diff --git a/train_V2_1.json b/train_V2_1.json new file mode 100644 index 0000000..d3f300d --- /dev/null +++ b/train_V2_1.json @@ -0,0 +1,29 @@ +{ + "originalText": "印度海军近日从“加尔各答”级驱逐舰上试射了由印度和以色列联合研制的远程面空导弹?试验在位于印度西海岸的“加尔各答”级驱逐舰上进行?试验中,该导弹成功拦截了一个增程型空中目标?此次试验的“巴拉克”-8导弹由印度国防研究与发展局?以色列航空工业公司?以色列武器研发与技术基础设施管理局?埃尔塔系统公司?拉法尔公司等机构联合研制?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 8, + "end_pos": 17 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 34, + "end_pos": 39 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 80, + "end_pos": 86 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 93, + "end_pos": 101 + } + ] +} diff --git a/train_V2_10.json b/train_V2_10.json new file mode 100644 index 0000000..1d6d12f --- /dev/null +++ b/train_V2_10.json @@ -0,0 +1,59 @@ +{ + "originalText": "雷声公司成功完成“战斧”Block?IV巡航导弹导引头的系留飞行试验?在为期3周的试验中,T-39模拟了“战斧”的飞行状态,并对地面和海上的运动目标进行了瞄准?试验表明,该导引头具备对地对海目标的捕获能力?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 9, + "end_pos": 27 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 29, + "end_pos": 34 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 46, + "end_pos": 49 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 65, + "end_pos": 66 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 68, + "end_pos": 69 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 71, + "end_pos": 74 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 92, + "end_pos": 97 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 99, + "end_pos": 100 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 101, + "end_pos": 102 + } + ] +} diff --git a/train_V2_11.json b/train_V2_11.json new file mode 100644 index 0000000..845c64f --- /dev/null +++ b/train_V2_11.json @@ -0,0 +1,41 @@ +{ + "originalText": "美国太空探索(SpaceX)公司“猎鹰”9-1.1型火箭从美国范登堡空军基地发射升空,在发送“杰森”-3海洋监视卫星的同时,再次尝试海上回收火箭一级?最终,火箭成功将卫星送至预定轨道,但一级却在着陆后翻倒并爆炸?SpaceX公司负责人随后表示,火箭一级在下降过程中已具备合适的着陆速度?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 17, + "end_pos": 28 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 47, + "end_pos": 58 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 88, + "end_pos": 91 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 139, + "end_pos": 140 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 141, + "end_pos": 142 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 71, + "end_pos": 74 + } + ] +} diff --git a/train_V2_12.json b/train_V2_12.json new file mode 100644 index 0000000..b52f770 --- /dev/null +++ b/train_V2_12.json @@ -0,0 +1,95 @@ +{ + "originalText": "巴基斯坦军方19日宣布成功试射了一枚射程达350千米的国产“雷电”巡航导弹?此次试验是“雷电”巡航导弹自2007年首次试验以来的第7次飞行试验?该导弹长约5米,重达1000千克,可搭载射程为数百千米的大型常规弹头或核弹头,且精度极高,可以超声速或亚声速飞行,可实现自主导航,还可以极低的非弹道轨迹飞行,以避免雷达探测?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 30, + "end_pos": 37 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 68, + "end_pos": 71 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 19, + "end_pos": 20 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 76, + "end_pos": 76 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 81, + "end_pos": 81 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 113, + "end_pos": 114 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 120, + "end_pos": 122 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 124, + "end_pos": 126 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 133, + "end_pos": 136 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 144, + "end_pos": 148 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 101, + "end_pos": 102 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 103, + "end_pos": 104 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 105, + "end_pos": 106 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 108, + "end_pos": 110 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 155, + "end_pos": 156 + } + ] +} diff --git a/train_V2_13.json b/train_V2_13.json new file mode 100644 index 0000000..6283044 --- /dev/null +++ b/train_V2_13.json @@ -0,0 +1,29 @@ +{ + "originalText": "导弹防御局于9月19日开始,与北方司令部?太平洋司令部和负责一体化导弹防御的联合职能司令部联合开展了1次为期12天的弹道导弹防御系统分布式地面试验,在各种模拟的威胁想定中对该系统应对真实攻击的能力进行了综合评估?