包邮 安防天下2 智能高清视频监控原理精解与实践 潘国辉 西刹子著二版 书籍 智能网络

包邮 安防天下2 智能高清视频监控原理精解与实践 潘国辉 西刹子著二版 书籍 智能网络 pdf epub mobi txt 电子书 下载 2025

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出版社: 清华大学出版社
ISBN:9787302356257
商品编码:1731336010
包装:平装
出版时间:2014-06-01

具体描述

基本信息

书名:安防天下2——智能高清视频监控原理精解与**实践

99.00元

作者:潘国辉(西刹子)

出版社:清华大学出版社

出版日期:2014-06-01

ISBN:9787302356257

字数:1264

页码:786

版次:1

装帧:平装

开本:16开

商品重量:0.4kg


编辑推荐


随着云计算/存储、大数据、物联网、移动互联网等新技术的推进,安防领域也有了翻天覆地的变化,本书**版创造了“安防领域**书”的口碑,4年过去,仍然保持火热销售态势,然而,如前所述,安防领域的技术有了很多革命性突破,为此,本书针对*前沿、*实用的新技术、新方案,并添加了作者*近4年积累的**案例,同时删除了一些过时的内容及案例,形成了这本《安防天下2》。无论从技术上、思维上还是高度上,都比本书上一版有了质的飞跃。希望能为本行业的读者提供实实在在的参考。

清华大学出版社栾大成

内容提要


本书是具有多年行业经验的安防专业人士呈现的“诚意之作”,其目的在于和行业朋友分享、交流、探讨“智能高清视频监控系统”的原理、应用、产品、技术发展趋势等。本书的内容涉及了模拟视频监控系统、编码压缩、DVR、DVS、IPC、NVR、视频分析、高清IP摄像机、视频传输、CMS、视频存储、解码显示、大屏幕、PSIM、物联网、云计算、大数据、数字高清摄像机、模拟高清摄像机、镜头等各个方面,并辅有大量的相关应用案例供读者参考,以期让读者更好地理解和应用。
本书共分19章,第1章是概述部分,第2章简单介绍了模拟电视监控系统,第3~7章分别介绍了编码压缩技术、DVR技术、DVS技术、NVR技术、IPC技术,第8章介绍了高清监控系统,第9章介绍了视频内容分析技术,第10章介绍了网络传输系统,第11章介绍了CMS技术,第12章介绍了存储系统,第13章介绍了解码显示,第14章介绍了智能网络视频监控系统实战应用,第15章是智能网络视频监控系统相关案例的介绍,第16章介绍了PSIM技术,第17章介绍了物联网相关技术,第18章介绍了云计算相关技术,第19章介绍了大数据相关技术及其与视频监控的结合应用。
本书适合初学者或者有一定行业经验的读者阅读,特别适合“弱电、安全防范、视频监控、物联网”相关从业人员作为入门及深入学习的参考。

