Multi-label learning is a common problem in real application. Covering algorithm performs well with single-label learning but can not deal with multi-label learning.
多标记学习是实际应用中的一类常见问题,覆盖算法在单标记学习中表现出了优秀的性能,但无法处理多标记情况。
For this multi-label collisions problem, this paper focuses on describing two kinds of main label anti-collision algorithm based on TDMA, ALOHA algorithm and binary tree.
针对多标签的碰撞问题,本文重点介绍和讨论基于TDMA的两类主流的标签防碰撞算法:基于ALOHA的标签防碰撞算法和基于二进制树的标签防碰撞算法。
Real-world text documents usually belong to multiple classes simultaneously, and therefore, using multi-label learning technique to classify text documents is an important research direction.
真实世界的文档往往同时属于多个类别,因此,利用多标记学习技术进行文档分类是一个重要的研究方向。
Aiming at the problems that active learning in multi-label classification is slowly, this paper proposes an improved method for multi-label classification which based on average expectation margin.
针对多标签主动学习速度较慢的问题,提出一种基于平均期望间隔的多标签分类的主动学习方法。
Changing the label of the text object, which is multi lingual, makes it easier to access the object in an internationalization situation.
对于多语言应用,更改文本对象的标签可以在国际化测试中可以让对象更容易被访问。
Label printing is frequently performed on a narrow-web, eight-colour multi-process printing machine that allows for the combination of flexo, screen, offset and letterpress printing.
标签印刷通常在窄幅、八色的多工序印刷机上进行,这种机器兼容柔版、网版、柯式和凸版等多种印刷方法。
Multi-byte support is enabled, by default, to allow you enter Japanese characters into the description and label fields of your Rhapsody model.
默认条件下,多字节的支持也包含在内,允许您在Rhapsody模型的描述以及标签区域中输入日语字符。
Generalized multi-protocol label switching (GMPLS) supports peer model networks. GMPLS technology and routing mechanism are the key technologies for constructing peer model based optical Internet.
通用多协议标签交换(GMPLS)支持对等模型网络,GMPLS技术和路由机制是构建对等模型光因特网的关键技术。
Generalized Multi-Protocol Label Switching (GMPLS) is used as the control protocol for ASON, of which the routing part is mainly governed by the Open Shortest Path First (OSPF) protocol.
自动交换光网络(ason)控制协议采用通用多协议标签交换(GMPLS)控制协议族,其路由部分主要为开放式最短路径优先(OSPF)协议。
Therefore this paper proposed one kind of VPN network constructs the plan based on IP and the multi-protocol label swap protocol.
因此本文提出了一种基于IP和多协议标签交换协议的专用VPN网络构建方案。
There exists a waste of bandwidth resources due to the heuristic algorithms for the preemption in multi-protocol label-switching (MPLS) networks.
目前多协议标签交换(MPLS)网络中大多采用启发式算法进行抢占,造成了带宽资源的浪费。
Labeled Optical Burst Switching (LOBS) network, combing the Multi Protocol Label Switch (MPLS) and OBS technologies, has the advantage of high flexibility and high efficiency.
标签光突发交换(LOBS)技术将多协议标签交换(MPLS)和光突发交换(OBS)技术结合起来,具有更高的灵活性和效率。
MPLS, which stands for Multi-Protocol Label Switch, is the new generation standard for network layer routing on IP-based backbone network.
即多协议标记交换是新一代IP骨干网络的交换标准。
The multiple protocol label switching (MPLS) technology is introduced into the multi-service transport platform (MSTP) in order to enhance the capabilities of routing, exchange and QoS management.
为了提高多业务传送平台(MSTP)组网的路由能力、交换能力和服务质量(Q oS)处理能力,需要将多协议标签交换(MPLS)的固有优势引入M STP。
Packet Transport Network (PTN) technology includes the Transport Multi-Protocol Label Switching (T-MPLS) and Provider Backbone Transmission (PBT).
分组传送网(PTN)技术包括传送多协议标签交换(T - MPLS)和运营商骨干传送(PBT)。
Special double black label detection make printing of pre - printing multi receipts easy.
独有的双黑标检测技术,让预印刷多联票据套打轻松实现。
The method computes topological operator based on label, verdicts and merges the spatial relationship of geometric, expresses and displays the multi-scale of spatial data.
该方法建立基于标签的空间拓扑算子的计算,进行几何体空间关系的判断与合并,实现空间数据的多比例尺表达与显示。
An end-to-end adaptive multi-protocol label switching(MPLS)-based fast handover method for mobile IP(MIP) was proposed to improve the flexibility and scalability of MIP over MPLS.
提出了基于多协议标记交换(MPLS)的端到端自适应移动IP(MIP)快速切换技术,旨在提高基于MPLS移动IP的灵活性与可扩展性。
An end-to-end adaptive multi-protocol label switching(MPLS)-based fast handover method for mobile IP(MIP) was proposed to improve the flexibility and scalability of MIP over MPLS.
提出了基于多协议标记交换(MPLS)的端到端自适应移动IP(MIP)快速切换技术,旨在提高基于MPLS移动IP的灵活性与可扩展性。
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