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    • 3. 发明授权
    • Method for exchanging messages between entities on a network comprising an actor attribute and a mandatory attribute in the header data structure
    • 用于在网络上的实体之间交换消息的方法,包括头部数据结构中的actor属性和强制属性
    • US07496682B2
    • 2009-02-24
    • US11426581
    • 2006-06-26
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. ThatteHenrik F. NielsenRobert George Atkinson
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. ThatteHenrik F. NielsenRobert George Atkinson
    • G06F15/16G06F15/173
    • G06F17/30896G06F9/547H04L67/02H04L69/22
    • Using a message exchanger (“message exchanger”), data messages are exchanged between entities in a decentralized, distributed, potentially heterogeneous, network environment. The message exchanger employs XML (extensible Markup Language). To accomplish this, the entities on both ends of the message exchange understand, identify, and parse the message format. The message exchanger defines such a mechanism. Data messages are broken down into two portions—one portion (the body) is intended from an ultimate destination and the other portion (the header) is intended for intermediate destination and/or the ultimate destination. The body may be defined so that it must be understood by the ultimate destination. The header may be defined so that it must be understood or changed. Regardless, the data in the body is delivered intact to the ultimate destination. The message exchanger defines a message envelope exchange format in XML over a transport protocol, such as HTTP (HyperText Transport Protocol). This format allows for the execution of RPC (Remote Procedure Call) over XML, but it can be used for any message exchange over a network.
    • 使用消息交换器(“消息交换器”),在分散的,分布式的,潜在的异构网络环境中的实体之间交换数据消息。 消息交换机采用XML(可扩展标记语言)。 为了实现这一点,消息交换两端的实体理解,识别和解析消息格式。 消息交换机定义了这样的机制。 数据消息分为两部分 - 一部分(身体)来自最终目的地,而另一部分(标题)用于中间目的地和/或最终目的地。 身体可以被定义为使其必须被最终目的地理解。 标题可以被定义为必须被理解或改变。 无论如何,身体中的数据完整地传送到终极目的地。 消息交换器通过传输协议(例如HTTP(超文本传输​​协议))在XML中定义消息包络交换格式。 该格式允许通过XML执行RPC(远程过程调用),但它可以用于通过网络进行的任何消息交换。
    • 4. 发明授权
    • Object persister
    • 对象持续
    • US07278095B2
    • 2007-10-02
    • US10893731
    • 2004-07-16
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. Thatte
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. Thatte
    • G06F15/00
    • G06F9/546G06F9/4493G06F9/465
    • Here is described an implementation of an object persister, which serializes an object to preserve the object's data structure and its current data. The serialized object is encoded using XML and inserted within a message. That message is transmitted to an entity over a network. Such a transmission is performed using standard Internet protocols, such as HTML. Upon receiving the serialed object, the receiving entity deserializes the object to use it. Rather than include copies of referenced objects within the serialized object, the object persister includes references to those objects. This avoids redundant inclusion of the same object and potentially infinite inclusion of the object itself that is being serialized.
    • 这里描述了一个对象持久化的实现,它将序列化对象以保留对象的数据结构及其当前数据。 序列化对象使用XML编码并插入到消息中。 该消息通过网络发送到实体。 这样的传输是使用诸如HTML之类的标准因特网协议执行的。 接收实体接收到序列化对象后,反序列化对象即可使用。 对象持久化不是包含引用对象在序列化对象中的副本,而是包含对这些对象的引用。 这样可以避免同一个对象的冗余包含,并且可能无限地包含被序列化的对象本身。
    • 5. 发明授权
    • Method and system for exchanging messages between entities on a network comprising an actor attribute and a mandatory attribute in the header data structure
    • 用于在网络上的实体之间交换消息的方法和系统,包括头部数据结构中的actor属性和强制属性
    • US07069335B1
    • 2006-06-27
    • US09636003
    • 2000-08-09
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. ThatteHenrik F. NeilsenRobert George Atkinson
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. ThatteHenrik F. NeilsenRobert George Atkinson
    • G06F15/16G06F15/173
    • G06F17/30896G06F9/547H04L67/02H04L69/22
    • Using a message exchanger (“message exchanger”), data messages are exchanged between entities in a decentralized, distributed, potentially heterogeneous, network environment. The message exchanger employs XML (extensible Markup Language). To accomplish this, the entities on both ends of the message exchange understand, identify, and parse the message format. The message exchanger defines such a mechanism. Data messages are broken down into two portions—one portion (the body) is intended from an ultimate destination and the other portion (the header) is intended for intermediate destination and/or the ultimate destination. The body may be defined so that it must be understood by the ultimate destination. The header may be defined so that it must be understood or changed. Regardless, the data in the body is delivered intact to the ultimate destination. The message exchanger defines a message envelope exchange format in XML over a transport protocol, such as HTTP (HyperText Transport Protocol). This format allows for the execution of RPC (Remote Procedure Call) over XML, but it can be used for any message exchange over a network.