\r\n\r\n\r\n\r\n\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 59, + "end_pos": 66 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 67, + "end_pos": 73 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 81, + "end_pos": 84 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 92, + "end_pos": 95 + } + ] +} diff --git a/train_V2_14.json b/train_V2_14.json new file mode 100644 index 0000000..1151165 --- /dev/null +++ b/train_V2_14.json @@ -0,0 +1,65 @@ +{ + "originalText": "美国国防高级研究计划局近日在加利福尼亚海岸的开放水域对“反潜战持续跟踪无人艇”(ACTUV)搭载的“海上系统空中拖曳伞平台”(TALONS)样机进行了为期2天的飞行试验?试验中,TALONS样机从安装于ACTUV后部的“套”中脱离,随即张开翼伞并升至305米的高空,对其携带的传感器和通信设备进行试验?试验一结束,样机自动收回到“套”中?在整个试验过程中,ACTUV始终以实际工作速度航行?\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 23, + "end_pos": 26 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 28, + "end_pos": 46 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 50, + "end_pos": 72 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 81, + "end_pos": 84 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 139, + "end_pos": 141 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 143, + "end_pos": 146 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 131, + "end_pos": 132 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 187, + "end_pos": 192 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 110, + "end_pos": 112 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 121, + "end_pos": 122 + } + ] +} diff --git a/train_V2_15.json b/train_V2_15.json new file mode 100644 index 0000000..ed413c1 --- /dev/null +++ b/train_V2_15.json @@ -0,0 +1,65 @@ +{ + "originalText": "美国海军宣布,近海战斗舰项目执行办公室在海军水面作战中心达尔格伦分部的爆炸试验区成功完成近海战斗舰面面导弹模块“长弓海尔法”导弹的限制性发射试验?试验中,一枚带有惰性弹头和非功能性仪表舱的“长弓海尔法”导弹起火后被限制在发射器中,尾气和火焰从导弹排气安全壳结构中顺利排出?此次试验证明导弹排气安全壳结构可以防止导弹点火后的尾气漏进其他的导弹模块?\r\n\r\n\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 45, + "end_pos": 55 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 56, + "end_pos": 64 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 66, + "end_pos": 72 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 111, + "end_pos": 113 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 116, + "end_pos": 117 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 119, + "end_pos": 120 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 169, + "end_pos": 172 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 82, + "end_pos": 85 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 87, + "end_pos": 93 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 124, + "end_pos": 130 + } + ] +} diff --git a/train_V2_16.json b/train_V2_16.json new file mode 100644 index 0000000..8d3a3bd --- /dev/null +++ b/train_V2_16.json @@ -0,0 +1,59 @@ +{ + "originalText": "美国雷声公司于近日对其研制的美国空军“全球定位系统下一代操作控制系统”(GPS?OCX)Block?1开展了系列风险降低试验?在多种操作想定下,将Block?1系统的主控站与GPS模拟系统进行集成,演示了GPS星座管理与维持,验证了Block?1系统在网络加固环境中的精确导航与授时能力,首次实现了该系统端到端能力的集成?\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 19, + "end_pos": 51 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 57, + "end_pos": 62 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 67, + "end_pos": 70 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 88, + "end_pos": 94 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 103, + "end_pos": 112 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 127, + "end_pos": 132 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 135, + "end_pos": 143 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 153, + "end_pos": 157 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 84, + "end_pos": 86 + } + ] +} diff --git a/train_V2_17.json b/train_V2_17.json new file mode 100644 index 0000000..ec1d74a --- /dev/null +++ b/train_V2_17.json @@ -0,0 +1,59 @@ +{ + "originalText": "俄罗斯成功试射3枚洲际弹道导弹?试射几乎同时开始,证明了俄罗斯海陆核系统具备可靠性?试验中,1枚“白杨”弹道导弹从普列谢茨克发射场发射,命中位于堪察加半岛库拉靶场的既定目标;1枚海基RSM-54型弹道导弹从位于巴伦支海北方舰队的“新莫斯科夫斯克”号核潜艇上发射,同样落入库拉靶场;另一枚从“圣乔治常胜将军”号战略核潜艇发射的导弹则落入阿尔汉格尔斯克州的奇扎靶场?