| 作者 |
| 中国电子科技集团公司发展战略研究中心 |
| 丛书名 |
| 出版社 |
| 电子工业出版社 |
| ISBN |
| 9787121347702 |
| 简要 |
| 简介 |
| 内容简介 本书对美、俄、日、欧、印等世界主要国家与地区的军事电子信息系统体系结构和指挥控制、预警探测、情报侦察、通信与网络、定位导航授时、信息安全、网络空间、电子战、军用先进计算、军用基础元器件等领域的发展态势进行全面研究,围绕顶层规划、系统建设、装备部署、技术研发、实战应用等问题进行深入分析,研判重大动向和热点问题,形成一批具有参考使用价值的研究成果,希冀能为我军电子信息系统装备建设和发展提供支撑,为我国相关领域科技发展找准方向、选准突破口、实现创新超越提供参考借鉴,以发挥科技信息工作服务创新、支撑管理、引领发展”的积极作用。 |
| 目录 |
| 综合卷: 重要专题分析 ················································································ 21 美国国防部发布历史上首部《电子战战略》 ·········································· 22 美国海军《水面部队战略》解读 ······················································· 26 美国陆军《反无人机方法》训练条令解读 ··········································· 30 英国国防部发布《2017 年科学技术战略》 ·········································· 34 美军网络司令部升级为一级战斗司令部 ·············································· 37 美国智库发布《复兴美国海上力量》报告打造海军新型力量架构 ············· 47 美国陆军发布《FM3-12:网络空间与电子战作战》野战手册 ·················· 57 美国智库发布《决胜灰色地带——运用电磁战重获局势掌控优势》报告 ··· 64 美国国防部信息体系架构发展研究 ···················································· 70 美国空军推进多域指挥与控制发展 ···················································· 85 人工智能拉开无人智能化战争序幕 ···················································· 89 无人机集群能力分析及其防御对策研究 ·············································· 97 美国加强开展全球海域态势感知应对海洋安全威胁 ····························· 107 世界各国和地区积极推进空间激光通信技术发展 ································· 114 俄罗斯推出世界首部机载微波光子雷达收发样机 ································ 121 从“维基解密”事件看美国中情局攻击能力发展 ································ 124 俄罗斯借助实战全维度提升其电子战能力 ········································· 129 华为发布人工智能芯片麒麟970 事件浅析 ········································· 139 大事记 ························································································· 145 2017 年世界军事电子发展大事记 ···················································· 146 指挥控制卷 综合分析 ······························································································ 1 重要专题分析 ····················································································· 11 美军发布新版联合条令《JP 5-0 联合计划纲要》 ········································ 12 《美军联合特遣部队指挥控制与组织架构》解读 ······································· 17 美国陆军发布《任务式指挥的功能性概念》 ············································· 22 美国空军推进多域指挥与控制发展 ························································· 27 美国陆军“多域战”理论及其 对指挥控制的影响研究 ······························· 31 美国陆军成功开展“一体化防空反导作战指挥系统”试验 ··························· 38 北约主要国家战术级指挥控制系统发展研究 ············································· 44 美空军分布式作战管理与指挥控制发展研究 ············································· 49 美军推动联合区域安全栈向云迁移 ························································· 53 美国空军指挥控制领域自主性项目发展研究 ············································· 59 美国空军有人机/无人僚机协同技术取得重大突破 ······································ 64 人工智能技术在军事决策领域的应用研究 ················································ 68 虚拟现实技术在指挥控制领域的应用研究 ················································ 72 美军指挥信息系统的军事大数据发展研究 ················································ 76 大事记 ······························································································ 81 通信与网络卷 综合分析 ······························································································ 1 重要专题分析 ····················································································· 11 美国陆军发布首部卫星通信条令《ATP 6-02.54:卫星通信方法》 ················· 12 美军探索未来卫星通信架构 ·································································· 18 由WIN-T 项目暂停交付看美军战术网络战略调整 ····································· 25 美军继续完善联合空中层网络体系 ························································· 31 “下一代铱星”低轨通信卫星星座加快部署 ············································· 37 世界各国和地区积极推进空间激光通信技术发展 ······································· 44 量子密钥分发技术取得多项重大研究进展 ················································ 51 水下通信技术最新发展研究 ·································································· 59 毫米波通信技术最新发展研究 ······························································· 65 小卫星通信技术蓬勃发展 ····································································· 73 美国海军继续推进“综合火力通信及互操作”(CIIF)项目 ························· 82 美军单兵系统“奈特勇士”取得新进展 ··················································· 87 美国陆军开发战术环境下的4G 通信技术 ················································· 93 大事记 ······························································································· 103 情报侦测卷 综合分析 ······························································································ 1 重要专题分析 ······················································································ 9 美军发布新版情报系列联合条令 ···························································· 10 美军加快一体化联合情报体系的建设 ······················································ 17 美军智能情报处理技术及应用 ······························································· 26 国外自动相关监视广播系统(ADS-B)的应用发展 ···································· 31 F-35 非传统情报侦察监视能力发展 ························································· 36 外国军用海上巡逻机发展现状 ······························································· 40 国外地理空间情报应用发展 ·································································· 45 美国加强开展全球海域态势感知应对海洋安全威胁 ···································· 50 水下目标磁探测及技术发展研究 ···························································· 57 美军大力发展无人潜航器水下侦察能力 ··················································· 62 国外侦察卫星最新进展 ········································································ 68 美国“蜘蛛”微透镜干涉光学成像系统研究 ············································· 76 DARPA“跨域海上监视与瞄准”项目进入工程化研究 ································ 82 