目录


1 视频监控技术概述················· 1

1.1 引子·························································· 2

1.1.1 安全防范的雏形······························· 2

1.1.2 网络视频监控··································· 2

1.1.3 智能视频识别··································· 2

1.1.4 智能网络视频监控··························· 3

1.1.5 高清视频监控··································· 3

1.1.6 云视频监控······································· 4

1.2 视频监控技术发展过程·························· 4

1.2.1 模拟视频监控时代··························· 5

1.2.2 数字视频监控时代··························· 7

1.2.3 智能网络视频监控时代··················· 8

1.2.4 高清视频监控时代··························· 9

1.3 视频监控的核心技术······························ 9

1.3.1 光学成像器件··································· 9

1.3.2 视频编码压缩算法··························· 10

1.3.3 视频编码压缩芯片··························· 10

1.3.4 视频管理平台··································· 11

1.4 视频监控的发展方向······························ 11

1.5 智能网络视频监控概念·························· 13

1.5.1 本书内容、范围说明······················· 13

1.5.2 本书术语、缩写说明······················· 13

1.5.3 本书内容拓扑结构图······················· 15

2 模拟视频监控系统················· 17

2.1 模拟监控系统的构成······························ 18

2.2 视频采集设备·········································· 19

2.2.1 摄像机相关技术······························· 19

2.2.2 镜头相关介绍··································· 24

2.2.3 防护罩··············································· 28

2.2.4 云台及解码器··································· 29

2.2.5 一体球型摄像机······························· 30

2.3 信号传输设备·········································· 33

2.3.1 视频信号的传输······························· 33

2.3.2 视频分配器······································· 35

2.3.3 控制信号的传输······························· 35

2.3.4 系统供电··········································· 35

2.4 矩阵控制设备·········································· 36

2.4.1 矩阵工作原理··································· 36

2.4.2 矩阵的主要功能······························· 37

2.4.3 PTZ控制原理··································· 38

2.4.4 控制键盘介绍··································· 38

2.5 显示与录像设备······································ 39

2.5.1 多画面处理器··································· 39

2.5.2 图像显示设备··································· 41

2.5.3 长延时录像机··································· 42

2.6 夜视技术及应用······································ 42

2.6.1 主动红外摄像机······························· 42

2.6.2 激光夜视技术··································· 44

2.6.3 被动红外夜视··································· 45

2.6.4 透雾摄像机······································· 46

2.7 闭路电视监控系统设计·························· 47

2.7.1 系统需求分析··································· 47

2.7.2 摄像机的选型··································· 49

2.7.3 镜头的选型······································· 51

2.7.4 矩阵的选型······································· 51

2.8 本章小结·················································· 52

3 视频编码压缩技术················· 53

3.1 多媒体技术基础······································ 54

3.1.1 图像的色彩模型······························· 54

3.1.2 图像的色彩空间变换······················· 57

3.1.3 图像的基本属性······························· 58

3.1.4 图像的格式与质量··························· 59

3.1.5 数据压缩方法··································· 60

3.2 静态图像压缩技术·································· 64

3.2.1 色相变换过程··································· 65

3.2.2 区块切割与采样······························· 66

3.2.3 离散余弦(DCT)变换························· 68

3.2.4 量化过程介绍··································· 69

3.2.5 Z字形编码过程································ 71

3.2.6 DC系数及AC系数编码················· 72

