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Yan Qiao 0004
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- Yan Qiao — disambiguation page
- Yan Qiao 0001
- Yan Qiao 0002
- Yan Qiao 0003
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2020 – today
- 2025
- [j66]Tan Li, Yiming Lai
, Yonghua Shao, Sijun Zhan, Yan Qiao
Multiple-Time Reentrant Processes Optimization of Robotic Dual-Arm Cluster Tools With Cleaning Operations. IEEE Access 13: 57101-57118 (2025) - [j65]Baoying Huang
Scheduling Single-Arm Cluster Tools With an Equipment Front-End Module Subject to Wafer Residency Time Constraints. IEEE Trans Autom. Sci. Eng. 22: 9544-9558 (2025) - [j64]Junhui Wang
OPEN: Lightweight Map-Based Semantic Navigation for GPS-Free Last-Mile Delivery. IEEE Trans Autom. Sci. Eng. 22: 20713-20725 (2025) - [j63]Qian Jiang
Group Role Assignment With Minimized Agent Conflicts. IEEE Trans. Syst. Man Cybern. Syst. 55(3): 1844-1857 (2025) - [j62]LiangChao Chen
Workload Balancing for Photolithography Machines in Semiconductor Manufacturing via Estimation of Distribution Algorithm Integrating Kmeans Clustering. IEEE Trans. Syst. Man Cybern. Syst. 55(8): 5565-5580 (2025) - [c29]Junhui Wang, Dongjie Huo, Zehui Xu, Yongliang Shi, Yimin Yan, Yuanxin Wang, Chao Gao, Yan Qiao, Guyue Zhou:
OpenBench: A New Benchmark and Baseline for Semantic Navigation in Smart Logistics. ICRA 2025: 16202-16208 - [i2]Junhui Wang, Dongjie Huo, Zehui Xu, Yongliang Shi, Yimin Yan, Yuanxin Wang, Chao Gao, Yan Qiao, Guyue Zhou:
OpenBench: A New Benchmark and Baseline for Semantic Navigation in Smart Logistics. CoRR abs/2502.09238 (2025) - 2024
- [j61]YunFang He
Scheduling analysis of automotive glass manufacturing systems subject to sequence-independent setup time, no-idle machines, and permissive maximum total tardiness constraint. Eng. Appl. Artif. Intell. 133: 108299 (2024) - [j60]Chunrong Pan
Cycle time analysis for cluster tools with parallel process chambers, processing time variation, and chamber cleaning operations. Expert Syst. Appl. 255: 124471 (2024) - [j59]ChengYu Zou
Scheduling of Time-Constrained Single-Arm Cluster Tools with Two-Space Process Modules in Semiconductor Manufacturing. IEEE Robotics Autom. Lett. 9(7): 6352-6359 (2024) - [j58]Qian Jiang
Quasi Group Role Assignment With Agent Satisfaction in Self-Service Spatiotemporal Crowdsourcing. IEEE Trans. Comput. Soc. Syst. 11(5): 7002-7019 (2024) - [j57]Qian Jiang
Iterative Role Negotiation via the Bilevel GRA++ With Decision Tolerance. IEEE Trans. Comput. Soc. Syst. 11(6): 7484-7499 (2024) - [j56]Minzhi Chen
A Generalized Nesterov's Accelerated Gradient-Incorporated Non-Negative Latent-Factorization-of-Tensors Model for Efficient Representation to Dynamic QoS Data. IEEE Trans. Emerg. Top. Comput. Intell. 8(3): 2386-2400 (2024) - [j55]Tinghui Chen
A Robust and Efficient Ensemble of Diversified Evolutionary Computing Algorithms for Accurate Robot Calibration. IEEE Trans. Instrum. Meas. 73: 1-14 (2024) - [j54]Hao Wu
A Fine-Grained Regularization Scheme for Non-negative Latent Factorization of High-Dimensional and Incomplete Tensors. IEEE Trans. Serv. Comput. 17(6): 3006-3021 (2024) - [j53]Siwei Zhang, Naiqi Wu
Efficient Optimal Cyclic Scheduling of High Throughput Screening System for Enzyme-Linked Immunoassay. IEEE Trans. Syst. Man Cybern. Syst. 54(9): 5791-5803 (2024) - [j52]Baoying Huang
