Both solutions enable Task 4 to execute correctly and independently of the branching decision in the decision gateway.
两种解决方案都能使Task4在不依赖于decision网关中的分支决策的情况下正确地执行。
However, you can use the data entered in the form in the process, just as business item instance data, to make branching decision based on the actual values.
然而,您可以在流程中使用表单中输入的数据,就像它们是业务项实例数据一样,以基于实际值做出分支决策。
The second was classification (also known as classification tree or decision tree), which can be used to create an actual branching tree to predict the output value of an unknown data point.
第二种技术是分类(即分类树或决策树),用来创建一个实际的分支树来预测某个未知数据点的输出值。
In addition to branching, decision points are supported for conditional routing based on application data.
除了分支以外,基于应用程序数据的条件传送也支持决策点。
However, such a solution should be used with care in models that contain both types of branching, i.e., forks and decisions, to avoid suddenly closing a fork with a merge or a decision with a join.
但是,在同时包含两类分支(即fork和decision)的模型中,使用此类解决方案应十分谨慎,以避免在不经意间用一个join关闭一个fork或用一个merge关闭一个decision。
For alternative branching, an identical pattern results where the fork is replaced by a decision and the join is replaced by a merge.
为了进行可选分支,会产生一个相同的模式,在其中fork被替换为decision,join被替换为merge。
The pattern in Figure 13 presents the correct way to model alternative branching by using a matching decision-merge pair.
图13中的模式展示了使用匹配的decision - merge对建立可选分支模型的正确方法。
The pattern in Figure 13 presents the correct way to model alternative branching by using a matching decision-merge pair.
图13中的模式展示了使用匹配的decision - merge对建立可选分支模型的正确方法。
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