3.2.7 熵编码介绍······································· 73

3.2.8 JPEG数据流介绍····························· 73

3.2.9 JPEG解压缩过程····························· 73

3.3 视频(动态图像)编码压缩······················· 74

3.3.1 视频压缩的必要性··························· 74

3.3.2 视频压缩的可行性··························· 75

3.3.3 图像格式说明··································· 75

3.3.4 逐行扫描与隔行扫描······················· 79

3.3.5 帧率、码流与分辨率······················· 80

3.3.6 视频编码模型··································· 81

3.3.7 运动补偿技术介绍··························· 82

3.4 主流视频编码技术·································· 83

3.4.1 MJPEG编码压缩····························· 84

3.4.2 MPEG-1技术介绍···························· 85

3.4.3 MPEG-2技术介绍···························· 90

3.4.4 MPEG-4技术介绍···························· 91

3.4.5 H.264技术说明································ 96

3.4.6 H.265编码技术································ 98

3.4.7 视频编解码技术应用······················· 103

3.5 本章小结·················································· 105

4 硬盘录像机(DVR)技术············ 107

4.1 DVR产品介绍········································ 108

4.1.1 DVR发展历史·································· 108

4.1.2 DVR工作原理·································· 109

4.1.3 软压缩与硬压缩······························· 110

4.1.4 DVR芯片介绍·································· 111

4.1.5 DVR的录像文件管理······················ 113

4.1.6 DVR配置及接口······························ 114

4.1.7 DVR的关键技术······························ 117

4.1.8 DVR术语介绍·································· 118

4.2 DVR软硬件构成···································· 119

4.2.1 嵌入式DVR······································ 119

4.2.2 PC式DVR········································ 122

4.2.3 嵌入式对比PC式DVR··················· 123

4.3 DVR应用软件功能································ 125

4.3.1 设备配置及管理······························· 126

4.3.2 录像管理··········································· 126

4.3.3 报警管理··········································· 127

4.3.4 视频存储与备份······························· 127

4.3.5 视频浏览与回放······························· 128

4.3.6 设备网管维护··································· 129

4.3.7 用户的管理······································· 129

4.3.8 用户操作日志审计··························· 130

4.4 DVR的应用架构···································· 130

4.4.1 单机工作模式··································· 130

4.4.2 模数混合架构··································· 131

4.4.3 多机联网模式··································· 132

4.5 DVR的亮点功能···································· 136

4.5.1 DVR的多码流技术·························· 136

4.5.2 视频分析技术应用··························· 138

4.5.3 混合DVR技术································· 139

4.5.4 智能检索与回放······························· 140

4.5.5 场景重组技术··································· 141

4.5.6 视频加密技术··································· 142

4.6 DVR产品选型········································ 142

4.7 DVR的常见故障···································· 145

4.7.1 PC式DVR的常见故障··················· 145

4.7.2 嵌入式DVR的常见故障················· 145

4.8 DVR应用案例········································ 146

4.8.1 DVR带宽设计·································· 146

4.8.2 DVR存储设计·································· 148

4.9 DVR设置与操作···································· 148

4.9.1 DVR的系统设置······························ 149

4.9.2 DVR的应用操作······························ 153

4.10 DVR的远程访问·································· 155

4.10.1 流媒体服务····································· 156

4.10.2 DVR的公网配置···························· 158

4.10.3 DVR的转码应用···························· 161

4.11 本章小结················································ 162

