种设想 ················································································ 12

(二)以美元、日元、德国马克为中心的国际货币新体系构想 ·················································· 18

三、国际货币体系变革对我国的影响及对策 …………………………… 26

(一)国际货币体系变革对我国经济的影响 ················································································ 26

(二)我国的对策 ·························································································································· 32

……

致谢…………………………………………………………………………………………………………37 参考文献 ················································································································································· 38 附录一 ····················································································································································· 39 附录二 ····················································································································································· 43

10

附录11 正文示例(理工类)

第1章 绪论

1.1 课题背景

空间科学技术的发展是异常迅速的,每个时期都可以找到一个具有典型代表性的技术成就。通常可以作这样一个概括:50年代为卫星上天时代;60年代为载人飞船(阿波罗)时代;70年代为星际控测时代;80年代为航天飞机时代;90年代为空间站时代。永久性载人空间站是本世纪最复杂、最巨大的航天工程,也可以说是当今空间技术进展的一个重要里程碑[1]。

……

1.2 交会对接技术发展概况

自从六十年代美、俄罗斯分别在空间轨道上实现了两个飞行器交会对接,至今二十多年来(即美、俄罗斯)已经在轨道上至少成功地进行了160多次交会对接,其中俄罗斯占120多次。俄罗斯在交会对接技术方面居世界领先地位[9]。下面概述美国、俄罗斯和欧空局和我国空间交会对接技术发展状况。

1.2.1 美国空间交会对接发展概况

19xx年俄罗斯发射了第一颗人造地球卫星[10],迫使美国迅速作出反应在太空与之竞争。 ……

11

附录12 正文示例(文管类)

国际货币新体系构想 (二号黑体)

自从本世纪七十年代布鲁顿木森体系互解以来,国际货币体系进入动荡不安的状态。特别是进入九十年代以来,陆续出现墨西哥金融危机、美元对日元和德国马克的大幅度贬值的现象,引起了金融界的恐慌,……

近年来,随着我国经济的持续发展和改革开放的不断深化扩大,国际经济的变化也越来越直接地影响我国经济发展。……是摆在我国经济理论界面前的一个重要课题。

……

一、当前国际货币体系的状况及原因

(一)国际货币体系的现状

国际货币体系又称国际货币制度,它是指为……

(二)国际货币体系的成因

造成以上状况的原因既有经济上的,也有政治上的。

1.经济上的原因

××××××××××××××××××××××××××××××××××××××××××××

2.政治上的原因

××××××××××××××××××××××××××××××××××××××××××××

(1)(黑体、小四号)×××××

①××××××××××××

本规范于20xx年9月第1次修订。在修订过程中,征求了各院(系)的修改意见,参考了《哈尔滨工业大学研究生学位论文撰写规范》、《哈尔滨工业大学本科生学位论文撰写规范》和国家有关出版物撰写的规定。

哈尔滨工业大学远程教育学院

二O O六年九月十五日

12

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