扫一扫
关注中图网
官方微博
>
深度学习与神经网络
本类五星书更多>
-
>
通宵俱乐部-签名本
-
>
2022读者节纪念徽章-一星会员专属
-
>
20世纪中国短篇小说选集(全6册)(八五品)
-
>
(精)方力钧作品图录
-
>
“囤书者说”藏书印章系列-谢绝外借
-
>
(精)赵丹书画选
-
>
中图网文创礼包-“民国名家画谱”藏书票贴纸(2张)
深度学习与神经网络 版权信息
- ISBN:9787121473739
- 条形码:9787121473739 ; 978-7-121-47373-9
- 装帧:平塑
- 册数:暂无
- 重量:暂无
- 所属分类:
深度学习与神经网络 内容简介
全书分为7 个章节。第1 章绪论,梳理了人工智能不同技术流派的特点、深度学习的发展及前沿技术;第2 章介绍相关预备知识,包括线性代数、概率论、优化理论以及机器学习的基础知识;第3 章从前馈神经网络的基础模型――感知器出发,介绍前馈神经网络的基本结构以及涉及的激活函数、梯度下降、反向传播等内容;第4 章,介绍深度模型的优化问题,讨论了神经网络优化中常见的病态问题;第5 章介绍深度学习中的正则化方法,包括范数惩罚、数据集增强与噪声注入、提前停止等;第6 章介绍了卷积神经网络,以及卷积神经网络在计算机视觉领域的具体应用;第7 章通过实际案例介绍循环神经网络与卷积神经网络的结合应用。
深度学习与神经网络 目录
第1 章 绪论····················································································.1
1.1 人工智能·············································································.2
1.1.1 人工智能技术的发展历程···············································.3
1.1.2 人工智能技术的流派·····················································.9
1.2 深度学习与神经网络概述······················································.11
1.2.1 深度学习与神经网络技术的发展历程······························.11
1.2.2 深度学习与神经网络的前沿技术····································.16
1.3 深度学习系统架构·······························································.17
1.4 深度学习框架·····································································.19
1.5 深度学习的应用··································································.20
1.5.1 计算机视觉·······························································.20
1.5.2 语音语义··································································.21
1.5.3 自然语言处理····························································.22
1.6 人工智能潜在的安全风险······················································.22
1.6.1 数据层面的风险·························································.23
1.6.2 算法模型层面的风险···················································.23
1.6.3 智能计算框架层面的风险·············································.23
1.6.4 基础软硬件层面的风险················································.24
1.6.5 应用服务层面的风险···················································.24
本章小结··················································································.24
第2 章 预备知识············································································.25
2.1 相关数学基础·····································································.25
2.1.1 线性代数··································································.25
2.1.2 概率论·····································································.27
2.1.3 优化理论··································································.32
2.2 机器学习基础·····································································.34
2.2.1 机器学习算法的基本流程·············································.35
2.2.2 机器学习常用评价指标················································.36
2.2.3 典型机器学习算法······················································.41
2.3 实验环境基础·····································································.49
2.3.1 GPU 驱动的安装配置··················································.49
2.3.2 依赖环境的安装配置···················································.52
2.3.3 深度学习框架的安装配置·············································.54
2.3.4 集成开发环境的安装配置·············································.56
本章小结··················································································.57
第3 章 前馈神经网络······································································.58
3.1 感知器··············································································.58
3.1.1 单层感知器·······························································.58
3.1.2 多层感知器·······························································.61
3.1.3 前馈神经网络的基本结构·············································.62
3.2 激活函数···········································································.63
3.2.1 Sigmoid 函数·····························································.63
3.2.2 ReLU 函数································································.65
3.2.3 Tanh 函数·································································.67
3.2.4 Softmax 函数·····························································.68
3.3 误差反向传播·····································································.69
3.3.1 梯度下降法·······························································.69
3.3.2 链式法则··································································.70
3.3.3 反向传播··································································.72
本章小结··················································································.75
第4 章 深度模型的优化···································································.76
4.1 神经网络的优化问题····························································.76
4.1.1 局部*优和振荡陷阱···················································.76
4.1.2 梯度爆炸和梯度消失·····································
1.1 人工智能·············································································.2
1.1.1 人工智能技术的发展历程···············································.3
