Haolin Liang scite author profile

The accurate mapping of urban housing prices at a fine scale is essential to policymaking and urban studies, such as adjusting economic factors and determining reasonable levels of residential subsidies. Previous studies focus mainly on housing price analysis at a macro scale, without fine-scale study due to a lack of available data and effective models. By integrating a convolutional neural network for united mining (UMCNN) and random forest (RF), this study proposes an effective deep-learning-based framework for fusing multi-source geospatial data, including high spatial resolution (HSR) remotely sensed imagery and several types of social media data, and maps urban hous-In the last decade, the contradiction between the housing demand from residents and high housing prices has become a top issue in the economy and livelihood of China, especially in metropolitan cities such as Beijing, Shanghai, and

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A Novel Calibration Board and Experiments for 3D LiDAR and Camera Calibration

Cai

Weisong

Chen

et al. 2020

Sensors

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Aiming at the problems of feature point calibration method of 3D light detection and ranging (LiDAR) and camera calibration that are calibration boards in various forms, incomplete information extraction methods and large calibration errors, a novel calibration board with local gradient depth information and main plane square corner information (BWDC) was designed. In addition, the "three-step fitting interpolation method" was proposed to select feature points and obtain the corresponding coordinates of feature points in the LiDAR coordinate system and camera pixel coordinate system based on BWDC. Finally, calibration experiments were carried out, and the calibration results were verified by methods such as incremental verification and reprojection error comparison. The calibration results show that using BWDC and the "three-step fitting interpolation method" can solve quite accurate coordinate transformation matrix and intrinsic and external parameters of sensors, which dynamically change within 0.2% in the repeatable experiments. The difference between the experimental value and the actual value in the incremental verification experiment is about 0.5%. The average reprojection error is 1.8312 pixels, and the value changes at different distances do not exceed 0.1 pixels, which also show that the calibration method is accurate and stable.

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Sensing Urban Land-Use Patterns by Integrating Google Tensorflow and Scene-Classification Models

Yao

Liang

Xia

et al. 2017

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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ABSTRACT:With the rapid progress of China's urbanization, research on the automatic detection of land-use patterns in Chinese cities is of substantial importance. Deep learning is an effective method to extract image features. To take advantage of the deep-learning method in detecting urban land-use patterns, we applied a transfer-learning-based remote-sensing image approach to extract and classify features. Using the Google Tensorflow framework, a powerful convolution neural network (CNN) library was created. First, the transferred model was previously trained on ImageNet, one of the largest object-image data sets, to fully develop the model's ability to generate feature vectors of standard remote-sensing land-cover data sets (UC Merced and WHU-SIRI). Then, a random-forest-based classifier was constructed and trained on these generated vectors to classify the actual urban land-use pattern on the scale of traffic analysis zones (TAZs). To avoid the multi-scale effect of remote-sensing imagery, a large random patch (LRP) method was used. The proposed method could efficiently obtain acceptable accuracy (OA = 0.794, Kappa = 0.737) for the study area. In addition, the results show that the proposed method can effectively overcome the multi-scale effect that occurs in urban land-use classification at the irregular land-parcel level. The proposed method can help planners monitor dynamic urban land use and evaluate the impact of urban-planning schemes.

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Estimating The Spatial Resolution of Overhead Imagery Using Convolutional Neural Networks

Liang

Newsam

2019

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Haolin Liang

Classifying urban land use by integrating remote sensing and social media data

Mapping fine‐scale urban housing prices by fusing remotely sensed imagery and social media data

A Novel Calibration Board and Experiments for 3D LiDAR and Camera Calibration

Sensing Urban Land-Use Patterns by Integrating Google Tensorflow and Scene-Classification Models

Estimating The Spatial Resolution of Overhead Imagery Using Convolutional Neural Networks

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