使用3D激光点云数据的对象检测和语义分割需要昂贵的注释。我们提出了一种数据增强方法，该方法多次利用已经注释的数据。我们提出了一个重用真实数据的增强框架，自动在场景中找到合适的位置要增加，并明确地处理遮挡。由于使用真实数据，新插入的物体在增强中的扫描点维持了激光雷达的物理特征，例如强度和射线表。该管道证明在训练3D对象检测和语义分割的最佳模型中具有竞争力。新的增强为稀有和基本类别提供了显着的性能增长，尤其是在Kitti对象检测中“硬”行人级的平均精度增益为6.65％，或者2.14表示在Semantickitti细分挑战中获得的iOU在艺术状态下的增益。

We consider partially observable Markov decision processes (POMDPs) modeling an agent that needs a supply of a certain resource (e.g., electricity stored in batteries) to operate correctly. The resource is consumed by agent's actions and can be replenished only in certain states. The agent aims to minimize the expected cost of reaching some goal while preventing resource exhaustion, a problem we call \emph{resource-constrained goal optimization} (RSGO). We take a two-step approach to the RSGO problem. First, using formal methods techniques, we design an algorithm computing a \emph{shield} for a given scenario: a procedure that observes the agent and prevents it from using actions that might eventually lead to resource exhaustion. Second, we augment the POMCP heuristic search algorithm for POMDP planning with our shields to obtain an algorithm solving the RSGO problem. We implement our algorithm and present experiments showing its applicability to benchmarks from the literature.