Qin Ran scite author profile

ABSTRACT:There is a great demand for studying the changes of buildings over time. The current trend for building change detection combines the orthophoto and DSM (Digital Surface Models). The pixel-based change detection methods are very sensitive to the quality of the images and DSMs, while the object-based methods are more robust towards these problems. In this paper, we propose a supervised method for building change detection. After a segment-based SVM (Support Vector Machine) classification with features extracted from the orthophoto and DSM, we focus on the detection of the building changes of different periods by measuring their height and texture differences, as well as their shapes. A decision tree analysis is used to assess the probability of change for each building segment and the traffic lighting system is used to indicate the status "change", "non-change" and "uncertain change" for building segments. The proposed method is applied to scanned aerial photos of the city of Zurich in 2002 and 2007, and the results have demonstrated that our method is able to achieve high detection accuracy.

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MRDet: A Multi-Head Network for Accurate Oriented Object Detection in Aerial Images

Ran¹,

Liu²,

Gao³

et al. 2020

Preprint

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Objects in aerial images usually have arbitrary orientations and are densely located over the ground, making them extremely challenge to be detected. Many of recent developed methods attempt to solve these issues by estimating an extra orientation parameter and placing dense anchors, which will result in high model complexity and computational costs. In this paper, we propose an arbitrary-oriented region proposal network (AO-RPN) to generate oriented proposals transformed from horizontal anchors. The AO-RPN is very efficient with only a few amounts of parameters increase than the original RPN. Furthermore, to obtain accurate bounding boxes, we decouple detection task into multiple subtasks and propose a multi-head network to accomplish them. Each head is specially designed to learn the features optimal for the corresponding task, which allows our network to detect objects accurately. We name it MRDet short for Multi-head Rotated object Detector for convenience. We test the proposed MRDet on two challenging benchmarks, i.e., DOTA and HRSC2016, and compare it with several state-of-theart methods. Our method achieves very promising results which clearly demonstrate its effectiveness.

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Edge information extraction algorithm for CT cerebrovascular

Ran¹

2010

JOURNAL OF ELECTRONIC MEASUREMENT AND INSTRUMENT

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Estimating Redundancy-Reliability of CNNs Based on Strip-Median Attributes

Xiao

Yang

Long

et al. 2023

IEEE Trans. VLSI Syst.

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Qin Ran

MRDet: A Multihead Network for Accurate Rotated Object Detection in Aerial Images

A supervised method for object-based 3D building change detection on aerial stereo images

MRDet: A Multi-Head Network for Accurate Oriented Object Detection in Aerial Images

Edge information extraction algorithm for CT cerebrovascular

Estimating Redundancy-Reliability of CNNs Based on Strip-Median Attributes

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