为贯彻落实《"十四五”数字经济发展规划》（国发〔2021〕29号），提升我国生物特征识别产业竞争力，推动我国生物特征识别产业做大做强，助力经济社会发展，全国信息技术标准化技术委员会生物特征识别分技术委员会（SAC/TC28/SC37）组织编制"生物特征识别技术应用案例集”，并对当前生物特征识别技术应用情况进行总结分析。本案例集将应用案例划分为四个主要部分：行业应用篇、新兴应用篇、融合应用篇及支撑技术应用篇，共收录了55项案例。通过汇编生物特征识别技术应用实例，充分展现了生物特征识别技术在多个关键领域的实际应用成效和重要影响，并希望为技术使用方、研究人员、技术开发者、标准及政策制定者提供全面的参考资源，使生物特征识别技术应用案例集成为生物特征识别解决方案选择的知识数据库，项目需求对接的桥梁，让生物特征识别技术持续为人类社会带来更加美好的生活体验。

宋继伟，2010年毕业于东北大学，系统工程专业，工学博士，高级工程师， 2010年至今在工业和信息化部电子工业标准化研究院从事生物特征识别、智能制造、无人机、RFID、IC卡、实时定位等相关领域的标准化工作；现任物联网研究中心感知技术研究室主任，全国信标委卡及身份识别安全设备分委会(SAC/TC28/SC17)副秘书长，全国信标委生物特征识别分技术委员会(SAC/TC28/SC37)委员，ISO/IEC 18000-4:2018国际标准主编辑，ISO/IEC/ JTC1/SC31，ISO/IEC/JTC1/SC17和ISO/IEC/JTC1/SC37下设6个工作组专家；作为课题负责人，承担多项科技部国家重点研发计划项目和工信部智能制造标准专项；作为编制组成员，参与编写《国家智能制造标准体系建设指南（2015版）解读》、《智能制造标准化》等著作；获得省部级科技一等奖1项，三等奖1项，国家发明专利11项，国家实用新型专利10项；发表SCI，EI等论文16篇，主持及参与制定国家标准，行业标准，地方标准60余项。

第1 章 行业应用篇·········································································.1
1.1 概述·······················································································.1
1.2 行业应用特点分析··································································.1
1.2.1 指标优异··············································································.2
1.2.2 易用可靠··············································································.2
1.2.3 安全性高··············································································.2
1.2.4 管理高效··············································································.3
1.3 发展建议················································································.3
1.4 行业应用案例·········································································.3
1.4.1.1 案例1：金融行业银行指静脉身份认证系统···································.3
1.4.1.2 案例2：金融行业指静脉识别管理系统··········································7
1.4.1.3 案例3：金融行业“声纹+”可信身份认证解决方案·························11
1.4.1.4 案例4：教育考试考生指静脉身份验证系统·································.14
1.4.1.5 案例5：基于人脸识别的煤矿门禁考勤系统·································.18
1.4.1.6 案例6：搭载虹膜识别系统的辅运系统智能化信息管理平台··············.21
1.4.1.7 案例7：基于虹膜识别身份认证的人事档案管理系统······················.26
1.4.1.8 案例8：基于指纹识别的数据存储设备应用·································.30
1.4.1.9 案例9：掌静脉识别智能门锁·················································.33
1.4.1.10 案例10：3D 人脸识别智能门锁解决方案···································.37
1.4.1.11 案例11：基于虹膜动态加密解密的电子文件流转系统····················.40
1.4.1.12 案例12：基于虹膜识别的智能文件交换箱·································.44
1.4.1.13 案例13：基于虹膜识别安全登录电子信息系统解决方案·················.51
1.4.1.14 案例14：船舶过闸安检船员身份核验系统·································.57
1.4.1.15 案例15：景区人票合一智能识别管理系统·································.60
1.4.1.16 案例16：DNA 档案在干细胞与再生医学领域的应用解决方案··········.63
1.4.1.17 案例17：全国社保卡服务平台生物特征识别应用·························.68
1.4.1.18 案例18：腾讯“微信刷掌”在各民生场景的应用·························.72
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第2 章 新兴应用篇······································································.79
2.1 概述·····················································································.79
2.2 新兴应用的创新特性····························································.79
2.2.1 新兴应用之技术突破·····························································.79
2.2.2 新兴应用之场景拓展·····························································.80
2.2.3 新兴应用之隐私保护·····························································.81
2.3 发展建议··············································································.81
2.4 新兴应用案例·······································································.81
2.4.1.1 案例1：多模态防伪大模型平台···············································.81
2.4.1.2 案例2：虹膜检验鉴定实验室·················································.85
