| ID | 原文 | 译文 |
| 21005 | 通过利用S盒的具体信息,该文构造了CSA-BC的22轮不可能差分区分器,该区分器的长度比已有最好结果长2轮。 | By exploiting the details of the S-box, a 22-round impossible differential isconstructed, which is two rounds more than the previous best result. |
| 21006 | 进一步,利用构造的22轮不可能差分区分器,攻击了缩减的25轮CSA-BC,该攻击可以恢复24 bit种子密钥。 | Furthermore, a 25-round impossible differential attack on CSA-BC is presented, which can recover 24 bit key. |
| 21007 | 攻击的数据复杂度、时间复杂度和存储复杂度分别为253.3个选择明文、232.5次加密和224个存储单元。 | For the attack, the data complexity,the computational complexity and the memory complexity are 253.3 chosen plaintexts, 232.5 encryptions and 224units, respectively. |
| 21008 | 对于CSA-BC的不可能差分分析,目前已知最好结果能够攻击21轮的CSA-BC并恢复16 bit的种子密钥量。 | For impossible differential cryptanalysis of CSA-BC, the previous best result can attack 21-round CSA-BC and recover 16 bit key. |
| 21009 | 就攻击的长度和恢复的密钥量而言,该文的攻击结果大大改进了已有最好结果。 | In terms of the round number and the recovered key, the result significantly improves the previous best result. |
| 21010 | 该文针对无线虚拟化网络中业务的不确定和信息反馈的时延而引起虚拟资源分配不合理,提出一种基于自回归滑动平均(ARMA)预测的在线自适应虚拟资源分配算法。 | In order to solve the unreasonable virtual resource allocation caused by the uncertainty of service anddelay of information feedback in wireless virtualized networks, an online adaptive virtual resource allocationalgorithm proposed based on Auto Regressive Moving Average (ARMA) prediction. |
| 21011 | 首先,该算法以保障虚拟网络队列上溢概率为目标对时频资源和缓存资源进行联合分配,并建立虚拟网络总成本最小化的理论分析模型。 | Firstly, a cost of virtualnetworks minimization is studied by jointly allocating the time-frequency resources and buffer space, whileguaranteeing the overflow probability of each virtual network. |
| 21012 | 其次,考虑到虚拟网络对不同资源差异化的应用需求,设计了一种多时间尺度的资源动态调度机制,在长周期上基于ARMA模型的预测信息实现缓存资源的预留策略,在短周期上基于利用大偏差原理推导的队列上溢概率对虚拟网络优先级排序,并根据确定的优先级动态调度时频资源,从而满足各虚拟网络的业务需求。 | Secondly, considering the different demand ofvirtual networks to different resources, a resource dynamic scheduling mechanism designed with multiple timescales, in which the reservation strategy of buffer space is realized based on the ARMA’s prediction informationin slow time scale and the virtual networks are sorted according to the overflow probability derived by the largedeviation principle and dynamically schedules the time-frequency resources in fast time scale, so as to meet theservice demand. |
| 21013 | 仿真结果表明,该算法可有效降低比特丢失率,同时提升物理资源的利用率。 | Simulation results show that the algorithm can effectively reduce the bit loss rate and improve the utilization of physical resources. |
| 21014 | 物联网中无线传输的安全难题是制约其发展的重要瓶颈, | The security issue of wireless transmission becomes a significant bottleneck in the development ofInternet of Things (IoT). |