| ID | 原文 | 译文 |
| 3723 | 通过理论证明和实验分析可知,提出的机制可实现在容迟网络中支持区块链贸易。 | Through theoretical proof and experimental analysis, the proposed mechanismcan support blockchain trading in the delay tolerant network. |
| 3724 | 为了增强检测模型的准确率与泛化性,提出了一种可变融合的随机注意力胶囊网络的入侵检测模型,通过特征动态融合,模型能够更好地捕捉数据特征; | In order to enhance the accuracy and generalization of the detection model, an intrusion detection model ofrandom attention capsule network with variable fusion was proposed. Through dynamic feature fusion, the model couldbetter capture data features. |
| 3725 | 同时使用随机注意力机制,减少了对训练数据的依赖,使模型更具有泛化能力。 | At the same time, random attention mechanism was used to reduce the dependence on train-ing data and make the model more generalization. |
| 3726 | 所提模型在 NSL-KDD 和 UNSW-NB15 数据集上进行验证,实验表明,模型在 2 种测试集上的准确率分别达到了 99.49%和 98.60%。 | The model was validated on NSL-KDD and UNSW-NB15 datasets.The experimental results show that the accuracy of the model on the two test sets is 99.49% and 98.60% respectively. |
| 3727 | 在特征为 2 的有限域 F 2 上的 n 维线性空间2nF 中,给出了旋转对称轨道的若干性质,定义了旋转对称轨道的数对 00、01 和 11 的分布矩阵,给出了一个 2-弹性旋转对称函数的新刻画, | Some properties of rotation symmetric orbits were proposed in n dimensional vector space over finite field ofcharacteristic 2, a matrix on the distributions of number pairs such as 00, 01 and 11 was defined, and a new characteriza-tion of 2-resilient rotation symmetric functions was introduced. |
| 3728 | 通过修改已有的线性旋转对称弹性函数 f 0 (x)=x 1 +x 2 + … +x n 的支撑集(其中 n=4t−1),给出了一个基于轨道交换技术的一类 4t−1 元旋转对称 2-弹性函数的构造方法,并通过实例说明了所提构造方法的思想。 | Constructions of rotation symmetric 2-resilient Booleanfunctions with 4t-1 number of variables were presented by modifying the support of the linear rotation symmetric func-tions, such as f 0 (x)=x 1 +x 2 + … +x n , where n=4t−1. At last, an example was demonstrated to introduce the spirit of the pro-posed method to construct 2-resilient rotation symmetric functions with 4t-1 number of variables. |
| 3729 | 针对机器类通信(MTC)中大规模机器类通信(mMTC)和超可靠低时延通信(URLLC)的混合场景下差异化的随机接入需求,提出了一种面向差异化 MTC 场景需求的随机接入方案。 | For the different random access requirements of the mixed scenarios of ultra-reliable low latency (URLLC)and massive machine type communications (mMTC) in MTC, a random access scheme based on devices grouping wasproposed. |
| 3730 | 该方案根据设备定时提前(TA)信息进行分组: | The proposed scheme divided the MTC devices into several groups based on the timing advance (TA) informa-tion: |
| 3731 | 对于 URLLC 设备,基站为组内核心设备预留前导码资源并通过非竞争方式接入网络,进而满足URLLC 场景的高可靠低时延接入需求; | for the URLLC scenario, preamble resources were reserved for core devices in each group, and the URLLC devicesaccessed the network via the contention-free mechanism, to satisfy the ultra-reliable low latency access requirement; |
| 3732 | 对于 mMTC 设备,基站利用不同设备组 TA 信息的差异来区分选择相同前导码设备,并利用迭代干扰消除(SIC)检测设备数据信息,进而满足 mMTC 场景的海量接入需求。 | for the mMTC scenario, the base station utilized the different TA information in different group to identify devices selectingthe same preamble, and performed successive interference cancellation (SIC) algorithm to detect the data information, to satisfy the massive access requirement. |