| 1. | Packet - to - packet delay times are shown visually , allowing instant identification of long latency and response times
包到包的延迟时间形象化显示,支持即时识别长的等待时间和响应时间。 |
| 2. | Guaranteed qos includes three basic parameters : packet transfer delay , packet delay variation and packet loss rate
有保证的服务品质包含三种参数:封包传输延迟、封包延迟变异,以及封包遗失率。 |
| 3. | In analysis , we establish a packet service model and obtain the distribution of frame internal , and discussed the relation between packet delay and frame efficiency
建立了包业务模型,得到成帧间隔的概率分布,并讨论了包延时与帧效率的问题。 |
| 4. | The correlations in attacking connection chains can be constructed by analyzing the increase of the average value of the inter - packet delay between the two connection chains
通过分析两个连接链包间延迟平均值的递增性,确定攻击连接链的关联。 |
| 5. | Rbtcp is rate based , uses only end - to - end mechanism , performs rate control at the receiver , and uses inter - packet delays as the primary metric for rate control
Rbtcp是基于速率的,运用端到端的机制,以分组间的延迟作为主要的监控标准在接受端执行速率控制。 |
| 6. | Then , we proposed a new qos protocol , qgr , based on the greedy geographic routing and dynamic source routing . qgr protocol searches the best route for the packet using energy 、 packet delay and bit error rate of manet as qos parameter
Qgr协议是一种qos路由协议,以传感器网络的能量、延迟、位错误率等特征作为qos参数,实现相对于某一种参数最优的路由路径的查找。 |
| 7. | A method is proposed for detecting stepping stones by actively perturbing inter - packet delay of connections , by which the average value of the packets in the detecting window is set to increase periodically within the attacker ' s perturbation range
摘要提出一个主动干扰跳板机连接中数据包间隔延迟的方法,在攻击者所能干扰跳板机连接数据包延迟间隔允许范围之内,使检测窗口内包间延迟的平均值循环递增。 |
| 8. | A simple , robust method is proposed that relies on high - resolution measurements and on - line analysis of network traffic to provide real - time alarms in the incipient phase of network anomalies . the anomaly identification algorithms based on behavior model using path changes , flow shift and packet delay variance
通过高性能测量和在线分析网络流和路由信息对初始网络异常产生实时报警,提出基于路由变化、流变化和包延迟建立网络行为模型的网络异常检测算法。 |
| 9. | We evaluate the user throughput performance of the scheduling algorithms which have no delay - constrainted , and the real - time packet delay performance and real - time traffic throughput performance of the ones which have delay - constrainted . chapter3 proposes a wireless packet scheduling algorithm which can support multi - services in hsdpa system
对无时延约束的算法,主要考察其对非实时业务的支持,即业务吞吐量性能;而对具有时延约束的算法,主要考察算法的实时分组时延以及实时业务吞吐量性能。 |
