Moreover, the "best" configuration may change as the computing context changes.
而且最佳的配置会随着计算机环境的变化而变化。
In a computing context, ambient temperature is the air temperature of any environment where compute and related equipment are kept.
在计算环境中,环境温度是任何环境的空气温度计算及相关设备。
This article demonstrates techniques and code you'll need to connect accelerometer-enabled devices to applications in a traditional desktop computing context.
本文将演示的技术和代码可以使您将传统桌面计算环境中的应用程序与支持加速计的设备连接起来。
Capacity management is a vital activity in the context of cloud computing.
容量管理是云计算上下文中的重要活动。
"Ubiquitous computing" in this context does not just mean computers that can be carried to the beach, jungle or airport.
本文中“无处不在的计算”并不仅仅意味着可以被带到海滩、丛林或者机场的计算机。
The concept is to view cloud computing within the context of architecture, as an architectural option.
主要概念是在架构上下文中考虑云计算。
We apply context sensitive grammar to the background of component computing and software refinement, and propose a specific definition of context in that application.
我们将上下文有关文法应用到构件计算和软件求精的背景下,给出了上下文在该应用背景下的一个具体定义。
In the pervasive computing environment, context awareness need to process existed data and acquire the deep interrelation information from these data.
普适计算环境下的上下文感知需要对已有的数据进行处理,并从这些数据中获取相互关联的深层信息。
Based on the Context Framework, the se-mantic frame of text is designed and the algorithm of computing semantic frame is developed.
在语境框架的基础上,设计实现了文本相似度计算算法。
Environment context, device context and user context were researched to promote computing systems' initiative and intelligence.
利用环境上下文、设备上下文、用户上下文提高计算系统主动性和智能性。
Based on traditional design model, an application design model of ubiquitous computing is introduced. Service oriented computing and context aware computing was integrated to form this design model.
本文首先从普适计算环境出发,在研究传统应用模型的基础上,提出了普适计算的应用模型,指出这种应用模型是面向服务的计算和察觉上下文计算的结合。
In this paper, we introduce context modeling, an important part of context-aware computing, also analyze and compare the existing models.
本文主要介绍了觉察上下文计算中的重要部分—上下文模型,并对已有的模型进行了分析和比较。
This paper puts forward a formal context model based on ontology, which is suitable for pervasive computing environment.
提出了一个适合普适计算环境的、基于本体的形式化的上下文感知模型。
The concept of context in ubiquitous computing is firstly introduced. In terms of the "where" in context, some issues are argued.
介绍了普适计算中上下文的概念,就上下文中的位置问题进行了探讨。
The context-aware activity computing based on hidden Markov model was proposed to predict the activity of mobile user in a smart space.
为了推理移动用户在智能空间的活动,提出了基于隐马尔科夫模型的上下文感知活动计算。
The semantic relationships between multi-context key words are taken into account and the fuzzy similarity matrix is derived from non-distance computing in this method.
该方法不仅考虑了多背景关键词之间的语义关系,而且通过非距离计算得到模糊相似矩阵。
This kind of "services according to demands" computing environment is called "context-aware computing".
这种“按需服务”的计算环境称为觉察上下文的计算。
The middleware supporting context-aware application is the important platform under the pervasive computing environment.
支持情境感知的中间件是普适计算环境下重要的应用支撑平台。
As an important embodiment of ubiquitous computing, context-aware systems which are becoming a hot spot of research.
上下文感知系统作为普适计算的一种重要体现,正成为当前研究的热点。
The context aware computing provides information and knowledge for each entity to decide what to do, and let the whole ITS to achieve intelligent transporting.
用上下文计算为its中各个实体的行为提供依据,实现智能运输。
A method reducing Cost of Service based on Context-Aware Computing is presented.
提出基于觉察上下文计算的降低服务成本的方法。
This paper introduced wearable computer and wearable computing technology. It mainly analyzed context aware technology of wearable computing and illustrated an application of that.
本文介绍了可穿戴计算机和可穿戴计算技术,重点分析了其中的文境感知技术,并举例讨论了文境感知技术的一种应用实现。
Firstly this paper introduces the current research situation of context-awareness computing briefly.
本文首先对上下文的研究现状进行简要的介绍。
To overcome this problem, the intelligent reminder based on context-aware computing platform is introduced.
最后在智能提醒器的应用中验证了该平台的有效性。
The results show that the stability of the system to ensure the appropriate context for different parameters of magnitude of computing, GPU computing platform performance was better than CPU platform.
测试结果表明,在保证相应的系统稳定性的前提下,针对不同数量级的运算参数,GPU平台在运算性能上明显优于CPU平台。
The results show that the stability of the system to ensure the appropriate context for different parameters of magnitude of computing, GPU computing platform performance was better than CPU platform.
测试结果表明,在保证相应的系统稳定性的前提下,针对不同数量级的运算参数,GPU平台在运算性能上明显优于CPU平台。
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