2.4.1.3 案例3：智慧档案库房管理平台···············································.95
2.4.1.4 案例4：赛鸽综合管理识别平台···············································100
2.4.1.5 案例5：海鑫智圣“鑫宠”宠物识别算法服务······························104
2.4.1.6 案例6：基于牛只识别技术的智能畜牧养殖保险系统·····················.112
2.4.1.7 案例7：高通量测序动物基因识别系统······································.116
2.4.1.8 案例8：基于行为识别技术的智能颐养系统·································120
2.4.1.9 案例9：XR 头戴式显示设备利用虹膜特征识别技术进行身份认证·······125
2.4.1.10 案例10：AR 自主视觉智能作业技术平台··································131
2.4.1.11 案例11：基于掌静脉识别技术的车门解锁系统····························136
2.4.1.12 案例12：气味数智化识别平台···············································139
2.4.1.13 案例13：生物特征识别在基因检测领域的应用解决方案·················143
2.4.1.14 案例14： 面向视障残疾人用户的分布式
生物特征识别无障碍身份鉴别应用案例·························149
第3 章 融合应用篇······································································153
3.1 概述·····················································································153
3.2 融合应用的融合特性····························································154
3.2.1 生物特征识别多模态融合应用的特点及分析······························154
3.2.2 跨界融合多模态拓展应用特点及分析········································154
3.3 发展建议··············································································155
3.4 融合应用案例·······································································156
XI
3.4.1.1 案例1：ABIS 多模态生物特征识别统一平台································156
3.4.1.2 案例2：“三合一监门智能管控”系统·······································161
3.4.1.3 案例3：多模态门禁管理系统·················································166
3.4.1.4 案例4：卡塔尔2022 年世界杯手持式多模态识别终端·····················169
3.4.1.5 案例5： 基于多模态生物特征识别的传统轻工业五金制品
智能化升级应用·······················································173
3.4.1.6 案例6：智慧餐厅消费机系统·················································178
3.4.1.7 案例7：智慧婚姻登记系统····················································181
3.4.1.8 案例8：口岸自助值机托运机器人系统·······································186
3.4.1.9 案例9：掌静脉及人脸识别技术在电动车上的应用·························190
3.4.1.10 案例10：智能车舱解决方案·················································195
3.4.1.11 案例11：营运车辆驾驶员健康监测预警系统·······························199
3.4.1.12 案例12：公共交通智能管理和安全服务平台······························202
3.4.1.13 案例13：基于智能识别技术的火电厂智能巡检管控平台·················207
3.4.1.14 案例14：矿山人员智能化综合管理平台···································.211
3.4.1.15 案例15：医院智能化综合管理系统·········································224
3.4.1.16 案例16：青竹湖校园一指通智慧校园项目·································231
3.4.1.17 案例17：企业园区智能管理系统············································236
第4 章 支撑技术应用篇······························································241
4.1 概述·····················································································241
4.2 支撑技术应用特点分析·························································241
4.2.1 多维度的安全防护技术·························································241
4.2.2 创新的算法与模型应用··························································242
4.2.3 高度适应性的场景化配置·······················································242
4.2.4 前瞻性的市场应用和扩展潜力················································242
4.3 发展建议··············································································243
4.4 支撑技术应用案例································································243
4.4.1.1 案例1：移动智能终端指纹识别芯片·········································243
4.4.1.2 案例2：用于呈现攻击检测的指纹假体制作技术····························247
4.4.1.3 案例3：人脸防欺诈检测技术及应用·········································251
4.4.1.4 案例4：海鑫端云深度伪造活体防护系统金融行业应用案例··············257
第5 章 总结与展望······································································263