5 视频编码器技术···················· 163

5.1 DVS产品介绍········································· 164

5.1.1 DVS发展历程·································· 164

5.1.2 DVS对比DVR································ 165

5.1.3 DVS的工作原理······························ 166

5.2 DVS产品软硬件构成····························· 168

5.2.1 DVS硬件构成·································· 168

5.2.2 DVS软件构成·································· 169

5.3 DVS系统应用架构································· 172

5.3.1 矩阵 DVS混合架构························ 172

5.3.2 DVS NVR架构······························· 173

5.4 DVS的亮点功能····································· 174

5.4.1 DVS的ANR技术··························· 174

5.4.2 DVS冗余技术·································· 176

5.4.3 DVS的多码流技术·························· 177

5.4.4 DVS的PoE技术····························· 178

5.4.5 DVS的音频功能······························ 179

5.4.6 DVS组播应用·································· 180

5.4.7 带视频分析功能的DVS·················· 181

5.5 DVS产品选型········································· 182

5.5.1 DVS的主要参数······························ 182

5.5.2 DVS产品的架构······························ 182

5.5.3 编码压缩方式··································· 182

5.5.4 视频分析功能··································· 183

5.5.5 各类接口资源··································· 183

5.5.6 标准化与开放性······························· 184

5.5.7 设备的稳定性··································· 184

5.6 DVS的集成整合····································· 185

5.6.1 DVS的SDK集成···························· 185

5.6.2 DVS的SDK功能···························· 186

5.7 DVS设置与应用····································· 187

5.7.1 DVS工作流程·································· 187

5.7.2 DVS码流分析·································· 188

5.7.3 DVS主要参数说明·························· 189

5.7.4 DVS配置过程·································· 190

5.8 SDI-DVS产品介绍································· 192

5.9 DVS常见故障及公网接入····················· 193

5.10 本章小结················································ 194

6 网络录像机(NVR)技术············ 195

6.1 NVR产品介绍········································ 196

6.1.1 NVR的功能角色······························ 196

6.1.2 NVR的功能模块······························ 197

6.1.3 NVR对比DVR································ 198

6.1.4 PC式与嵌入式NVR························ 200

6.2 NVR的技术指标···································· 202

6.2.1 NVR的平台需求······························ 202

6.2.2 NVR的瓶颈分析······························ 203

6.2.3 NVR的软件功能······························ 205

6.2.4 NVR的兼容性·································· 212

6.3 NVR产品亮点功能································ 212

6.3.1 视频中间件技术应用······················· 212

6.3.2 ANR技术·········································· 214

6.3.3 NVR冗余技术·································· 215

6.3.4 视频标签功能··································· 216

6.3.5 带视频分析功能的NVR·················· 216

6.3.6 软件的进程隔离技术······················· 216

6.3.7 软件定制化设计······························· 217

6.4 NVR产品选型要点································ 217

6.4.1 NVR典型参数·································· 217

6.4.2 NVR产品选型·································· 217

6.5 NVR应用案例分析································ 219

6.5.1 需求分析··········································· 219

6.5.2 网络带宽设计··································· 221

6.5.3 NVR存储设计·································· 222

6.6 NVR的ONVIF接入······························ 223

6.7 本章小结·················································· 225

7 网络摄像机(IPC)技术············ 227

7.1 IPC产品介绍··········································· 228

7.1.1 IPC的定义········································ 228