Collaborative Scheduling for Single-Arm Cluster Tools With an Equipment Front-End Module Subject to Chamber Cleaning Requirements. IEEE Trans. Syst. Man Cybern. Syst. 54(10): 5912-5924 (2024) - [j51]Jiewu Leng
Deep Reinforcement Learning of Graph Convolutional Neural Network for Resilient Production Control of Mass Individualized Prototyping Toward Industry 5.0. IEEE Trans. Syst. Man Cybern. Syst. 54(11): 7092-7105 (2024) - 2023
- [j50]Mengchu Zhou
Machine Learning for Industry 4.0 [From the Guest Editors]. IEEE Robotics Autom. Mag. 30(2): 8-9 (2023) - [j49]HuiChu Fu
Development of Fault Detection Systems: The Hadoop Ecosystem Implementation. IEEE Robotics Autom. Mag. 30(2): 22-33 (2023) - [j48]Qian Jiang
Refugee Resettlement by Extending Group Multirole Assignment. IEEE Trans. Comput. Soc. Syst. 10(1): 36-47 (2023) - [j47]Qian Jiang
Extending Group Role Assignment With Cooperation and Conflict Factors via KD45 Logic. IEEE Trans. Comput. Soc. Syst. 10(1): 178-191 (2023) - [j46]Qian Jiang
Equilibrium Means Equity? An E-CARGO Perspective on the Golden Mean Principle. IEEE Trans. Comput. Soc. Syst. 10(4): 1443-1454 (2023) - [j45]LiangChao Chen, Siwei Zhang, NaiQi Wu
Optimization of Inventory Space in Smart Factory for Integrated Periodic Production and Delivery Scheduling. IEEE Trans. Comput. Soc. Syst. 10(6): 3488-3511 (2023) - [j44]WenQing Xiong
An Efficient Scheduling Method for Single-Arm Cluster Tools With Multifunctional Process Modules. IEEE Trans. Syst. Man Cybern. Syst. 53(6): 3270-3283 (2023) - [j43]Qinghua Zhu
Scheduling Single-Arm Multicluster Tools for Two-Type Wafers With Lower-Bound Cycle Time. IEEE Trans. Syst. Man Cybern. Syst. 53(11): 6658-6671 (2023) - [c28]GengHong Wang, Qinghua Zhu, Yan Hou, Yan Qiao, NaiQi Wu, MengChu Zhou:
Optimally Scheduling Single-Arm Multicluster Tools for Manufacturing Hybrid-Type Wafers. SMC 2023: 3379-3384 - 2022
- [j42]Yan Qiao, Naiqi Wu, YunFang He
Adaptive genetic algorithm for two-stage hybrid flow-shop scheduling with sequence-independent setup time and no-interruption requirement. Expert Syst. Appl. 208: 118068 (2022) - [j41]Mohammadhossein Ghahramani
Spatiotemporal Analysis of Mobile Phone Network Based on Self-Organizing Feature Map. IEEE Internet Things J. 9(13): 10948-10960 (2022) - [j40]Qinghua Zhu
Optimally Scheduling Dual-Arm Multi-Cluster Tools to Process Two Wafer Types. IEEE Robotics Autom. Lett. 7(3): 5920-5927 (2022) - [j39]Yan Qiao
An Efficient Binary Integer Programming Model for Residency Time-Constrained Cluster Tools With Chamber Cleaning Requirements. IEEE Trans Autom. Sci. Eng. 19(3): 1757-1771 (2022) - [j38]Qian Jiang
Quasi Group Role Assignment With Role Awareness in Self-Service Spatiotemporal Crowdsourcing. IEEE Trans. Comput. Soc. Syst. 9(5): 1456-1468 (2022) - [j37]Jin Liu
Short-Term Traffic Flow Forecasting Using Ensemble Approach Based on Deep Belief Networks. IEEE Trans. Intell. Transp. Syst. 23(1): 404-417 (2022) - [j36]Saifei Chen, Hui Fu
Route Choice Behavior Modeling for Emergency Evacuation and Efficiency Analysis Based on Type-II Fuzzy Theory. IEEE Trans. Intell. Transp. Syst. 23(7): 6934-6949 (2022) - [j35]Saifei Chen, Naiqi Wu
Urban Road Network Partitioning Based on Bi-Modal Traffic Flows With Multiobjective Optimization. IEEE Trans. Intell. Transp. Syst. 23(11): 20664-20680 (2022) - [j34]Qian Jiang
