A multi-layer discriminative framework for parking space detection

In this paper, we proposed a new multi-layer discriminative framework for vacant parking space detection. From bottom to top, the framework consists of an image feature extraction layer, a patch classification layer, a weighted combination layer, and a status inference layer. In the feature extraction layer, the framework extracts lighting-invariant features to relieve the effects from lighting and shadow. In the patch classification layer, image patches are selected. In order To overcome perspective distortion, each patch was normalized. For different patch, we trained classifiers to recognize the occlusion patterns, which are treated as the middle-level feature of the parking status. In the weighted combination layer, three spaces are grouped as a unit to easily handle inter-object occlusion. Based on the middle-level features, a boosted space classifier was trained to determine the local status of a 3-space unit. In the status inference layer, we regarded these local status decisions as high-level evidences and inferred the final status of the parking lot. The results in an outdoor parking lot show our system can well handle inter-object occlusion and achieve robust vacant space detection under many environmental variations. A real-time system was also implemented to demonstrate its computing efficiency.

[1]  Kuo-Chin Fan,et al.  Vehicle Detection Using Normalized Color and Edge Map , 2007, IEEE Transactions on Image Processing.

[2]  Antonio Criminisi,et al.  TextonBoost for Image Understanding: Multi-Class Object Recognition and Segmentation by Jointly Modeling Texture, Layout, and Context , 2007, International Journal of Computer Vision.

[3]  Nicholas True Vacant Parking Space Detection in Static , 2007 .

[4]  Wang Lixia,et al.  A Method of Parking Space Detection Based on Image Segmentation and LBP , 2012, 2012 Fourth International Conference on Multimedia Information Networking and Security.

[5]  Avinash C. Kak,et al.  PCA versus LDA , 2001, IEEE Trans. Pattern Anal. Mach. Intell..

[6]  Tsuhan Chen,et al.  A Bayesian hierarchical detection framework for parking space detection , 2008, 2008 IEEE International Conference on Acoustics, Speech and Signal Processing.

[7]  Harish Bhaskar,et al.  Rectangular Empty Parking Space Detection using SIFT based Classification , 2011, VISAPP.

[8]  Luiz Eduardo Soares de Oliveira,et al.  Parking Space Detection Using Textural Descriptors , 2013, 2013 IEEE International Conference on Systems, Man, and Cybernetics.

[9]  Robert P. Loce,et al.  Parking lot occupancy determination from lamp-post camera images , 2013, 16th International IEEE Conference on Intelligent Transportation Systems (ITSC 2013).

[10]  H. Ichihashi,et al.  Improvement in the performance of camera based vehicle detector for parking lot , 2010, International Conference on Fuzzy Systems.

[11]  Olga Veksler,et al.  Fast Approximate Energy Minimization via Graph Cuts , 2001, IEEE Trans. Pattern Anal. Mach. Intell..

[12]  Sheng-Jyh Wang,et al.  A Hierarchical Bayesian Generation Framework for Vacant Parking Space Detection , 2010, IEEE Transactions on Circuits and Systems for Video Technology.

[13]  R.J. Lopez Sastre,et al.  Computer Algebra Algorithms Applied to Computer Vision in a Parking Management System , 2007, 2007 IEEE International Symposium on Industrial Electronics.

[14]  Qi Wu,et al.  Robust Parking Space Detection Considering Inter-Space Correlation , 2007, 2007 IEEE International Conference on Multimedia and Expo.

[15]  Matti Pietikäinen,et al.  Face Description with Local Binary Patterns: Application to Face Recognition , 2006, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[16]  Bill Triggs,et al.  Histograms of oriented gradients for human detection , 2005, 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05).