\r\n\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 10, + "end_pos": 15 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 29, + "end_pos": 36 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 49, + "end_pos": 56 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 83, + "end_pos": 86 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 90, + "end_pos": 102 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 106, + "end_pos": 113 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 115, + "end_pos": 127 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 145, + "end_pos": 159 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 39, + "end_pos": 41 + } + ] +} diff --git a/train_V2_18.json b/train_V2_18.json new file mode 100644 index 0000000..4aff2c1 --- /dev/null +++ b/train_V2_18.json @@ -0,0 +1,65 @@ +{ + "originalText": "美国海军于近日在一次三军联合演示验证中,对其通用控制系统进行了试验?试验在新泽西州的迪克斯堡举行,参与方包括陆海空三军以及多个工业合作伙伴,演示验证了一次无人直升机和地面车辆的伤亡撤离响应事件?此次试验的重点是联合工作的系统和标准,特别是在无人系统控制单元体系架构标准下,空军和海军系统之间的任务协调?\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 23, + "end_pos": 24 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 25, + "end_pos": 28 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 78, + "end_pos": 82 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 84, + "end_pos": 87 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 89, + "end_pos": 96 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 111, + "end_pos": 112 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 114, + "end_pos": 115 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 121, + "end_pos": 134 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 137, + "end_pos": 143 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 147, + "end_pos": 150 + } + ] +} diff --git a/train_V2_19.json b/train_V2_19.json new file mode 100644 index 0000000..a5610c2 --- /dev/null +++ b/train_V2_19.json @@ -0,0 +1,41 @@ +{ + "originalText": "美国陆军“远征勇士实验”首次在实战演习中试验了“瞄准锁定”稳定武器平台,这种看上去颇为笨重的步枪可通过减少人为失误,提升普通步兵的平均作战效能?\r\n\r\n\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 5, + "end_pos": 12 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 24, + "end_pos": 35 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 47, + "end_pos": 48 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 54, + "end_pos": 57 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 61, + "end_pos": 64 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 66, + "end_pos": 71 + } + ] +} diff --git a/train_V2_2.json b/train_V2_2.json new file mode 100644 index 0000000..6a9eba8 --- /dev/null +++ b/train_V2_2.json @@ -0,0 +1,59 @@ +{ + "originalText": "美国空军24日在华盛顿州成功完成波音KC-46A加油机(工程与制造第2阶段)首次空中加油试验,开启了空中加油演示验证的里程碑C阶段?作为开发的一部分,试验小组完成了一系列试验,然后在波音机场为时5小时45分钟的出行架次中向1架飞行高度为6千米的F-16战斗机输送了726千克燃油?此外,加油机还部署了吊杆,伸缩管向外探出,伸向配备插孔的受油机?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 17, + "end_pos": 27 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 41, + "end_pos": 46 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 123, + "end_pos": 129 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 138, + "end_pos": 139 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 169, + "end_pos": 171 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 114, + "end_pos": 117 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 151, + "end_pos": 152 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 154, + "end_pos": 156 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 166, + "end_pos": 167 + } + ] +} diff --git a/train_V2_20.json b/train_V2_20.json new file mode 100644 index 0000000..11ac932 --- /dev/null +++ b/train_V2_20.json @@ -0,0 +1,41 @@ +{ + "originalText": "美国海军陆战队CH-53K“种马王”重型运输直升机10月19日在佛罗里达州西棕榈滩的西科斯基研发飞行中心完成了为期2周的初始作战试验,达到预期效果?作战试验-B1由美国海军陆战队的飞行员?机组人员和维修人员共同实施,试验内容包括外部吊挂运载12200千克和5422千克载荷在作战半径110海里情况下的空中悬停?\r\n\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 8, + "end_pos": 25 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 61, + "end_pos": 66 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 75, + "end_pos": 81 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 135, + "end_pos": 136 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 138, + "end_pos": 141 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 151, + "end_pos": 154 + } + ] +} diff --git a/train_V2_21.json b/train_V2_21.json new file mode 100644 index 0000000..00c4afe --- /dev/null +++ b/train_V2_21.json @@ -0,0 +1,77 @@ +{ + "originalText": "在伊尔库特MC-21首飞之前,俄罗斯专家在莫斯科中央航空流体动力研究院的亚声速风洞对其缩比模型进行了一系列有关颤振的试验?