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370 results on '"Gao, Guangjun"'

1. FsaNet: Frequency Self-attention for Semantic Segmentation

Author

Zhang, Fengyu, Panahi, Ashkan, and Gao, Guangjun

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Considering the spectral properties of images, we propose a new self-attention mechanism with highly reduced computational complexity, up to a linear rate. To better preserve edges while promoting similarity within objects, we propose individualized processes over different frequency bands. In particular, we study a case where the process is merely over low-frequency components. By ablation study, we show that low frequency self-attention can achieve very close or better performance relative to full frequency even without retraining the network. Accordingly, we design and embed novel plug-and-play modules to the head of a CNN network that we refer to as FsaNet. The frequency self-attention 1) requires only a few low frequency coefficients as input, 2) can be mathematically equivalent to spatial domain self-attention with linear structures, 3) simplifies token mapping ($1\times1$ convolution) stage and token mixing stage simultaneously. We show that frequency self-attention requires $87.29\% \sim 90.04\%$ less memory, $96.13\% \sim 98.07\%$ less FLOPs, and $97.56\% \sim 98.18\%$ in run time than the regular self-attention. Compared to other ResNet101-based self-attention networks, \ourM achieves a new \sArt result ($83.0\%$ mIoU) on Cityscape test dataset and competitive results on ADE20k and VOCaug. \ourM can also enhance MASK R-CNN for instance segmentation on COCO. In addition, utilizing the proposed module, Segformer can be boosted on a series of models with different scales, and Segformer-B5 can be improved even without retraining. Code is accessible at \url{https://github.com/zfy-csu/FsaNet

Published
2022

30. Design and analysis of train anti-derailment device based on full-scale derailment tests.

Author

Zhuo, Tianyu, Li, Jialin, Gao, Guangjun, Li, Jian, and Guan, Weiyuan

Subjects
RAILROAD safety measures, ACCELERATION (Mechanics), DYNAMIC simulation, RAILROAD accidents, SIMULATION methods & models, AXLES, BOGIES (Vehicles)
Abstract

This paper proposes an anti-derailment device that can be installed on the bogie to minimize the loss incurred by derailment accidents. The device is designed to create a stable four-point contact between the bogie and the rail once the wheel climbs the rail and derails, thereby preventing derailment. Full-scale derailment tests have been carried out to demonstrate the efficacy of the anti-derailment device. During the bogie test, the anti-derailment device successfully reduced the lateral acceleration at the derailed wheel axle box by 18.1%, effectively preventing wheel derailment. Since vehicle derailment tests are destructive, simulation models were used to compare the safety improvement of the anti-derailment device under derailment conditions, which showed a reduction of lateral acceleration at the derailed wheel axle box by 35.9%. Compared with the normal vehicle, the critical operation speeds of the vehicle are amplified greatly by the anti-derailment device. The results demonstrate that the anti-derailment device is a practical solution that effectively mitigates train derailment accidents caused by wheel derailment. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Validation of numerical method of unsteady Reynolds-averaged Navier–Stokes coupled with discrete phase model and optimization for the snow-resistance performance of bogies of a high-speed train.

Author

Wang, Jiabin, Liu, Haoyuan, Liu, Cao, Shang, Wenfei, Gao, Guangjun, and Krajnović, Sinisa

Subjects
WIND tunnel testing, RAILROAD safety measures, SNOW accumulation, TWO-phase flow, TRANSPORTATION safety measures, HIGH speed trains
Abstract

This paper presents an investigation aimed at enhancing the snow resistance of bogies in a three-car grouped alpine high-speed train (HST) that operates in a snowy region. The study employs a combination of the unsteady Reynolds-averaged Navier–Stokes model, coupled with the discrete phase model. This modeling approach has been validated through wind tunnel tests, including flow field tests, two-phase flow tests, and snow-ice tests. The study comprehensively compares the characteristics of the wind-snow flow, spatial snow concentration, and the distribution of snow on the train's underbody between two scenarios: the original train's underbody structure and the multifactor collaborative optimization scheme (MCOS). The results indicate that the MCOS case facilitates the escape of snow particles from the bogie cavities by weakening the upward and reverse flows. Furthermore, the MCOS case significantly reduces the concentration of snow particles around the heat-producing elements and decreases the accumulation of snow on both the lower and upper surfaces of the bogies. As a result, it reduces snow accumulation on the bogies by 50.6%, 56.4%, 60.8%, and 62.4% at train speeds of 200, 250, 300, and 350 km/h, respectively. In summary, this research provides valuable insights for improving the snow resistance of HSTs operating in snowy regions, with potential applications in enhancing railway transportation safety and efficiency. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Impact of bogie fairing configuration on the aerodynamic performance of high-speed train under crosswind.

