A high-speed rail scene sensing method based on deep learning and structural information
A technology of structural information and scene perception, which is applied in the field of rail component detection, can solve problems such as high labor intensity, separate perception of fasteners, rails and sleepers, and harsh working environments, so as to ensure accuracy, improve detection accuracy and speed, and strengthen The effect of robustness
Pending Publication Date: 2019-06-28
SOUTHWEST JIAOTONG UNIV
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[0003] The maintenance and inspection of rail equipment is a concern in railway transportation technology, and it is also one of the projects with the most investment in research and development at the present stage; Among them, the high-speed rail track is mainly composed of fasteners, rails, sleepers, track slabs, etc. Traditional inspection methods It is completed by experienced road patrol workers. Workers regularly inspect along the line to find and report abnormal parts; manual inspection is labor-intensive and the working environment is very harsh. Vehicles driving on the line also pose a potential threat to the personal safety of inspection employees; traditional The railway inspection method has been diffi
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[0055] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.
[0056] like Figure 13 As shown, a high-speed rail scene perception method based on deep learning and structural information, including the following:
[0057] Step 1: Obtain the track image, divide it into a training set and a test set, and mark the images in the training set to form a data set;
[0058] Step 2: Build an SSD network model and construct a loss function;
[0059]Step 3: Using the data set formed in step 1, iteratively train the network obtained in step 2 to obtain the training model; use the parameter information of the original SSD model as the initialization parameter of the new model to be trained; pass the Jaccard coefficient during the training process Calculate the similarity between each prior frame and the real frame, if the similarity is greater than the set threshold, it will be included in the candidate list, otherw...
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The invention discloses a high-speed rail scene perception method based on deep learning and structure information, and the method comprises the following steps: 1, obtaining track images, dividing the track images into a training set and a test set, and carrying out the marking of the images in the training set, so as to form a data set; 2, constructing an SSD network model, and constructing a loss function; 3, performing iterative training on the network obtained in the step 2 by adopting the data set formed in the step 1 to obtain a training model; 4, inputting a video needing to be detected and perceived into the training model obtained in the step 3 by frames, extracting features to obtain positions and category information of the fasteners and the shoulders, and distinguishing the turnout from the common rail according to the positions and the category information of the fasteners and the shoulders; 5,clustering position information of the positioning results in the step 4, and completing perception of the steel rail and the sleeper; rail parts in a turnout area can be detected and semantically segmented, the detection precision is high, and the detection speed is high.
Description
technical field [0001] The invention relates to an image processing-based track component detection method, in particular to a high-speed rail scene perception method based on deep learning and structural information. Background technique [0002] As an important support for social and economic development and an indispensable means of transportation in people's lives, railway transportation plays a pivotal role in the development of the whole society; especially for factors such as my country's vast territory, large population flow, and uneven distribution of resources; Railway transportation occupies an absolute advantage in all kinds of public transportation due to its advantages of large transportation capacity, low transportation cost, and relatively small area; The operating mileage will reach 30,000 kilometers, and the high-speed railway network will cover more than 80% of the big cities. [0003] The maintenance and testing of rail equipment is a concern in railway tr...
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Login to view more IPC IPC(8): G06K9/62G06N3/04G06N3/08
Inventor 李兆洋罗建桥李柏林程洋
Owner SOUTHWEST JIAOTONG UNIV
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