飞机模型重300千克,翼展为5米,是MC-21实际尺寸的1\/7?试验在模拟速度达1100千米\/小时的状态下,测试了机翼?控制舵机及发动机吊舱的反应?测试结果均“符合预期估测”,且颤振的“危险现象”在典型运行速度范围内均没有发生?\r\n\r\n\r\n\r\n\r\n", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 2, + "end_pos": 10 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 37, + "end_pos": 41 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 44, + "end_pos": 47 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 56, + "end_pos": 57 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 66, + "end_pos": 66 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 73, + "end_pos": 74 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 87, + "end_pos": 88 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 97, + "end_pos": 100 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 161, + "end_pos": 166 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 119, + "end_pos": 120 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 122, + "end_pos": 125 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 127, + "end_pos": 131 + } + ] +} diff --git a/train_V2_3.json b/train_V2_3.json new file mode 100644 index 0000000..5e16079 --- /dev/null +++ b/train_V2_3.json @@ -0,0 +1,71 @@ +{ + "originalText": "美国海军航空系统司令部1月22日宣布,位于华盛顿州普吉特海峡的海军水下战中心基波特分部近期成功在1艘无人潜航器上试验了新研发的通用控制系统?该系统是一种软件架构,拥有通用的框架?用户界面及元件,可以集成到各种无人系统中,能为海军无人系统提供通用的航行器管理?任务计划及任务管理能力?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 51, + "end_pos": 55 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 64, + "end_pos": 69 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 77, + "end_pos": 80 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 87, + "end_pos": 88 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 90, + "end_pos": 93 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 95, + "end_pos": 96 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 105, + "end_pos": 108 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 113, + "end_pos": 118 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 124, + "end_pos": 128 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 130, + "end_pos": 133 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 135, + "end_pos": 140 + } + ] +} diff --git a/train_V2_4.json b/train_V2_4.json new file mode 100644 index 0000000..9939cb2 --- /dev/null +++ b/train_V2_4.json @@ -0,0 +1,53 @@ +{ + "originalText": "许多可重复使用运载火箭项目致力于研发垂直降落的第一级或回收主发动机,但澳大利亚的“南半球运载火箭”项目正在对一种降低发射成本的不同方案进行飞行试验?该方案采用的是可飞回的带翼助推器和由超燃冲压发动机驱动的可重复使用第二级?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 41, + "end_pos": 51 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 66, + "end_pos": 67 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 70, + "end_pos": 73 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 24, + "end_pos": 26 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 30, + "end_pos": 33 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 86, + "end_pos": 90 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 93, + "end_pos": 99 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 108, + "end_pos": 110 + } + ] +} diff --git a/train_V2_5.json b/train_V2_5.json new file mode 100644 index 0000000..c9d1351 --- /dev/null +++ b/train_V2_5.json @@ -0,0 +1,53 @@ +{ + "originalText": "美国导弹防御局联合美国空军第30航天联队?一体化导弹防御联合职能司令部和北方司令部,共同开展了一次“地基中段防御系统”的非拦截飞行试验,进一步验证了重新设计后的“能力增强2”型大气层外杀伤拦截器的助推器性能?“能力增强2”型地基拦截弹在2010年的2次飞行拦截试验中,由于EKV的质量配比和惯性测量单元出现问题,试验均失败?