| ID | 原文 | 译文 |
| 19855 | 首先,该算法在滤波器的训练过程中加入空间惩罚项,构建目标与背景的颜色及灰度直方图模板并计算样本质量系数,使得空间正则项根据样本质量系数自适应变化,不同质量的样本受到不同程度的惩罚,减小了边界效应对跟踪的影响; | Firstly, the proposed algorithm adds spatial regularization matrix to the training process of the filters, and constructs color and gray histogram templates to compute the sample quality factor. Then, the regularization term adaptively changes with the sample quality coefficient, so that thesamples of different quality are subject to different degrees of punishment. |
| 19856 | 其次,通过对样本质量系数的判定,合理优化跟踪结果及模型更新,提高了跟踪的可靠性和准确性。 | Then, by thresholding the sample quality coefficient, the tracking results and model update strategy are optimized. |
| 19857 | 在OTB2013和OTB2015数据平台上的实验数据表明,与近几年主流的跟踪算法相比,该文算法的成功率均为最高,且与空间正则化相关滤波(SRDCF)算法相比分别提高了9.3%和9.9%。 | The experimental results onOTB2013 and OTB2015 indicate that, compared with the state-of-the-art tracking algorithm, the averagesuccess ratio of the proposed algorithm is the highest. The success ratio is raised by 9.3% and 9.9% contrastedwith Spatially RegularizeD Correlation Filters(SRDCF) algorithm respectively on OTB2013 and OTB2015. |
| 19858 | 为了解决集成电路设计中多方合作的成员信息泄漏问题,该文提出一种基于正交混淆的多硬件IP核安全防护方案。 | In order to solve the problem of member information leakage in multi-party cooperative design of integrated circuits, a orthogonal obfuscation scheme of multi-hardware IPs core security protection is proposed. |
| 19859 | 该方案首先利用正交混淆矩阵产生正交密钥数据,结合硬件特征的物理不可克隆函数(PUF)电路,产生多硬件IP核的混淆密钥; | Firstly, the orthogonal obfuscation matrix generates orthogonal key data, and the obfuscated key of the hardware IP core is designed with the physical feature of the Physical Unclonable Function (PUF) circuit. |
| 19860 | 然后,在正交混淆状态机的基础上,实现多硬件IP核的正交混淆安全防护算法; | Then the security of multiple hardware IP cores is realized by the orthogonal obfuscation state machine. |
| 19861 | 最后,利用ISCAS-85基准电路和密码算法,验证正交混淆方法的有效性。 | Finally, the validity of orthogonal aliasing is verified using the ISCAS-85 circuit and cryptographic algorithm. |
| 19862 | 在台湾积体电路制造股份有限公司(TSMC)65 nm工艺下测试正交混淆的多硬件IP核方案,正确密钥和错误密钥下的Toggle翻转率小于5%,在较大规模的测试电路中面积和功耗开销占比小于2%。 | The multi-hardware IP core orthogonal obfuscation scheme is tested under Taiwan Semiconductor ManufacturingCompany (TSMC) 65 nm process, the difference of Toggle flip rate between the correct key and the wrong keyis less than 5%, and the area and power consumption of the larger test circuit are less than 2%. |
| 19863 | 实验结果表明,采用正交混淆的方式能够提高多硬件IP核的安全性,可以有效防御成员信息泄漏、状态翻转率分析等攻击。 | Theexperimental results show that orthogonal obfuscation can improve the security of multi-hardware IP cores, andcan effectively defend against member information leakage and state flip rate analysis attacks. |
| 19864 | 该文针对无线多播网络中基于随机线性网络编码(RLNC)调度方案计算复杂度高,且网络传输性能易受反馈信息影响等问题,提出一种基于自适应RLNC的优先级调度方案(PSARLNC)。 | A Priority Scheduling scheme based on Adaptive Random Linear Network Coding (PSARLNC) is proposed, to avoid the high computation complexity of the scheduling scheme based on Random LinearNetwork Coding (RLNC) and the high feedback dependence of the network performance. |