1.1.2 人工智能技术的流派·····················································.9
1.2 深度学习与神经网络概述······················································.11
1.2.1 深度学习与神经网络技术的发展历程······························.11
1.2.2 深度学习与神经网络的前沿技术····································.16
1.3 深度学习系统架构·······························································.17
1.4 深度学习框架·····································································.19
1.5 深度学习的应用··································································.20
1.5.1 计算机视觉·······························································.20
1.5.2 语音语义··································································.21
1.5.3 自然语言处理····························································.22
1.6 人工智能潜在的安全风险······················································.22
1.6.1 数据层面的风险·························································.23
1.6.2 算法模型层面的风险···················································.23
1.6.3 智能计算框架层面的风险·············································.23
1.6.4 基础软硬件层面的风险················································.24
1.6.5 应用服务层面的风险···················································.24
本章小结··················································································.24
第2 章 预备知识············································································.25
2.1 相关数学基础·····································································.25
2.1.1 线性代数··································································.25
2.1.2 概率论·····································································.27
2.1.3 优化理论··································································.32
2.2 机器学习基础·····································································.34
2.2.1 机器学习算法的基本流程·············································.35
2.2.2 机器学习常用评价指标················································.36
2.2.3 典型机器学习算法······················································.41
2.3 实验环境基础·····································································.49
2.3.1 GPU 驱动的安装配置··················································.49
2.3.2 依赖环境的安装配置···················································.52
2.3.3 深度学习框架的安装配置·············································.54
2.3.4 集成开发环境的安装配置·············································.56
本章小结··················································································.57
第3 章 前馈神经网络······································································.58
3.1 感知器··············································································.58
3.1.1 单层感知器·······························································.58
3.1.2 多层感知器·······························································.61
3.1.3 前馈神经网络的基本结构·············································.62
3.2 激活函数···········································································.63
3.2.1 Sigmoid 函数·····························································.63
3.2.2 ReLU 函数································································.65
3.2.3 Tanh 函数·································································.67
3.2.4 Softmax 函数·····························································.68
3.3 误差反向传播·····································································.69
3.3.1 梯度下降法·······························································.69
3.3.2 链式法则··································································.70
3.3.3 反向传播··································································.72
本章小结··················································································.75
第4 章 深度模型的优化···································································.76
4.1 神经网络的优化问题····························································.76
4.1.1 局部*优和振荡陷阱···················································.76
4.1.2 梯度爆炸和梯度消失·····································
展开全部
深度学习与神经网络 作者简介
赵金晶,女,1981年生,军事科学院系统工程研究院高级工程师,国防科技大学计算机学院博士毕业,主要研究方向为网络与信息安全、人工智能技术。先后承担国家自然科学基金、国家973计划、863计划等重大项目,曾获国家自然科学基金青年基金资助。获省部级科技进步奖二等奖5项、三等奖1项,发明专利20余项。发表学术论文80余篇,出版学术著作2部。电子邮箱:zhjj0420@126.com李虎,男,1987年生,军事科学院系统工程研究院工程师,国防科技大学计算机学院博士毕业,主要研究方向为网络与信息安全。先后承担、参与国家973计划、863计划、装备预研等各类科研项目10余项。获省部级科技进步奖二等奖2项、发明专利10余项,发表论文20余篇。电子邮箱:lihu@nudt.edu.cn张明,男,1990年生,军事科学院系统工程研究院工程师,北京系统工程研究所硕士毕业,主要研究方向为机器学习和人工智能安全。先后参与、主持国家自然科学基金、重点实验室基金、国家973重大项目、装备预研和国防科技创新特区等各类科研项目10余项。获省部级科技进步奖一等奖1项,二等奖2项。发表学术论文20余篇,其中SCI检索5篇,EI检索10余篇。电子邮箱:zm_stiss@163.com
书友推荐
- >
二体千字文
二体千字文
¥16.0¥40.0 - >
苦雨斋序跋文-周作人自编集
苦雨斋序跋文-周作人自编集
¥6.9¥16.0 - >
随园食单
随园食单
¥20.6¥48.0 - >
名家带你读鲁迅:朝花夕拾
名家带你读鲁迅:朝花夕拾
¥10.5¥21.0 - >
推拿
推拿
¥12.2¥32.0 - >
伊索寓言-世界文学名著典藏-全译本
伊索寓言-世界文学名著典藏-全译本
¥6.1¥19.0 - >
月亮虎
月亮虎
¥17.8¥48.0 - >
烟与镜
烟与镜
¥25.1¥48.0
本类畅销
-
2022图书×抽奖盲袋
¥9.9¥25 -
2023读书月阅读盲盒——天黑,闭眼,刀谁?
¥42.3¥158 -
-
2022读者节纪念徽章-三星会员专属
¥45¥45.6 -
2023读书月阅读盲盒——我什么场面没见过?
¥42.3¥158 -
2023读书月阅读盲盒——去码头整点什么薯条?
¥42.3¥158
