本文给出了2—距离空间中可交换映射序列的几个新的公共不动点定理。
Several new fixed-point theorems of commuting mapping sequences on a 2 - metric space are shown in this paper.
使用近似不动点技术,采用摄动迭代方法,目的是证明利普希茨伪紧缩映射序列的收敛性。
The object is to introduce a perturbed iteration method for proving the convergence of sequence of Lipschitzian pseudocontractive mapping using approximate fixed point technique.
本文首先给出了集值映射序列的极限映射的上半连续性与J -凸性;其次解决了集值映射序列的极限映射的锥次微分的存在性。
In this paper, we have discussed some problems about the upper semi-continuity and J-convexity of the limit mapping of set-valued mapping sequence.
首先要将数据结构和序列映射到业务级别的概念。
You start by mapping existing data structures and sequences to business-level concepts.
排序序列将代码点映射至每个字符在已排序序列中的期望位置。
The collating sequence maps the code point to the desired position of each character in a sorted sequence.
键盘映射、击键序列以及音译输入法都可以使用m17n数据库来表示。
Key mappings, key sequences, and transliteration input methods can all be expressed in the m17n database.
序列CURRVAL和NEXTVAL关键词被直接映射到DB 2数据库产品。
Sequences CURRVAL and NEXTVAL keywords are mapped directly to DB2 database product.
Unicode由略多于1百万个数字的线性序列组成,每一个数字都可以映射到成为脚本的一部分的某一个字符。
Unicode consists of a linear sequence of a little more than 1 million Numbers, each of which is able to map to a character that is a part of a script.
这个例子依赖于映射不常用的字符,如左尖引号(«,通常编码为 «),并假设这样的字符不出现在结果序列中。
This example relies on mapping infrequently used characters such as a left angled quote («, often coded as «) and assumes that such characters do not appear in the resulting sequence otherwise.
WebSphereTX首先遍历功能性映射调用的第一个参数所指定的值序列,从而生成重复的OutputElement实例。
The repeating instances of the OutputElement are generated by WebSphere TX first iterating over the series of values described by the first argument in the functional map call.
类型可以是基元,如字符串(SDO称它们为“数据类型”,并定义了一个映射到php类型的集合)或复杂类型来代表序列或地址(SDO称它们为数据对象类型)。
Types can be primitives, such as string (SDO calls these "data types" and defines a set mapped to PHP types), or complex types to represent an order or address (SDO calls these data object types).
相反,它提到每个实现都可以决定是否以及如何映射这个类、还有这个类的实例是如何序列化到XML和从XML序列化来。
Instead, it mentions that each implementation can decide if and how this class is mapped and how instances of the class are serialized to and from XML.
最后,您需要声明类型映射来引用您定制的(反)序列化器。
Lastly, you need to declare the type mappings to reference your custom (DE) serializer.
显然,只有当您已经在类型映射注册表中注册了所有组件的序列化器时,这才有效。
Obviously, this will only work if you've registered the serializers for all components in the type mapping registry.
接下来根(反)序列化器将在类型映射注册表中查询下一个要调用的常规(反)序列化器。
The root (DE) serializer in turn will query the type mapping registry for the next normal (DE) serializer to be called.
这些字段的值可以是字符串、布尔值、数字、日期、顺序列表或关联映射。
Those field values may be strings, Boolean values, Numbers, dates, ordered lists, or associative maps.
要从各种关系数据库集成XML数据,可以将在序列化的xml字符串数据之上使用视图作为一种机制来映射远程和本地XML数据。
To integrate XML data from various relational databases, you can use views over serialized XML string data as a mechanism for mapping between remote and local XML data.
严格的讲,XMI对从“对象管理集团 (OMG)元对象设施(MOF)”模型到大量的装入器、保存器以及模式的映射进行序列化。
Strictly speaking, XMI functions to serialize mappings from Object Management Group (OMG) Meta Object Facility (MOF) models to a variety of loaders, savers, and schemas.
结果应该是一个字典,从前缀到一个可能的后缀组成的序列的映射。
The result should be a dictionary that maps from prefixes to a collection of possible suffixes.
对于每个参数,都查询类型映射注册表并在返回的序列化器上随后调用marshall方法。
For each parameter, the type mapping registry is queried and the Marshall method subsequently called on the returned serializer.
现在,您已对WebSphere中类型如何进行映射和序列化有了大致的了解,接下来我们将介绍如何对您的Web服务使用自定义数据绑定。
Now that you have a high-level understanding of how types are mapped and serialized within WebSphere, let's take a look at what you need to do to your Web service to make use of Custom Data Binding.
在反序列的时候如果自定义类在FlashPlayer中,你也可以将先前序列化的对象映射回自定义类实例。
You can also map serialized objects back to custom class instances provided the custom class is in the Flash Player when things are deserialized.
还有映射,它可以进行方便的序列化和转换操作。
Or maps, capable of convenient serialization and conversion.
由混沌映射驱动得到的伪随机二进制序列应确保有足够的比特安全性。
Sufficient bit security is necessary for pseudorandom binary sequences drived by chaotic maps.
结构化的消息格式只代表了众多处理结构化数据方法中的少数几种(只有映射表、序列化对象和数据元素流是直接表示的)。
The structured message formats represent only a handful of the many ways to structure data (only a map, a serialized object, and a stream of data elements are directly represented).
提出一种基于四维混沌映射产生混沌二值序列的改进算法。
An improved chaotic binary sequences algorithm based on one four-dimension chaotic map is proposed.
将时序数据有效地映射到特征空间是时间序列相似性搜索的一个关键问题。
Mapping the raw time series data to a modality space effectively is a critical problem in time series similarity search.
提出了一种基于一维无限折叠混沌映射的直接扩谱序列构造方法。
This paper propose one method of constructing direct spreading sequences based on one -dimensional chaotic maps with infinite collapse.
编码或解码操作失败的常见原因是基础编码类没有提供字符和等效字节序列之间的映射。
A common reason for an encoding or decoding operation to fail is if the underlying encoding class does not provide a mapping between a character and an equivalent byte sequence.
最后,用切比雪夫映射进行了实验研究。结果表明:理论分析与实验结果是一致的,该序列具有良好的性能。
Finally, we used Chebychev map for our experimental research, the results show that: experiments results are accordant with our theoretic analysis and those sequences have excellent properties.
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