Abstract
AbstractExisting spatial feature recognition and layout methods primarily identify spatial components manually, which is time‐consuming and inefficient, and the constraint relationship between objects in space can be difficult to observe. Consequently, this study introduces an advanced spatial feature recognition and layout methodology employing enhanced CenterNet and LSTM frameworks, which is bifurcated into two major components—first, HCenterNet‐based feature recognition enhances feature extraction through an attention mechanism and feature fusion technology, refining the identification of small targets within complex background areas; second, a GA‐BiLSTM‐based spatial layout model uses a bidirectional LSTM network optimized with a genetic algorithm (GA), aimed at fine‐tuning the network parameters to yield more accurate spatial layouts. Experiments verified that compared with the CenterNet model, the recognition performance of the proposed HCenterNet‐DIoU model improved by 7.44%. Moreover, the GA‐BiLSTM model improved the overall layout accuracy by 10.08% compared with the LSTM model. Time cost analysis also confirmed that the proposed model could meet the real‐time requirements.
Published Version
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