TY - GEN
T1 - Multiresolution ORKA
T2 - International Conference on Wireless Communications, Networking and Applications (WCNA 2022)
AU - Bossmann, Florian
AU - Wu, Wenze
N1 - Publisher Copyright:
© 2023, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
PY - 2023
Y1 - 2023
N2 - Object recognition and reconstruction is of great interest in many research fields. Detecting pedestrians or cars in traffic cameras or tracking seismic waves in geophysical exploration are only two of many applications. Recently, the authors developed a new method – Object reconstruction using K-approximation (ORKA) – to extract such objects out of given data. In this method a special object model is used where the movement and deformation of the object can be controlled to fit the application. ORKA in its current form is highly dependent on the data resolution. On the one hand, the movement of the object can only be reconstructed on a grid that depends on the data resolution. On the other hand, the runtime increases exponentially with the resolution. Hence, the resolution of the data needs to be in a small range where the reconstruction is accurate enough but the runtime is not too high. In this work, we present a multiresolution approach, where we combine ORKA with a wavelet decomposition of the data. The object is then reconstructed iteratively what drastically reduces the runtime. Moreover, we can increase the data resolution such that the movement reconstruction no longer depends on the original grid. We also give a brief introduction on the original ORKA algorithm. Hence, knowledge of the previous work is not required.
AB - Object recognition and reconstruction is of great interest in many research fields. Detecting pedestrians or cars in traffic cameras or tracking seismic waves in geophysical exploration are only two of many applications. Recently, the authors developed a new method – Object reconstruction using K-approximation (ORKA) – to extract such objects out of given data. In this method a special object model is used where the movement and deformation of the object can be controlled to fit the application. ORKA in its current form is highly dependent on the data resolution. On the one hand, the movement of the object can only be reconstructed on a grid that depends on the data resolution. On the other hand, the runtime increases exponentially with the resolution. Hence, the resolution of the data needs to be in a small range where the reconstruction is accurate enough but the runtime is not too high. In this work, we present a multiresolution approach, where we combine ORKA with a wavelet decomposition of the data. The object is then reconstructed iteratively what drastically reduces the runtime. Moreover, we can increase the data resolution such that the movement reconstruction no longer depends on the original grid. We also give a brief introduction on the original ORKA algorithm. Hence, knowledge of the previous work is not required.
KW - Multiple Measurements
KW - Multiresolution
KW - Object Reconstruction
KW - Sparse Approximation
KW - Wavelet Decomposition
UR - https://www.scopus.com/pages/publications/85172190065
U2 - 10.1007/978-981-99-3951-0_78
DO - 10.1007/978-981-99-3951-0_78
M3 - 会议稿件
AN - SCOPUS:85172190065
SN - 9789819939503
T3 - Lecture Notes in Electrical Engineering
SP - 710
EP - 720
BT - Proceeding of 2022 International Conference on Wireless Communications, Networking and Applications, WCNA 2022
A2 - Qian, Zhihong
A2 - Jabbar, M.A.
A2 - Cheung, Simon K.
A2 - Li, Xiaolong
PB - Springer Science and Business Media Deutschland GmbH
Y2 - 16 December 2022 through 18 December 2022
ER -