    • 使用消息交换器(“消息交换器”),在分散的,分布式的,潜在的异构网络环境中的实体之间交换数据消息。 消息交换机采用XML(可扩展标记语言)。 为了实现这一点,消息交换两端的实体理解,识别和解析消息格式。 消息交换机定义了这样的机制。 数据消息分为两部分 - 一部分(身体)来自最终目的地,而另一部分(标题)用于中间目的地和/或最终目的地。 身体可以被定义为使其必须被最终目的地理解。 标题可以被定义为必须被理解或改变。 无论如何,身体中的数据完整地传送到终极目的地。 消息交换器通过传输协议(例如HTTP(超文本传输​​协议))在XML中定义消息包络交换格式。 该格式允许通过XML执行RPC(远程过程调用),但它可以用于通过网络进行的任何消息交换。
    • 6. 发明授权
    • Object persister
    • 对象持续
    • US07281207B2
    • 2007-10-09
    • US10892744
    • 2004-07-16
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. Thatte
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. Thatte
    • G06F15/00
    • G06F9/546G06F9/4493G06F9/465
    • Herein is described an implementation of an object persister, which serializes an object to preserve the object's data structure and its current data. The serialized object is encoded using XML and inserted within a message. That message is transmitted to an entity over a network. Such a transmission is performed using standard Internet protocols, such as HTML. Upon receiving the serialized object, the receiving entity deserializes the object to use it. Rather than include copies of referenced objects within the serialized object, the object persister includes references to those objects. This avoids redundant inclusion of the same object and potentially infinite inclusion of the object itself that is being serialized.
    • 这里描述了对象持久化的实现,其将对象序列化以保留对象的数据结构及其当前数据。 序列化对象使用XML编码并插入到消息中。 该消息通过网络发送到实体。 这样的传输是使用诸如HTML之类的标准因特网协议执行的。 在接收到序列化对象后,接收实体反序列化对象使用它。 对象持久化不是包含引用对象在序列化对象中的副本,而是包含对这些对象的引用。 这样可以避免同一个对象的冗余包含,并且可能无限地包含正在被序列化的对象本身。
    • 7. 发明授权
    • Object persister
    • 对象持续
    • US07149965B1
    • 2006-12-12
    • US09635830
    • 2000-08-09
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. Thatte
    • Andrew J. LaymanGopal Krishna R. KakivayaSatish R. Thatte
    • G06F15/00
    • G06F9/546G06F9/4493G06F9/465
    • The object persister serializes an object to preserve the object's data structure and its current data. The serialized object is encoded using XML and inserted within a message. That message is transmitted to an entity over a network. Such a transmission is performed using standard Internet protocols, such as HTML. Upon receiving the serialized object, the receiving entity deserializes the object to use it. Rather than include copies of referenced objects within the serialized object, the object persister includes references to those objects. This avoids redundant inclusion of the same object and potentially infinite inclusion of the object itself that is being serialized.
    • 对象持久化序列化对象以保留对象的数据结构及其当前数据。 序列化对象使用XML编码并插入到消息中。 该消息通过网络发送到实体。 这样的传输是使用诸如HTML之类的标准因特网协议执行的。 在接收到序列化对象后,接收实体反序列化对象使用它。 对象持久化不是包含引用对象在序列化对象中的副本,而是包含对这些对象的引用。 这样可以避免同一个对象的冗余包含,并且可能无限地包含被序列化的对象本身。