Search

Your search keyword '"Yu, Yugang"' showing total 463 results
Start Over Author "Yu, Yugang"
463 results on '"Yu, Yugang"'

1. An Adaptive Hybrid Genetic and Large Neighborhood Search Approach for Multi-Attribute Vehicle Routing Problems

Author

Liu, Weiting, Luo, Yunqi, and Yu, Yugang

Subjects
Mathematics - Optimization and Control
Abstract

Known for its dynamic utilization of destroy and repair operators, the Adaptive Large Neighborhood Search (ALNS) seeks to unearth high-quality solutions and has thus gained widespread acceptance as a meta-heuristic tool for tackling complex Combinatorial Optimization Problems (COPs). However, challenges arise when applying uniform parameters and acceptance criteria to diverse instances of the same COP, resulting in inconsistent performance outcomes. To address this inherent limitation, we propose the Adaptive Hybrid Genetic Search and Large Neighborhood Search (AHGSLNS), a novel approach designed to adapt ALNS parameters and acceptance criteria to the specific nuances of distinct COP instances. Our evaluation focuses on the Multi-Attribute Vehicle Routing Problem, a classical COP prevalent in real-world semi-automated storage and retrieval robotics systems. Empirical findings showcase that AHGSLNS not only competes effectively with ALNS under varying parameters but also exhibits superior performance in terms of convergence and stability. In alignment with our dedication to research transparency, the implementation of the proposed approach will be made publicly available.

Published
2024

2. Adoption of blockchain considering platform's information sharing and service effort under the cap-and-trade scheme.

Author

Xu, Xiaoping, Chen, Xinyang, Chen, Jiahao, Cheng, T. C. E., Yu, Yugang, and Liu, Samuel Shuai

Subjects
BLOCKCHAINS, MANUFACTURING industries, RESALE, INFORMATION sharing, INFORMATION services
Abstract

We consider a manufacturer and an e-platform where the manufacturer sells products through offline and e-platform channels under the cap-and-trade scheme. The interaction between the two channels produces the cross-channel effect (CCE). This manufacturer cooperates with the e-platform in the agency or reseller mode. In addition, the platform shares its observed data with the manufacturer and the blockchain can achieve traceability and high transparency of these data. We formulate a Stackelberg game to derive the following results: In the agency mode, the optimal service level is independent of (decreases with) CCE without (with) blockchain. CCE positively affects the optimal service level in the reseller mode and the optimal service level has no impact on (increases with) the cap in the agency (reseller) mode. Second, when the platform-enabled power is high (low), the platform is (not) willing to adopt blockchain. Third, coordination of the manufacturer and platform only can be achieved in the agency mode when CCE is low with blockchain. The reseller mode can (cannot) achieve coordination of the two firms with (without) blockchain. We also consider the cases where the manufacturer serves as the leader and the omni-channel strategy is adopted to check the robustness of the coordination results. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

10. Discovery of Ionic Impact Ionization (I3) in Perovskites Triggered by a Single Photon

Author

Xu, Zihan, Yu, Yugang, Niaz, Iftikhar Ahmad, Chen, Yimu, Arya, Shaurya, Lei, Yusheng, Miah, Mohammad Abu Raihan, Zhou, Jiayun, Zhang, Alex Ce, Yan, Lujiang, Xu, Sheng, Nomura, Kenji, and Lo, Yu-Hwa

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

Organic-inorganic metal halide perovskite devices have generated significant interest for LED, photodetector, and solar cell applications due to their attractive optoelectronic properties and substrate-choice flexibility1-4. These devices exhibit slow time-scale response, which have been explained by point defect migration5-6. In this work, we report the discovery of a room temperature intrinsic amplification process in methylammonium lead iodide perovskite (MAPbI3) that can be triggered by few photons, down to a single photon. The electrical properties of the material, by way of photoresponse, are modified by an input energy as small as 0.19 attojoules, the energy of a single photon. These observations cannot be explained by photo-excited electronic band-to-band transitions or prevailing model of photo-excited point defect migration since none of the above can explain the observed macroscopic property change by absorption of single or few photons. The results suggest the existence of an avalanche-like collective motion of iodides and their accumulation near the anode, which we will call ionic impact ionization (I3 mechanism). The proposed I3 process is the ionic analog of the electronic impact ionization, and has been considered impossible before because conventionally it takes far more energy to move ions out of their equilibrium position than electrons. We have performed first principle calculations to show that in MAPbI3 the activation energy for the I3 mechanism is appreciably lower than the literature value of the activation energy for the electronic impact ionization. The discovery of I3 process in perovskite material opens up possibilities for new classes of devices for photonic and electronic applications.

Published
2019

32. Coordination of a supply chain with an online platform considering green technology in the blockchain era.

Author

Xu, Xiaoping, Zhang, Mengying, Dou, Guowei, and Yu, Yugang

Subjects
BLOCKCHAINS, SUPPLY chains, RETAIL industry, NETWORK effect, GREEN technology, DAMAGES (Law), RADIO frequency identification systems
Abstract

This paper considers a supply chain consisting of a manufacturer and a retailer. The manufacturer sells its products through the retailer and an online platform and adopts green technology in the blockchain era. The platform can operate with marketplace mode or reselling mode. The network effect is considered to reflect the power of the platform to enlarge the potential market size. In the decentralised supply chain, the online platform encroaches the offline demand despite the same retail price. The increase of the network coefficient improves the abatement level, and benefits the manufacturer and the platform but damages the retailer's profit. For the supply chain coordination, the abatement level with reselling mode in the centralised supply chain is less than that in the decentralised supply chain if the network coefficient is high. Both marketplace mode and reselling mode can coordinate the supply chain if the network coefficient is low. Blockchain technology helps the products become greener and brings more profits for the manufacturer and the platform. And it induces supply chain coordination. Based on real data of a supply chain, its profit is increased by 3% after coordination. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

39. RiRiShun Logistics: Home Appliance Delivery Data for the 2021 Manufacturing & Service Operations Management Data-Driven Research Challenge.