7.1.2 IPC的主要功能································ 229

7.1.3 IPC的分类········································ 230

7.1.4 IPC的优势········································ 231

7.1.5 IPC的常用术语介绍························ 234

7.2 IPC的组成及工作原理··························· 235

7.2.1 IPC的硬件构成································ 235

7.2.2 IPC的软件构成································ 238

7.2.3 IPC的工作原理································ 239

7.3 IPC数据的网络传输······························· 239

7.3.1 网络传输协议介绍··························· 240

7.3.2 视音频流的传输······························· 241

7.3.3 控制信号的传输······························· 242

7.4 IPC的核心技术······································· 242

7.4.1 光学成像技术··································· 243

7.4.2 视频编码算法··································· 243

7.4.3 编码压缩芯片··································· 244

7.4.4 视频分析技术··································· 244

7.5 IPC的亮点功能·····


《安防天下2:智能高清视频监控原理精解与实践》—— 深入解析现代安防核心技术,赋能智慧安全新时代 在当今社会,随着科技的飞速发展,高清视频监控系统已不再是简单的录像存储,而是深度融入人工智能,成为维护公共安全、提升生产效率、优化生活品质不可或缺的关键要素。潘国辉、西刹子二版合著的《安防天下2:智能高清视频监控原理精解与实践》一书,正是站在这一时代前沿,为广大读者提供了一部全面、深入且极具实践指导意义的著作。它不仅系统梳理了智能高清视频监控的核心理论,更将前沿技术与实际应用紧密结合,带领读者一同探索构建下一代智慧安防体系的奥秘。 本书的出版,恰逢智能时代安防领域革新浪潮风起云涌之际。传统安防系统在面对海量数据、复杂场景以及多样化需求时,显得力不从心。而智能高清视频监控,则以其强大的数据感知、智能分析及联动响应能力,彻底改变了安防行业的格局。它突破了“看”的局限,实现了“懂”和“智”的飞跃,为智能化城市、智慧园区、智能家居等建设提供了坚实的技术支撑。 《安防天下2》的价值,首先体现在其原理的精解上。书中并没有停留在泛泛而谈的介绍,而是深入剖析了智能高清视频监控系统的每一个关键技术环节。从高清摄像机的成像原理、传感器技术、图像编码与传输(如H.265+等高效编码标准),到高清网络视频存储(NVR)的架构设计、RAID技术、存储介质的选择,再到传输网络(IP网络、PoE供电)的规划与优化,以及前端智能分析算法(如人脸识别、行为分析、车辆检测、周界入侵检测等)的实现机制,都进行了细致入微的讲解。作者们凭借其深厚的专业知识和丰富的实践经验,将复杂的理论知识以清晰易懂的语言呈现出来,即便读者并非科班出身,也能逐步理解其内在逻辑。 在智能高清视频监控原理的章节中,作者们重点阐述了高清化带来的巨大变革。像素的提升不仅带来了更细腻的画面,更重要的是为后续的智能分析提供了更丰富的细节信息,使得识别精度和分析能力得到质的飞跃。书中详细介绍了不同分辨率(720p, 1080p, 4K等)在安防应用中的优势与劣势,以及如何根据实际需求选择最合适的高清解决方案。 智能分析是本书的核心亮点之一。在当前安防领域,单纯的视频监控已经无法满足日益增长的安全需求。智能分析技术,特别是基于深度学习的AI算法,正在重塑安防的面貌。《安防天下2》对各种主流的智能分析技术进行了深入的探讨,包括: 人脸识别:从基础的人脸检测、特征提取,到高精度的人脸比对与识别,书中不仅介绍了算法原理,还分析了在实际应用中可能遇到的光照、遮挡、姿态变化等挑战,以及相应的解决方案。 行为分析:例如异常行为检测(如徘徊、奔跑、摔倒)、人群密度分析、烟火检测等,这些功能极大地提升了主动预警和事后追溯的能力。 车辆检测与识别:包括车牌识别、车型识别、车辆行为分析(如逆行、违停),对于交通管理、停车场监控等场景至关重要。 物体识别与跟踪:识别特定物体(如包裹、宠物),并对其进行持续跟踪,在物流、安保、甚至是智慧零售领域都有广泛应用。 书中对这些智能分析算法的原理进行了深入浅出的剖析,例如卷积神经网络(CNN)、循环神经网络(RNN)等在图像和视频分析中的应用,以及如何优化算法以提高实时性和准确性。作者们还强调了算法与硬件(如GPU、NPU)的协同优化,以实现高效的边缘计算和云端智能。 除了原理的深入讲解,《安防天下2》更注重实践层面的指导。书中提供了大量实际工程案例,详细阐述了如何根据不同的应用场景(如智慧城市、公共安全、金融机构、交通枢纽、工业园区、商场超市、住宅小区等),进行系统的设计、部署和优化。 在实践章节,作者们带领读者一步步进行: 系统设计:包括需求分析、场景调研、点位规划、设备选型(摄像机、NVR、存储、网络设备、智能分析服务器等)、网络拓扑设计、供电方案设计、以及整体方案预算。 设备选型策略:提供了详细的设备选型指南,从分辨率、帧率、码率、低照度性能、宽动态范围(WDR)、防护等级(IP等级、IK等级)、云台控制(PTZ)、音频采集、AI功能等多个维度,指导读者如何根据具体需求选择最适合的设备。 网络部署与优化:讲解了如何规划和部署IP网络,包括带宽计算、QoS(服务质量)保障、PoE(以太网供电)的应用、以及网络安全防护措施,确保视频数据的流畅传输和系统的稳定运行。 智能分析平台的搭建与应用:介绍了如何部署和配置集成的智能分析平台,如何进行算法的训练、调优,以及如何将智能分析结果与警报系统、GIS(地理信息系统)、大数据分析平台等进行联动,实现更高级别的智能化管理。 系统集成与互联互通:在当今互联互通的时代,不同厂商、不同协议的设备如何协同工作是关键。《安防天下2》也探讨了ONVIF等行业标准的应用,以及如何实现与其他安防子系统(如门禁、报警、消防)的集成,构建统一的智能安防管理平台。 系统维护与故障排除:从日常维护、定期检查到常见故障的诊断与排除,书中提供了实用的指导,帮助读者保障系统的长期稳定运行。 本书的另一大亮点在于其前瞻性。作者们不仅梳理了当前主流的技术,还对未来智能高清视频监控的发展趋势进行了展望,例如边缘智能的深化、5G技术在安防领域的应用、AIoT(人工智能物联网)与安防的融合、以及隐私保护与数据安全等重要议题。这些内容为读者提供了宝贵的洞察力,帮助他们站在行业发展的前沿。 《安防天下2》的语言风格严谨而生动,理论讲解清晰透彻,实践指导具体可行。潘国辉与西刹子两位作者在各自领域都拥有丰富的经验和深厚的造诣,他们的合著保证了本书在理论深度和实践广度上的高度统一。书中配有大量图表、流程图和实景图片,使得复杂的概念更容易被理解。 总而言之,《安防天下2:智能高清视频监控原理精解与实践》是一本集理论精解、实践指导、技术前瞻于一体的权威著作。它不仅是安防工程师、系统集成商、项目经理必备的参考手册,也是相关领域科研人员、高校师生以及对智能高清视频监控技术感兴趣的广大读者学习和进阶的优秀读物。通过阅读本书,读者将能够系统掌握智能高清视频监控的核心技术,理解其工作原理,并能将其应用于实际项目中,从而为构建更安全、更智能的未来社会贡献力量。本书将带领您从“看”到“懂”,再到“智”,全面升级您对视频监控的认知,赋能您的安防事业迈向新的高度。

