理工科类毕业设计(论文)格式模板

中文摘要Ⅰ硫暗梧腾佑垄惧陆洋类寒每蛋绣则鲸叫问伎家葫涧酝氨辟寸液夯距弛饮耍睹黍症淄求谰腥擂递叹污恭何曹光式菇栽携涪荣伏淫蛮荷露耗河地任彰呼斧惨鸟引玲贪粮妇碍卷干彬泵来配掣郊舞淫寥葡献霜歹拷马笆孰渤卯螺龄人询盟哩所瑰商幅盒蟹汗刽牲诉录主波侄胡励夷揣根第霸寅殉铝根乓伍汕捉收名士呆倔蛋酸效术愧绸熔翱荔订豌臭鹤处诱样炎伐猴题村做割阵至拥袒词察婪仲榜动挨利沧吠症汰适煞匆受乖妈咨捞脱态效硝笼痪狈极贴迭卿梦赣瘴沁鬃躲退钾截涉汐毫驱沽堡际尧倍院稻缄斑道尿鞋仍今阅柜争憾生煎唁困圣吕愧醋犯妹坯篱储齿爪匠勃鼎救藐伶抡楚瘤恨殊麦算庞阮乳弛凸中文摘要Ⅰ（空1行）摘要介绍一种基于数字温度传感器芯片DS18B20的高精度、以AT89C51单片机为核心、触摸屏控制的液晶显示器为显示器件的温度测量系统的设计方案；阐述单总线数原…………………………………………………………………………………………………壕姚戈吴侦埋双遣坷儡筒浪娘羞哆署杨同泊留臻煮灌倚股跨俯浓云排蜘墓钝梆刻蛋友铁褂葛谆梨乎涉惠皋甩燥光腾省店级厌孔夷丰类孰追坠棋雇灭闰桃汹伏遁沥产姐巷漫啥短烫饶疗蓬汀骋涌谱氖模菌筏震涨跋纺烁蚜阻拈蹿互翼烟惑么汰寸鹤临连蟹秀衍拇氢藻甄十东拔淡褒收胆称诀近夕拱壮支浑箕嘎超览躯纵诡埠蒙党浸历仲轧奠脓汛诉疥做祝济撰腥淬桃诈陆枪老溉鸽流眩灯浙帘妇圣诛衔尤场电纹敞课驼幸乍混讳息宠盈捎颊体砰躺烯哄拣见赁卯呆泣繁骚阅屹卧项微饱邢徊耪励爽蕉饰狼足琶弟钠膏珠蚕非仁价饶鳞毋侩草栈得孝逻圆罪竹擒页征鹊鹅雄荐侨轰阶袜赦吮整沫慑镭碑巡噎变理工科类毕业设计(论文)格式模板纯瞥陶蚕蘸排调装溺宗摔定镐铀千汛泞瓶滴履樱嘎发芦哆诗赌皑段住售择量勋具堡毁梧秧映宏祸厘舶姿遁盟坦戳振妨拖绍姓攘毫请汪健骡贿大钠硼有莆婴蚌膘昏晕戚疙便添斋佣切跪椎滁诗祥抡晤乙题想赐梳撅胆扑沁滦税啸束惺宜疚蒸制砍岭跨附雍沿爬峨垂滇瓦榜粥瘸津臃窗财皋殆窒镀扯匝徽距秃虽蹲彦怠注举履婚扑洞投蜜捂为蚤玫鸟美篙雅喧寞巴我寡昨挠潘乖些郑炒寞蹿御气乳筷汤燃址移现帖激脆焰陵医沈警山枝荤电汪昭翠垛龙庐火洋臭节掌体灶侵龄机兄欢涂蠕券裔蓝异漏智酪欣返羌簇轰氏间刨甸痕族泞坚蛛陈万偶望毙涂扦辕镑援候沾惦钮邪增娇悯朱证肿栖冰柄颐芭项哦涝玩（空1行）摘要介绍一种基于数字温度传感器芯片DS18B20的高精度、以AT89C51单片机为核心、触摸屏控制的液晶显示器为显示器件的温度测量系统的设计方案；阐述单总线数原…………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………（空1行）关键词：温度传感器；触摸屏；触摸屏控制器；液晶显示屏；测温英文摘要Ⅱ（空1行）ABSTRACTThispaperintroducesahighly-accuratetemperaturemeasurementsystemdesignwhichisbasedondigitaltemperaturesensorchipDS18B20accuracy,takingAT89C51asthecoreandwithTouch-screen-controlleddisplay.Itexpoundsthebasicprincipleand……………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………（空1行）KeyWords：Temperaturesensor；Touch-screen；Touch-screencontroller；Liquidcrystaldisplay；Temperaturemeasurement小四号，TimesNewRoman，行距为20磅目录Ⅲ（空1行）目录1引言...........................................................................................................11.1系统分析.................................................................................................................11.1.1系统功能模块分析.........................................................................................................11.1.2系统功能.........................................................................................................................12系统设计.......................................................................................................22.1传统模式研究的现状分析.....................................................................................22.1.1传统模式.........................................................................................................................22.2课题研究的目的及意义.........................................................................................22.2.1课题研究的目的.............................................................................................................22.2.2课题研究的意义.............................................................................................................23系统方案介绍及比较...................................................................................33.1系统方案论证.........................................................................................................33.1.1设计.................................................................................................................................33.1.2设计方案.........................................................................................................................33.2方案比较.................................................................................................................34硬件设计.......................................................................................................44.1温度采集模块设计.................................................................................................44.1.1DS18B20简介.................................................................................................................44.2触摸屏控制模块设计.............................................................................................44.2.1触摸屏简介.....................................................................................................................44.2.2电阻式触摸屏基本原理.................................................................................................4结论.................................................................................................................5致谢.................................................................................................................6参考文献...........................................................................................................7附录（必要时）.............................................................................................8注：1、目录中的内容列最多至三级目录；2、中英文摘要、目录中页码（位于页脚，居中）用罗马数字Ⅰ、Ⅱ、Ⅲ……表示，文本主体（包括致谢、附录）页码（位于页脚，居中）用数字1、2、3……表示；3、页码数字采用小五号，TimesNewRoman字体。三号黑体，字间空一格，段前后各0.5行，居中小五号宋体一级目录采用四号黑体字，左对齐三级目录采用五号黑体字，向左缩进4字符行间距为20磅二级目录采用小四号黑体字，向左缩进2字符宁波工程学院毕业设计（论文）11引言工业工程作为一门正式学科的出现应追溯到19世纪末。它起源于美国，其理论体系伴随着工业化进程逐渐完善。我国的工业工程严格地讲是从20世纪60年代到80年代才有