Then it sends the frame up to the data link layer.
然后向它发出的数据链路层帧。
PPP is the basic protocol of the Data Link Layer in this solution.
这种模式下使用的数据链路层协议主要是PPP。
In this chapter we will study the design principles for layer 2, the data link layer.
在这一章中,我们将研究网络第二层——数据链路层的设计原则。
Then the data link layer and network layer design schemes of several typical systems are described in detail.
分类阐述了几种典型的数据链路层和网络层的设计方案和设计思想。
Secondly two layers are described in the thesis: the data link layer(DLL) and the fieldbus access sublayer(FAS).
分析了两个目标层:数据链路层和现场总线访问子层。
On the other hand, it adopts ARQ and RRM in the data link layer to control the time delay and jitter of voice services.
另一方面,通过链路层的ARQ技术和无线资源管理策略来控制语音业务的时延及时延抖动。
According to this agreement CAN characteristics of the data link layer priority to the promotion of CAN-based scheduling method.
为此根据CAN协议的数据链路层特点提出了基于优先级晋升CAN调度方法。
Third, realized are the functions of the data link layer, network layer and the application of wireless temperature sensor network.
第三,设计并实现无线温度传感器网络的数据链路层、网络层和应用层的功能。
This study deals with the algorithms for achieving reliable, efficient communication between two adjacent machines at the data link layer.
我们将主要研究的是在数据链路层上,两台相连的机器之间进行可靠、有效通信而涉及到的一些算法。
This paper mainly discussed the technology of frequency management of communication network based on the physical layer and the data link layer.
本文主要研究了基于该协议物理层和数据链路层的通信网频率管理技术。
The conversion was finished on the physical layer and the data link layer, and the problem of direct communications between fieldbus and Ethernet was solved.
该网关在网络的物理层和数据链路层完成协议转换,解决了现场总线和以太网无法实现直接通信的问题。
The difference of topology discovery between the network layer and the data link layer is described and the development and defect of the data link layer are analyzed.
阐述了网络层拓扑发现与数据链路层拓扑发现之间的区别,分析了数据链路层拓扑发现的研究现状和存在的不足。
This algorithm combined sub-carrier allocation in the physical(PHY) layer with traffic scheduling at the data link layer (DLL) by employing the channel state information.
利用物理层的信道状态信息,该算法将物理层(PHY)的子载波分配同数据链路层(DLL)的数据包业务调度结合起来。
But the intrinsic error exists in PP model for the effect of the data link layer and physical layer, and the incorrect result is obtained by filter algorithm when the network load is heavy.
由于受数据链路层和物理层的影响,PP测量模型本身存在着固有的测量误差;当网络负载较重时,PP测量模型就不能够通过过滤算法得出正确的测量结果。
Each layer USES the layers beneath it, so the network layer does not need to worry about how each hop on the network USES the physical and data link layers and so forth.
每一层都使用它下面的层,因此网络层不必担心网络上的每次跳转如何使用物理和数据链接等问题。
The data access layer can also act as an integration point to link with other systems, including being a client of other Web services.
数据访问层还可以作为连接其他系统的集成点,可以成为其他Web服务的客户端。
DE: The "d" option causes Snort to listen and display application-layer data, and "e" displays link layer packet headers.
de:“d”选项使Snort侦听并显示应用程序层的数据,而“e”显示链接层包报头。
The various network device drivers run at the interface layer, which receives and transmits data from and to the physical link.
各种网络设备驱动程序在接口层运行,该层从物理链路接收数据,并向物理链路传输数据。
Technically, network switches operate at layer two (Data Link Layer) of the OSI model.
从技术上讲,网络交换机工作在OSI模型的第二层(数据链路层)。
The purpose of this thesis is to explore the designing idea, content, and realization mechanism of data link layer of DSRC protocol.
本文主要研究和探讨了DSRC数据链路层协议的设计思想,内容结构及实现机制。
The support of any suitable data link layer protocol, e. g. PPP, Ethernet, etc. , shall not be prevented.
支持所有相匹配的数据链路层协议,例如PPP,以太网等,不应该被阻止。
The logical data link layer can use SNAP encapsulation (as defined in RFC 1483).
逻辑的数据链路层可以使用SNAP封装(定义于RFC 1483)。
Using traditional transmission power control mechanism in data link layer of wireless AD hoc network may result in the increased packet collisions among nodes which use different transmission power.
在无线自组织网数据链路层中,采用传统的功率控制机制会引起不同发射功率节点间的分组冲突。
The thesis chooses the four-layers structure as the rudiment of our protocol stack system, which includes physical layer, data link layer, network layer and application layer.
本文选择了四层结构作为协议栈体系结构的雏形,即:物理层、数据链路层、网络层、应用层。
The paper designs a new data link layer protocol using piggyback transporting technique.
本论文设计了一种捎带传输技术的链路层协议。
This paper is mainly concerned with the way how to construct a data link layer which is adaptable to Ethernet of tree topological in TV cable.
如何构造适应视缆树形拓扑的以太网数据链路层,是本文论述的重点。
Then I introduce the concepts about level design and make the frame structure of the Proximity link protocol. I also analyze the physical layer, data link layer and the progress of the protocol, etc.
然后采用了协议的分层设计概念,根据协议要求制定了帧格式,详细分析并设计了物理层、数据链路层和协议工作流程等。
According to the layering structure of CEBus, the principles and implement schemes of physical layer, data link layer and application layer are analyzed completely.
根据消费总线的分层结构,全面剖析了物理层、数据链路层、应用层的原理和实现方法。
According to the layering structure of CEBus, the principles and implement schemes of physical layer, data link layer and application layer are analyzed completely.
根据消费总线的分层结构,全面剖析了物理层、数据链路层、应用层的原理和实现方法。
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