欧洲成功验证“基于伽利略全球导航卫星系统的海上监视无源雷达系统” ····· 87 大事记 ································································································· 95 预警探测卷 综合分析 ······························································································ 1 重要专题分析 ····················································································· 11 美国、俄罗斯积极推进天基预警探测系统发展 ·········································· 12 俄罗斯构建覆盖全境的战略反导预警探测网 ············································· 18 美国地基中段防御系统实现首次洲际导弹拦截 ·········································· 25 美国下一代防空反导雷达成功进行舰载试验 ············································· 32 美国远程识别雷达通过关键设计评审 ······················································ 35 国外新型预警机发展情况 ····································································· 41 2017 年高超声速武器防御进展分析 ························································ 46 DARPA 启动应对无人机威胁的“机动部队保护”项目 ······························· 51 俄罗斯推出世界首部机载微波光子雷达收发样机 ······································· 57 印度防空反导体系能力分析 ·································································· 60 DARPA 成功验证ViSAR 太赫兹雷达实时清晰成像能力 ······························ 70 美国成功测试基于动态超表面孔径的合成孔径雷达 ···································· 74 加拿大推进OptiSAR 雷达光学卫星星座系统建设 ······································ 77 国外军用星载合成孔径雷达(SAR)新进展 ············································· 82 大事记 ································································································· 87 信息安全卷 综合分析 ······························································································ 1 重要专题分析 ······················································································ 9 态势感知升级美国网络安全防御 ···························································· 10 从“维基解密”事件看美国中情局攻击能力发展 ······································· 17 “方程式组织”引发全球多起勒索软件攻击事件 ······································· 22 “暗网”当前发展态势分析 ·································································· 27 DARPA 启动“快速攻击侦测、隔离和鉴定”项目, 应对关键基础设施网络攻击 ·································································· 39 人工智能与网络安全融合发展的研究进展 ················································ 43 区块链技术及其在网络空间安全领域应用 ················································ 49 美军网络空间安全军民融合发展及启示 ··················································· 59 大事记 ································································································· 71 定位导航卷 综合分析 ······························································································································· 1 重要专题分析 ·················································································································· 11 美国颁布2017 年新版《联邦无线电导航计划》 ······················································ 12 美国“全源定位与导航”系统完成多平台演示验证 ················································ 20 美国、俄罗斯加强新型水下导航技术发展 ································································· 26 人工智能技术推动导航向智能化方向发展 ································································· 32 美国陆基远程“增强罗兰”(eLoran)导航系统重获关注 ······································· 39 美国成功研制基于Locata 技术的陆基伪卫星无线电导航系统 ······························· 48 美国、俄罗斯推进陆基超远程导航技术发展 ····························································· 54 GPS 军码应用不断拓展 ································································································· 60 美国全面开展GPS III 卫星的现代化建设 ·································································· 66 前沿技术助力导航装备抗干扰能力不断提升 ····························································· 72 大事记 ··············································································································· 79 网络空间卷 综合分析 ······························································································ 1 2017 年网络空间年度发展综述 ······························································· 2 重要专题分析 ······················································································ 9 美军网络司令部升级为一级战斗司令部 ··················································· 10 美军论证网络空间威慑能力构建 ···························································· 20 美国陆军发布《FM3-12:网络空间与电子战作战》条令 ····························· 27 兰德公司发布《战术级网络作战》报告 ··················································· 34 美军多层面提升战场网络空间作战能力 ··················································· 42 “X 计划”即将为美国陆军提供可视化的网络空间防御能力 ························ 48 美军研究将高功率电磁技术用于网络战 ··················································· 55 DARPA 推进RADIC 项目以提升基础设施网络安全 ··································· 60 DARPA 拟从底层解决网络安全问题 ······················································· 64 澳发布网络空间与电子战《战略规划2016—2021》 ··································· 69 美国空军打造进攻型网络武器以提升其网络攻击能力 ································· 77 德国成立网络与信息空间司令部 ···························································· 81 大事记 ································································································· 89 电子战卷: 综合分析 ······························································································ 1 2017 年电子战领域发展综述 ·································································· 2 2017 年雷达对抗领域发展综述 ······························································ 10 2017 年通信对抗领域发展综述 ······························································ 16 2017 年光电对抗领域发展综述 ······························································ 22 重要专题分析 ····················································································· 29 美国国防部发布历史上首部《电子战战略》,拟将电磁频谱确定为独立作战域 ··· 30 美国智库发布《决胜灰色地带——运用电磁战重获局势掌控优势》报告 ········ 34 美国海军持续推进电磁机动战作战理念 ··················································· 39 俄罗斯借助实战全维度提升其电子战能力 ················································ 48 美军全面推进电磁频谱战计划 ······························································· 57 印度持续提升机载电子战能力 ······························································· 62 高能激光武器技术取得重大进展 ···························································· 68 复杂战场环境催生多功能机载红外威胁告警系统 ······································ 74 美国空军发展无源探测系统提升电磁频谱战能力 ······································ 79 DARPA 为小型无人机研发更灵活的融合射频系统 ···································· 84 美国空军确定EC-130H 载机替换方案 ···················································· 91 认知电子战领域继续夯实技术基础 ························································ 97 网络化电子战模式渐成常态 ································································· 102 大事记 ······························································································· 109 军用计算卷: 综合分析 ······························································································ 1 重要专题分析 ······················································································ 7 IBM 成功研发50 量子位计算机 ······························································ 8 DARPA 启动“终身学习机器”项目 ······················································· 13 美国空军与IBM 公司合作开发“真北”类脑超级计算机 ···························· 18 IBM 发布革命性计算架构,可在百万相变内存上运行机器学习算法 ·············· 21 DARPA 正式启动脑机接口研究项目 ······················································· 25 美国“军事云2.0”利用商业基础架构升级 ·············································· 31 美国陆军投资开发片上数据中心技术 ······················································ 35 大事记 ································································································· 41 基础卷: 综合分析 ······························································································ 1 2017 年光电子器件领域发展报告 ···························································· 2 2017 年真空电子器件领域发展报告 ························································ 13 2017 年电子测试测量仪器领域发展报告 ·················································· 19 2017 年系统级封装技术领域发展报告 ····················································· 25 2017 年传感器领域发展报告 ································································· 31 2017 年微系统领域发展报告 ································································· 37 2017 微电子领域发展报告 ···································································· 43 重要专题分析 ····················································································· 51 洛克希德·马丁公司在激光武器用光纤激光器中取得新的进展 ···················· 52 世界各国重视小像元/小间距高分辨率红外探测器研究 ································ 56 覆盖紫外至红外区的探测和成像器件 ······················································ 60 空间行波管 ······················································································· 64 微加工和太赫兹真空电子器件技术 ························································· 70 太赫兹在军事领域的应用推动高频段测试技术快速发展 ······························ 75 国外大力推进自动测试系统在装备维修保障中的应用 ································· 81 系统级封装材料与集成工艺新布局——美国国防部高级研究计划局(DARPA) 拟推出新的电子复兴计划(ERI)“三维系统芯片集成”项目 ······················· 87 美军微系统工艺平台将催生新的非对称 能力——对DARPA 2017 年异构集成 技术发展的专题分析 ··········································································· 90 应用于军事物联网的传感器技术在低功耗感知领域取得新突破——美国国防部 高级研究计划局(DARPA)“趋零功耗传感器”项目的阶段性突破 ·············· 94 芯片级生物传感技术的新进展——美国国防部高级研究计划局(DARPA)拟 开展植物传感器技术研发项目······························································· 99 基于石墨烯等二维材料的纳米带赋予传感器前所未有的灵敏度 ··················· 103 应用于超宽带数字通信与高速信号处理的RF-SoC···································· 106 集成电路制造工艺继续向更小尺寸迈进 ················································· 113 人工智能技术和芯片 ·········································································· 116 大事记 ······························································································· 123 2017 年先进光电子领域大事记 ····························································· 124 2017 年真空电子器件领域大事记 ·························································· 132 2017 年电子测试测量仪器领域大事记 ···················································· 134 2017 年军用系统级封装领域大事记 ······················································· 136 2017 年传感器领域大事记 ··································································· 138 2017 年微系统领域大事记 ··································································· 142 2017 年微电子领域大事记 ··································································· 143 人工智能卷 综合分析 ······························································································································· 1 专题分析 ····························································································································· 11 跨媒体感知智能将提供多类型数据综合认知解决方案 ············································ 12 混合智能开启人机交互的深度融合模式 ····································································· 17 群体智能技术正在军民领域展现独特魅力 ································································· 23 人工智能平台成为抢占AI 技术高地的“新赛场” ·················································· 32 自然语言处理技术推陈出新 ························································································· 39 计算机视觉技术正在成为机器读懂世界的有效途径 ················································ 47 语音识别架起了人机交互的桥梁 ················································································· 54 机器学习基础研究进展迅速,开发资源遍地开花 ···················································· 61 人工智能芯片日益成为人工智能的核心动力 ····························································· 68 大事记 ················································································································ 77 |