GOS和GOS - E评分根据伤残情况评估脑损伤恢复程度,分为死亡、植物状态、严重残疾、中等残疾和恢复良好。
The GOS and GOS-E capture the degree of recovery from brain injury in terms of disability, stratified into levels by death, vegetative state, severe disability, moderate disability, and good recovery.
基于静态结构识别方法,提出了服役结构损伤探测及状态评估的概率分析方法。
A method is proposed to detect damages and assess the status of an existing structure from static test data.
在现阶段,桥梁健康检测、桥梁损伤识别和状态评估来确保结构设计寿命内的安全运营已成为关注的课题。
At this stage, the bridge health monitoring, damage identification and condition assessment to ensure that the structure of the safe operation within the design life has become a concern.
结论加强围术期风险评估,凡存在高凝状态、静脉血流淤滞或血管损伤,都应做相关检查确诊。
Conclusion Enhancing perioperative risk assessment, where there is hypercoagulable state, venous blood flow stasis or vascular damage, should be relevant to confirm the diagnosis.
工程结构的损伤识别技术对于把握结构工作状态及评估结构的安全性与正常使用性能具有重要的意义。
In engineering the structure damage identification technology is of great significance to grasp structure working condition and to assess its safety and normal service performance.
对桥梁结构性态的分析研究是进行结构状态识别和损伤诊断与安全可靠性评估的基础。
Study of the bridge structural characteristic is the basic of structure state identification and damage diagnosis.
针对大型复杂结构状态评估问题,提出了基于低阶特征值的结构分散化损伤识别与整体状态评估方法。
A discretized damage detection and integral status assessment scheme based on the lower eigenvalues is proposed to evaluate the status of a large scale structure.
针对大型复杂结构状态评估问题,提出了基于低阶特征值的结构分散化损伤识别与整体状态评估方法。
A discretized damage detection and integral status assessment scheme based on the lower eigenvalues is proposed to evaluate the status of a large scale structure.
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