Author

Shang, Wenfei, Gao, Guangjun, Miao, Xiujuan, Zhang, Jie, and Wang, Jiabin

Subjects
*WIND tunnels, *FLOW velocity, *DRAG coefficient, *CROSSWINDS, *HIGH speed trains, *EDDIES
Abstract

In this paper, the unsteady aerodynamic characteristics of a three-car grouped high-speed train (HST) with different bogie fairing configurations under the crosswind are studied using improved delayed detached eddy simulation (IDDES) at Re = 1.85 × 106. The numerical method results are validated against the previous wind tunnel experiments. There are three cases with original half-fairing configuration (HFC), non-fairing configuration (NFC) and full-fairing configuration (FFC), respectively. The numerical results show that the bogie fairing configuration has significant effects. Compared to the HFC case, the drag force coefficients of the head, middle and tail cars with NFC increase by 53.13%, 14.87% and 27.04%, and corresponding parts of the FFC case decrease by 49.98%, 24.40% and 12.41%, respectively. The FFC case can also optimize the pressure distribution on the windward and leeward sides of the HST, and the flow structure and vertex distribution around the car body are also optimized. In addition, the increasing encirclement of the fairing configurations reduces the maximum lateral flow velocity inside the bogie cavities by 70% for HFC and 50% for FFC compared to the NFC. Overall, the FFC presents better aerodynamic performance than the NFC and HFC cases under crosswind, which is recommended for the design of the HST. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Derailment of freight train under frontal oblique collision: Analysis, prevention and test.

Author

Zhuo, Tianyu, Guan, Weiyu, Yu, Yao, and Gao, Guangjun

Subjects
RAILROAD trains, ABILITY testing, RAILROAD accidents, BOGIES (Vehicles)
Abstract

This paper presents a method for simulating multi-rigid-body collisions to investigate the performance of oblique collisions and motion after derailment in freight trains. Oblique collisions between trains and obstacles can pose serious safety risks, and lateral displacement of the wheels and wheel rise are identified as root causes of derailment. The study demonstrates that an anti-derailment device can significantly improve the safety zone of the derailment boundary, expanding it to twice its original size, thereby protecting the train from derailment in case of frontal oblique collisions. When the train collides with a 15-ton obstacle at an angle of 15° at 40 km/h, under the action of the anti-derailment device, the derailment coefficient decreased from 3.61 to 0.93 and the wheel rise decreased from 72.7 mm to 27 mm. Passing ability tests and derailment tests of the K6 bogie equipped with the device have been conducted to confirm that the device does not affect the normal operation of the freight train and evaluate the restraining effect of the device on the bogie during derailment. [ABSTRACT FROM AUTHOR]

Published
2024
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45. An improved delayed detached-eddy study on the aerodynamic braking technique based on blunting the streamlined section of the high-speed train.

Author

Wang, Jiabin, Zhang, Puyang, Shang, Wenfei, Liu, Cao, Su, Xinchao, Zhang, Jie, and Gao, Guangjun

Subjects
WIND tunnels, BOUNDARY layer (Aerodynamics), REYNOLDS number, TURBULENT flow, TURBULENCE
Abstract

This paper utilizes the improved delayed detached-eddy simulation method to investigate an aerodynamic braking technique involving blunting the streamlined portion of a high-speed train (HST) at Re = 5.0 × 105. The accuracy of the numerical simulation method was validated through reduced-scale wind tunnel experiments at the same Reynolds number level. The study compares aerodynamic drag, pressure distribution, boundary layer, and wake flow characteristics between the original configuration and the braking configuration of the HST. Additionally, the impact of aerodynamic braking plates on the flow characteristics around the key components of the HST has also been discussed. The results indicate a significant increase in the pressure drag experienced by the HST with the application of aerodynamic braking plates to its streamlined sections, while there is a slight decrease in viscous drag. This leads to a remarkable 235.4% rise in the overall aerodynamic drag of the entire HST. The aerodynamic braking plates also have a substantial impact on the turbulent wake flow topology, significantly increasing turbulence levels in the near-wake region. Furthermore, the implementation of aerodynamic braking plates may affect pantograph current collection by significantly altering stream-wise and vertical velocity components, notably increasing velocity fluctuation around the contact position between the pantograph and power supply lines. [ABSTRACT FROM AUTHOR]

Published
2024
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