Author

Guo, Xiaolong, Yu, Yugang, Allon, Gad, Wang, Meiyan, and Zhang, Zhentai

Subjects
HOUSEHOLD appliances, REVERSE logistics, MATHEMATICAL optimization, ECONOMETRIC models, LOGISTICS, RESEARCH personnel
Abstract

To support the 2021 Manufacturing & Service Operations Management (M&SOM) Data-Driven Research Challenge, RiRiShun Logistics (a Haier group subsidiary focusing on logistics service for home appliances) provides MSOM members with logistics operational-level data for data-driven research. This paper provides a detailed description of the data associated with over 14 million orders from 149 clients (the consigners) associated with 4.2 million end consumers (the recipients and end users of the appliances) in China, involving 18,000 stock keeping units operated at 103 warehouses. Researchers are welcomed to develop econometric models, data-driven optimization techniques, analytical models, and algorithm designs by using this data set to address questions suggested by company managers. History: This paper has been accepted as part of the 2021 M&SOM Data-Driven Research Challenge. Funding: This work was supported by the National Natural Science Foundation of China [Grants 72091215/72091210, 71871207, 71991464/71991460, and 71921001]. Supplemental Material: Data and the online appendix are is available at https://doi.org/10.1287/msom.2021.0994. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

40. Blockage‐free storage assignment and storage/retrieval scheduling in autonomous vehicle storage and retrieval systems.

Author

Chen, Ran, De Koster, René, Yu, Yugang, Guo, Xiaolong, and Yu, Hu

Subjects
AUTOMATED storage retrieval systems, AUTONOMOUS vehicles, POLYNOMIAL time algorithms, STORAGE, SCHEDULING, PRODUCTION scheduling
Abstract

Autonomous vehicle storage and retrieval systems have greatly increased in popularity in the last decade. In such a system, at each tier multiple roaming vehicles transport totes between the storage locations and the lifts. However, this may lead to vehicle interference. We study in which order and by which vehicle the storage and retrieval requests should be executed to minimize the makespan, without vehicle interference. The optimal storage locations for incoming totes are also determined. A blocking mitigation protocol is proposed to address vehicle interference. We propose a two‐phase matheuristic, where in the first phase, the tier is divided into zones, with each zone assigned its own vehicle. The second phase focuses on reassigning requests between adjacent vehicles to obtain improved solutions. The models proposed in both phases are solved to optimality in polynomial time and pseudo‐polynomial time, respectively. Computational experiments show that the matheuristic produces high‐quality solutions within a few seconds, even for large‐sized instances, making it suitable for real‐time decisions. Compared to methods commonly used in practice, our matheuristic can reduce the makespan by up to 15%. Our results show that making integrated decisions that combine storage assignment and request scheduling, is more beneficial than sequential optimization in terms of throughput performance, space utilization and overall system cost. We also find that increasing the number of vehicles has a diminishing return effect on the makespan. Another finding is that the system with a large number of short storage aisles leads to higher throughput capacity than that with a small number of long storage aisles. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

50. A fabrication process for flexible single-crystal perovskite devices

Author

Lei, Yusheng, Chen, Yimu, Zhang, Ruiqi, Li, Yuheng, Yan, Qizhang, Lee, Seunghyun, and Yu, Yugang

Subjects
Crystal lattices -- Control -- Chemical properties -- Mechanical properties, Perovskite -- Structure -- Mechanical properties -- Chemical properties -- Production processes, Thin film devices -- Production processes -- Chemical properties -- Materials -- Mechanical properties, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Organic-inorganic hybrid perovskites have electronic and optoelectronic properties that make them appealing in many device applications.sup.1-4. Although many approaches focus on polycrystalline materials.sup.5-7, single-crystal hybrid perovskites show improved carrier transport and enhanced stability over their polycrystalline counterparts, due to their orientation-dependent transport behaviour.sup.8-10 and lower defect concentrations.sup.11,12. However, the fabrication of single-crystal hybrid perovskites, and controlling their morphology and composition, are challenging.sup.12. Here we report a solution-based lithography-assisted epitaxial-growth-and-transfer method for fabricating single-crystal hybrid perovskites on arbitrary substrates, with precise control of their thickness (from about 600 nanometres to about 100 micrometres), area (continuous thin films up to about 5.5 centimetres by 5.5 centimetres), and composition gradient in the thickness direction (for example, from methylammonium lead iodide, MAPbI.sub.3, to MAPb.sub.0.5Sn.sub.0.5I.sub.3). The transferred single-crystal hybrid perovskites are of comparable quality to those directly grown on epitaxial substrates, and are mechanically flexible depending on the thickness. Lead-tin gradient alloying allows the formation of a graded electronic bandgap, which increases the carrier mobility and impedes carrier recombination. Devices based on these single-crystal hybrid perovskites show not only high stability against various degradation factors but also good performance (for example, solar cells based on lead-tin-gradient structures with an average efficiency of 18.77 per cent). A solution-based lithography-assisted epitaxial-growth-and-transfer method is used to fabricate single-crystal hybrid perovskites on any surface, with precise control of the thickness, area and chemical composition gradient., Author(s): Yusheng Lei [sup.1] , Yimu Chen [sup.1] , Ruiqi Zhang [sup.1] , Yuheng Li [sup.1] , Qizhang Yan [sup.1] , Seunghyun Lee [sup.2] , Yugang Yu [sup.3] , Hsinhan [...]

Published
2020
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results