现在让我们再次看看从SystemA通过集成层到System B的数据流。
Now let's look at the data flow again from System a to B through the integration layer.
你可以把通道想象成两个远程设备的L2CAP层之间的数据流的逻辑形式。
You can think of a channel as a logical representation of the data flow between the L2CAP layers in remote devices.
我们此处给出的案例的情况适用于使用集成层进行数据流控制和服务协调的SOA,可提供要集成的系统的必要分离。
The case we have here fits in a SOA using an integration layer for data flow control and service orchestration, which provides the necessary de-coupling of systems to be integrated.
获得的结果可为包装层各应用过程源包长度的确定以及传送层数据流的分析和数据延时分析提供参考。
These results might help to analyze data stream and data delay in transfer layer, and determine the proper packet length to achieve high system performance.
获得的结果可为包装层各应用过程源包长度的确定以及传送层数据流的分析和数据延时分析提供参考。
These results might help to analyze data stream and data delay in transfer layer, and determine the proper packet length to achieve high system performance.
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