- 电子工业出版社
- 9787121494512
- 1-1
- 540434
- 44265100-6
- 平塑
- 16开
- 2025-06
- 288
- 200
- 交通运输大类
- 汽车运用与维修
- 中职
内容简介
本书共有六个项目,项目一介绍了智能网联汽车的定义、组成、行业背景和发展趋势,让学生对智能网联汽车有个初步的认知。项目二介绍智能网联汽车的触角,环境感知系统,智能网联汽车通过该系统感知路况、车辆、行人、交通标志及信号识别。项目三介绍智能网联汽车的通讯技术,智能网联汽车可通过该技术实现相互通讯。项目四介绍智能网联汽车车载网络,包含车载总线网络和车载移动互联网、以太网等。项目五介绍智能网联汽车高精度定位与导航系统,智能网联汽车借助这两个系统实现自动驾驶、车道辅助、自动泊车等功能。项目六介绍智能网联汽车先进辅助驾驶系统,这些系统极大的提高了行车安全性、便利性和舒适性。 本书遵循学生认知规律,由浅入深的介绍了智能网联汽车组成、发展及各主要系统功能。本书内容新颖、通俗易懂,既强调基础,又体现新知识、新技术。在编写上采用图解形式和简约的文字表述,辅以大量图片介绍,图文并茂,直观明了,是一本实用、高效的智能网联汽车技术图解类教程。 本书具有较强的综合性和前沿性,适合职业院校相关专业学生、广大汽车车主及汽车爱好者使用。
目录
项目一 智能网联汽车的定义及发展······································································ 1
任务一 智能网联汽车的定义与分级································································ 1
一、智能网联汽车的定义········································································· 1
二、智能网联汽车的分级········································································· 3
任务二 智能网联汽车的组成与架构································································ 6
一、智能网联汽车的组成········································································· 6
二、智能网联汽车的架构········································································· 7
任务三 智能网联汽车行业背景·····································································10
一、智能网联汽车行业背景分析·······························································10
二、国内外智能网联汽车发展现状····························································14
任务四 智能网联汽车行业发展趋势·······························································20
一、智能网联汽车的关键技术··································································20
二、智能网联汽车发展总体目标·······························································24
三、智能网联汽车技术发展趋势·······························································25
四、智能网联汽车发展的重点产品····························································26
项目二 智能网联汽车环境感知系统认知·······························································28
任务一 环境感知系统的定义与组成·······························································28
一、环境感知系统的定义········································································28
二、环境感知系统的组成········································································29
任务二 环境感知系统传感器········································································31
一、摄像头·························································································31
二、超声波雷达···················································································36
三、毫米波雷达···················································································39
四、激光雷达······················································································43
任务三 道路、车辆、行人、交通标志及信号识别·············································50
一、智能网联汽车的道路识别方法····························································50
二、智能网联汽车的车辆识别方法····························································54
三、智能网联汽车的行人识别方法····························································57
四、智能网联汽车的交通标志识别方法······················································60
五、智能网联汽车的交通信号灯识别·························································62
项目三 智能网联汽车无线通信系统认知·······························································66
任务一 无线通信的定义与分类·····································································66
一、无线通信的定义·············································································66
二、无线通信的分类·············································································67
任务二 V2X 通信概述················································································69
一、V2X 通信的定义·············································································69
二、对V2X 通信系统的要求···································································71
三、V2X 通信的应用·············································································72
任务三 近距离通信技术·············································································77
一、射频识别技术················································································77
二、NFC 技术······················································································79
三、Wi-Fi 技术·····················································································82
四、蓝牙技术······················································································84
任务四 中短距离通信技术·········································
任务一 智能网联汽车的定义与分级································································ 1
一、智能网联汽车的定义········································································· 1
二、智能网联汽车的分级········································································· 3
任务二 智能网联汽车的组成与架构································································ 6
一、智能网联汽车的组成········································································· 6
二、智能网联汽车的架构········································································· 7
任务三 智能网联汽车行业背景·····································································10
一、智能网联汽车行业背景分析·······························································10
二、国内外智能网联汽车发展现状····························································14
任务四 智能网联汽车行业发展趋势·······························································20
一、智能网联汽车的关键技术··································································20
二、智能网联汽车发展总体目标·······························································24
三、智能网联汽车技术发展趋势·······························································25
四、智能网联汽车发展的重点产品····························································26
项目二 智能网联汽车环境感知系统认知·······························································28
任务一 环境感知系统的定义与组成·······························································28
一、环境感知系统的定义········································································28
二、环境感知系统的组成········································································29
任务二 环境感知系统传感器········································································31
一、摄像头·························································································31
二、超声波雷达···················································································36
三、毫米波雷达···················································································39
四、激光雷达······················································································43
任务三 道路、车辆、行人、交通标志及信号识别·············································50
一、智能网联汽车的道路识别方法····························································50
二、智能网联汽车的车辆识别方法····························································54
三、智能网联汽车的行人识别方法····························································57
四、智能网联汽车的交通标志识别方法······················································60
五、智能网联汽车的交通信号灯识别·························································62
项目三 智能网联汽车无线通信系统认知·······························································66
任务一 无线通信的定义与分类·····································································66
一、无线通信的定义·············································································66
二、无线通信的分类·············································································67
任务二 V2X 通信概述················································································69
一、V2X 通信的定义·············································································69
二、对V2X 通信系统的要求···································································71
三、V2X 通信的应用·············································································72
任务三 近距离通信技术·············································································77
一、射频识别技术················································································77
二、NFC 技术······················································································79
三、Wi-Fi 技术·····················································································82
四、蓝牙技术······················································································84
任务四 中短距离通信技术·········································