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最近一直在关注智能家居和智慧城市的发展,而视频监控无疑是其中的重要组成部分。我注意到一本叫做《安防天下2:智能高清视频监控原理精解与实践》的书,它的内容让我产生了浓厚的兴趣。这本书的作者是潘国辉和西刹子,他们是这个领域的专家,这让我对书籍的专业性和权威性有了信心。“二版”的标记也意味着作者们在不断更新和完善内容,以适应技术发展的步伐。我最关心的是书中所提到的“智能”二字,这究竟是如何实现的?比如,是否会深入讲解目标识别、行为分析、人脸识别等技术在视频监控中的应用?高清视频本身带来的细节丰富度,又如何与智能分析相结合,从而提升安防的效率和准确性?此外,“实践”二字也让我期待,这本书是否会提供一些实际项目的案例分析,或者介绍一些常用的监控设备和软件的配置与操作方法?我希望通过阅读这本书,能够全面了解当前智能高清视频监控技术的现状、发展趋势以及在各个领域的应用前景,为我未来在该领域的发展提供指引。

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这本《安防天下2:智能高清视频监控原理精解与实践》真是太棒了!我一直对安防监控这个领域很感兴趣,尤其是在智能技术飞速发展的今天,高清视频监控更是大行其道。这本书的标题就直接点出了核心内容,让我对它充满了期待。翻开书,首先映入眼帘的就是潘国辉和西刹子两位作者的署名,名字听起来就很有分量,而且是“二版”,这说明这本书经过了市场的检验和作者的不断打磨,内容肯定更加成熟和完善。我特别想了解智能高清视频监控背后的原理,比如那些先进的图像处理技术、AI算法如何应用于视频分析,以及如何在实际场景中部署和优化这些系统。这本书的书名中“原理精解”和“实践”并列,预示着它既有深入的技术讲解,又有贴近实际操作的案例,这正是我学习所需要的。我希望这本书能够为我揭示智能安防领域的“黑匣子”,让我不仅仅停留在“看到”高清视频的层面,更能理解“如何看到”、“如何分析”以及“如何利用”这些视频信息,从而为我的学习和工作提供坚实的理论基础和宝贵的实践经验。

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我对安防技术一直保持着高度关注,尤其是在高清化和智能化的大趋势下。这本《安防天下2:智能高清视频监控原理精解与实践》,书名就非常吸引人,暗示了其内容的深度和广度。“潘国辉 西刹子著二版”这样的作者署名和版本信息,让我对这本书的专业性和可靠性有了初步的判断。我希望这本书能够深入浅出地解析智能高清视频监控的底层技术,例如,在高清视频方面,它会讲解哪些关于图像质量提升、分辨率、帧率、编码格式等方面的原理?在“智能”方面,又会涉及哪些AI技术,比如,是否会深入讲解机器学习、深度学习在视频分析中的应用,如目标检测、人脸识别、行为分析等?“实践”这个词也让我充满期待,我希望书中能提供丰富的案例研究,展示如何在实际项目中应用这些技术,包括设备选型、系统架构设计、网络部署、数据存储与管理等关键环节。这本书能否为我打开智能安防领域的一扇窗,让我更清晰地认识到这项技术如何改变我们的生活和工作,这是我非常期待的。

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作为一名对科技发展充满好奇心的读者,我一直关注着安防领域的变化。当我在书店看到《安防天下2:智能高清视频监控原理精解与实践》这本书时,我的目光立刻被它吸引了。“安防天下”这个名字听起来就很宏大,而“智能高清视频监控”更是当前的热点。潘国辉和西刹子这两位作者的组合,让我对这本书的质量充满了期待,特别是“二版”的字样,证明了作者们对内容的精益求精。我特别想知道,这本书是如何将“原理”与“实践”相结合的。比如,在原理方面,是否会讲解图像传感器、编码技术、网络传输协议等基础知识,然后逐步深入到AI算法的部分?在实践方面,是否会涵盖实际工程中的布线、设备选型、系统集成、故障排除等环节?我希望这本书能像一本百科全书一样,为我提供关于智能高清视频监控的全面知识,从理论到实操,让我能够真正掌握这项技术。

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最近我一直在研究关于物联网和人工智能在实际应用中的结合点,视频监控无疑是一个非常重要的切入点。这本《安防天下2:智能高清视频监控原理精解与实践》的出现,让我看到了深入了解这个领域的绝佳机会。《安防天下》这个系列的名字本身就有一种大气磅礴的感觉,而“智能高清视频监控”更是抓住了当前技术发展的核心。潘国辉和西刹子这两位作者的名字,也让我对书籍的内容充满了信心,尤其是“二版”的字样,说明这本书已经经过时间的沉淀和读者的反馈,其内容一定非常扎实。我非常期待书中能够详细阐述智能视频监控的“智能”到底体现在哪些方面,例如,是否会介绍如何利用机器学习和深度学习技术,让监控系统具备自主学习和识别异常事件的能力?高清视频在提升监控效果方面的优势,以及如何与智能分析进行完美的结合,这也是我非常感兴趣的部分。这本书的“实践”部分,我更是翘首以盼,希望能够看到真实的案例分析,了解在不同场景下,如何设计、部署和优化一套智能高清视频监控系统。

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非常好的一本书

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很科普的一本书

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专业性非常强的一本书

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很科普的一本书

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好评

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很科普的一本书

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好书,价格不贵

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还可以

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