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 50, + "end_pos": 59 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 61, + "end_pos": 67 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 81, + "end_pos": 97 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 105, + "end_pos": 117 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 99, + "end_pos": 101 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 137, + "end_pos": 139 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 141, + "end_pos": 144 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 146, + "end_pos": 151 + } + ] +} diff --git a/train_V2_6.json b/train_V2_6.json new file mode 100644 index 0000000..d5f6aa1 --- /dev/null +++ b/train_V2_6.json @@ -0,0 +1,47 @@ +{ + "originalText": "印度陆军近日在拉贾斯坦邦波卡兰发射场完成“皮那卡”Ⅱ多管火箭炮发射系统的用户辅助试验?试验历时3天,在印度国防研究与发展局位于普纳的武器研究与发展实验室进行?此前,已服役于印度军方“皮那卡”Ⅰ武器系统(射程约40千米)的子母弹弹头试验已取得成功?“皮那卡”系统旨在替代印度陆军目前使用的俄制BM-21“冰雹”发射器?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 21, + "end_pos": 35 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 37, + "end_pos": 42 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 91, + "end_pos": 100 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 102, + "end_pos": 103 + }, + { + "label_type": "系统组成", + "overlap": 0, + "start_pos": 111, + "end_pos": 115 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 135, + "end_pos": 138 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 144, + "end_pos": 157 + } + ] +} diff --git a/train_V2_7.json b/train_V2_7.json new file mode 100644 index 0000000..451fe65 --- /dev/null +++ b/train_V2_7.json @@ -0,0 +1,41 @@ +{ + "originalText": "印度国防研究与发展局成功从1辆坦克上对其最新研制的热压弹药进行了“尘雾射击”试验?印军从位于奥利萨邦海岸的1座试验场上通过其自主研制的“阿琼”主战坦克对该型弹药进行了2次试射?印度1位不愿透露姓名的国防官员表示,高爆弹药是从1辆“阿琼”主战坦克上发射,成功击中了1辆退役的俄制T55坦克目标?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 16, + "end_pos": 17 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 26, + "end_pos": 29 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 33, + "end_pos": 40 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 68, + "end_pos": 75 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 107, + "end_pos": 110 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 137, + "end_pos": 145 + } + ] +} diff --git a/train_V2_8.json b/train_V2_8.json new file mode 100644 index 0000000..b11e4cf --- /dev/null +++ b/train_V2_8.json @@ -0,0 +1,59 @@ +{ + "originalText": "美国海军研究实验室与宾夕法尼亚州立大学飞行器智能和自主实验室成功演示验证了2驾无人滑翔机在飞行中的数据共享?试验中,2驾无人滑翔机在1000多米的高空自主飞行超过5小时,并在飞行中协作?共享遥测数据?本次试验表明,2个实验室的自主飞行算法都能成功发现并利用上升热气流,并对协同飞行与共享信息?提高机群续航能力进行了概念验证?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 40, + "end_pos": 44 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 96, + "end_pos": 99 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 114, + "end_pos": 119 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 129, + "end_pos": 130 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 131, + "end_pos": 133 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 74, + "end_pos": 75 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 137, + "end_pos": 140 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 142, + "end_pos": 145 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 149, + "end_pos": 154 + } + ] +} diff --git a/train_V2_9.json b/train_V2_9.json new file mode 100644 index 0000000..2a975b4 --- /dev/null +++ b/train_V2_9.json @@ -0,0 +1,65 @@ +{ + "originalText": "通用动力公司成功试验了其双信道AN\/PRC-155“移动用户目标系统”(MUOS)便携式无线电台?演示中,这种无线电台通过洛克希德·马丁公司研制的MUOS卫星,提供了语音和数据通信服务?同时演示的还有旨在确定该系统就绪状态的海军MUOS操作试验?PRC-155便携式无线电台已在陆军中使用,可以使士兵连接美军的通信中枢———作战人员战术信息网?", + "entities": [ + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 13, + "end_pos": 48 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 74, + "end_pos": 79 + }, + { + "label_type": "试验要素", + "overlap": 0, + "start_pos": 113, + "end_pos": 122 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 84, + "end_pos": 92 + }, + { + "label_type": "性能指标", + "overlap": 0, + "start_pos": 108, + "end_pos": 111 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 140, + "end_pos": 141 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 149, + "end_pos": 150 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 153, + "end_pos": 154 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 156, + "end_pos": 159 + }, + { + "label_type": "任务场景", + "overlap": 0, + "start_pos": 163, + "end_pos": 171 + } + ] +}