Agent Evaluation in Deployment of Multi-SUAVs for Communication Recovery. IEEE Trans. Syst. Man Cybern. Syst. 52(11): 6968-6982 (2022) - [j33]Naiqi Wu
A Novel Control-Theory-Based Approach to Scheduling of High-Throughput Screening System for Enzymatic Assay. IEEE Trans. Syst. Man Cybern. Syst. 52(12): 7667-7678 (2022) - [c27]Naiqi Wu, Yan Qiao, Zhiwu Li:
Efficient Approach to Scheduling of High Throughput Screening Systems: A Case Study. CASE 2022: 1634-1639 - 2021
- [j32]Yanjun Lu
Modeling and Control for Deadlock-Free Operation of Single-Arm Cluster Tools With Concurrently Processing Multiple Wafer Types via Petri Net. IEEE Access 9: 70868-70883 (2021) - [j31]Zicheng Liu, Naiqi Wu, Yan Qiao, Zhiwu Li:
Performance Evaluation of Public Bus Transportation by Using DEA Models and Shannon's Entropy: An Example From a Company in a Large City of China. IEEE CAA J. Autom. Sinica 8(4): 779-795 (2021) - [j30]Fajun Yang, Naiqi Wu, Yan Qiao, Rong Su
Wafer sojourn time fluctuation analysis for time-constrained dual-arm multi-cluster tools with activity time variation. Int. J. Comput. Integr. Manuf. 34(7-8): 734-751 (2021) - [j29]WenQing Xiong
Reducing Wafer Delay Time by Robot Idle Time Regulation for Single-Arm Cluster Tools. IEEE Trans Autom. Sci. Eng. 18(4): 1653-1667 (2021) - [j28]Baoying Huang
Solving Last-Mile Logistics Problem in Spatiotemporal Crowdsourcing via Role Awareness With Adaptive Clustering. IEEE Trans. Comput. Soc. Syst. 8(3): 668-681 (2021) - [j27]Yan Qiao
Efficient Approach to Failure Response of Process Module in Dual-Arm Cluster Tools With Wafer Residency Time Constraints. IEEE Trans. Syst. Man Cybern. Syst. 51(3): 1612-1629 (2021) - [j26]Yan Qiao
Closing-Down Optimization for Single-Arm Cluster Tools Subject to Wafer Residency Time Constraints. IEEE Trans. Syst. Man Cybern. Syst. 51(11): 6792-6807 (2021) - 2020
- [j25]Qinghua Zhu
Post-processing time-aware optimal scheduling of single robotic cluster tools. IEEE CAA J. Autom. Sinica 7(2): 597-605 (2020) - [j24]Mohammadhossein Ghahramani, Yan Qiao, MengChu Zhou, Adrian O'Hagan, James Sweeney
AI-based modeling and data-driven evaluation for smart manufacturing processes. IEEE CAA J. Autom. Sinica 7(4): 1026-1037 (2020) - [j23]FaJun Yang, Naiqi Wu
Modeling and Optimal Cyclic Scheduling of Time-Constrained Single-Robot-Arm Cluster Tools via Petri Nets and Linear Programming. IEEE Trans. Syst. Man Cybern. Syst. 50(3): 871-883 (2020) - [j22]FaJun Yang
Efficient Approach to Scheduling of Transient Processes for Time-Constrained Single-Arm Cluster Tools With Parallel Chambers. IEEE Trans. Syst. Man Cybern. Syst. 50(10): 3646-3657 (2020) - [j21]Qinghua Zhu
Multiobjective Scheduling of Dual-Blade Robotic Cells in Wafer Fabrication. IEEE Trans. Syst. Man Cybern. Syst. 50(12): 5015-5023 (2020) - [i1]Mohammadhossein Ghahramani, Yan Qiao, MengChu Zhou, Adrian O'Hagan, James Sweeney:
AI-based Modeling and Data-driven Evaluation for Smart Manufacturing Processes. CoRR abs/2008.12987 (2020)
2010 – 2019
- 2019
- [j20]Qinghua Zhu
Optimal integrated schedule of entire process of dual-blade multi-cluster tools from start-up to close-down. IEEE CAA J. Autom. Sinica 6(2): 553-565 (2019) - [j19]Yan Qiao, Naiqi Wu, FaJun Yang, MengChu Zhou, Qinghua Zhu, Ting Qu:
Robust Scheduling of Time-Constrained Dual-Arm Cluster Tools With Wafer Revisiting and Activity Time Disturbance. IEEE Trans. Syst. Man Cybern. Syst. 49(6): 1228-1240 (2019) - [c26]Yan Qiao, SiWei Zhang, NaiQi Wu, ZhiWu Li:
Optimization on ACC Systems and Layout Design for Maximizing Thermal Comfort and Energy Saving in Large Rooms - A Case Study. CEC 2019: 654-659 - 2018
- [j18]Fajun Yang, Naiqi Wu
Petri Net-Based Efficient Determination of Optimal Schedules for Transport-Dominant Single-Arm Multi-Cluster Tools. IEEE Access 6: 355-365 (2018) - [j17]Fajun Yang, Naiqi Wu, Yan Qiao, Rong Su
Polynomial approach to optimal one-wafer cyclic scheduling of treelike hybrid multi-cluster tools via Petri nets. IEEE CAA J. Autom. Sinica 5(1): 270-280 (2018) - [j16]ChunRong Pan, MengChu Zhou
Scheduling Cluster Tools in Semiconductor Manufacturing: Recent Advances and Challenges. IEEE Trans Autom. Sci. Eng. 15(2): 586-601 (2018) - [j15]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou
Optimal One-Wafer Cyclic Scheduling of Hybrid Multirobot Cluster Tools With Tree Topology. IEEE Trans. Syst. Man Cybern. Syst. 48(2): 289-298 (2018) - [j14]Qinghua Zhu
Petri Net Modeling and Scheduling of a Close-Down Process for Time-Constrained Single-Arm Cluster Tools. IEEE Trans. Syst. Man Cybern. Syst. 48(3): 389-400 (2018) - [j13]Yan Qiao, Naiqi Wu, FaJun Yang, MengChu Zhou
Wafer Sojourn Time Fluctuation Analysis of Time-Constrained Dual-Arm Cluster Tools With Wafer Revisiting and Activity Time Variation. IEEE Trans. Syst. Man Cybern. Syst. 48(4): 622-636 (2018) - [c25]FaJun Yang, Naiqi Wu, Rong Su
Cyclic Scheduling Analysis of Single-arm Cluster Tools with Wafer Residency Time Constraint and Chamber Cleaning Operations. CASE 2018: 241-246 - [c24]Yanjun Lu
Petri net-based deadlock avoidance for single-arm cluster tools with concurrently processing two-type wafers. ICNSC 2018: 1-6 - 2017
- [j12]Yan Qiao, MengChu Zhou
Scheduling and Control of Startup Process for Single-Arm Cluster Tools With Residency Time Constraints. IEEE Trans. Control. Syst. Technol. 25(4): 1243-1256 (2017) - [j11]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou, ZhiWu Li:
Scheduling of Single-Arm Cluster Tools for an Atomic Layer Deposition Process With Residency Time Constraints. IEEE Trans. Syst. Man Cybern. Syst. 47(3): 502-516 (2017) - [j10]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou:
Optimal One-Wafer Cyclic Scheduling of Time-Constrained Hybrid Multicluster Tools via Petri Nets. IEEE Trans. Syst. Man Cybern. Syst. 47(11): 2920-2932 (2017) - [c23]Qinghua Zhu
Close-down process scheduling of wafer residence time-constrained multi-cluster tools. ICRA 2017: 543-548 - 2016
- [j9]Qinghua Zhu
Optimal Scheduling of Complex Multi-Cluster Tools Based on Timed Resource-Oriented Petri Nets. IEEE Access 4: 2096-2109 (2016) - [c22]Yan Qiao, MengChu Zhou, Naiqi Wu, Qinghua Zhu, ZhiWu Li:
Optimizing close-down processes of single-robot cluster tools via linear programing. CASE 2016: 148-153 - [c21]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou:
Optimal scheduling analysis of treelike hybrid multi-cluster tools. CASE 2016: 1400-1404 - [c20]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou:
Efficient and optimal scheduling of time-constrained hybrid multi-cluster tools in semiconductor industry. ICNSC 2016: 1-6 - [c19]Zicheng Liu, Naiqi Wu, FaJun Yang, Yan Qiao:
Optimal scheduling of time-constrained single-arm cluster tools with wafer revisiting. WODES 2016: 355-360 - 2015
- [j8]Yan Qiao, Naiqi Wu, Qinghua Zhu, Liping Bai:
Cycle time analysis of dual-arm cluster tools for wafer fabrication processes with multiple wafer revisiting times. Comput. Oper. Res. 53: 252-260 (2015) - [j7]Yan Qiao, ChunRong Pan, Naiqi Wu, MengChu Zhou:
Response Policies to Process Module Failure in Single-Arm Cluster Tools Subject to Wafer Residency Time Constraints. IEEE Trans Autom. Sci. Eng. 12(3): 1125-1139 (2015) - [j6]Yan Qiao, Naiqi Wu, MengChu Zhou:
Schedulability and Scheduling Analysis of Dual-Arm Cluster Tools with Wafer Revisiting and Residency Time Constraints Based on a Novel Schedule. IEEE Trans. Syst. Man Cybern. Syst. 45(3): 472-484 (2015) - [j5]ChunRong Pan, Yan Qiao, Naiqi Wu, MengChu Zhou:
A Novel Algorithm for Wafer Sojourn Time Analysis of Single-Arm Cluster Tools With Wafer Residency Time Constraints and Activity Time Variation. IEEE Trans. Syst. Man Cybern. Syst. 45(5): 805-818 (2015) - [c18]Qinghua Zhu
Petri net modeling and one-wafer scheduling of single-arm tree-like multi-cluster tools. CASE 2015: 292-297 - [c17]ChunRong Pan, MengChu Zhou, Yan Qiao:
How to start-up dual-arm cluster tools involving a wafer revisiting process. CASE 2015: 1194-1199 - [c16]ChunRong Pan, MengChu Zhou, Yan Qiao, Naiqi Wu:
Modeling and scheduling of cluster tools dealing with wafer revisiting: A brief review. ICNSC 2015: 271-276 - [c15]Qinghua Zhu
Scheduling Close-Down Processes Subject to Wafer Residency Constraints for Single-Arm Cluster Tools. SMC 2015: 521-526 - 2014
- [j4]Yan Qiao, Naiqi Wu, MengChu Zhou:
Scheduling of Dual-Arm Cluster Tools With Wafer Revisiting and Residency Time Constraints. IEEE Trans. Ind. Informatics 10(1): 286-300 (2014) - [j3]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou:
Optimal One-Wafer Cyclic Scheduling of Single-Arm Multicluster Tools With Two-Space Buffering Modules. IEEE Trans. Syst. Man Cybern. Syst. 44(12): 1584-1597 (2014) - [j2]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou:
Petri Net-Based Polynomially Complex Approach to Optimal One-Wafer Cyclic Scheduling of Hybrid Multi-Cluster Tools in Semiconductor Manufacturing. IEEE Trans. Syst. Man Cybern. Syst. 44(12): 1598-1610 (2014) - [c14]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou:
Optimal scheduling of single-arm multi-cluster tools with two-space buffering modules. CASE 2014: 75-80 - [c13]Qinghua Zhu
Modeling and schedulability analysis of single-arm multi-cluster tools with residency time constraints via Petri nets. CASE 2014: 81-86 - [c12]Yan Qiao, Naiqi Wu, ChunRong Pan, MengChu Zhou:
Petri net-based response policies to process module failure in time-constrained single-arm cluster tools. ICNSC 2014: 144-149 - [c11]FaJun Yang, Naiqi Wu, Yan Qiao, MengChu Zhou:
Optimal one-wafer cyclic scheduling analysis of hybrid multi-cluster tools with one-space buffering module. ICRA 2014: 3279-3284 - [c10]Yan Qiao, Naiqi Wu, ChunRong Pan, MengChu Zhou:
A novel failure response policy for single-arm cluster tools with residency time constraints. SMC 2014: 120-126 - [c9]ChunRong Pan, MengChu Zhou, Yan Qiao, Naiqi Wu:
Simulation modeling and visualization of start-up transient processes of dual-arm cluster tools with wafer revisiting. SMC 2014: 133-138 - 2013
- [c8]Qinghua Zhu, Naiqi Wu, Yan Qiao, MengChu Zhou:
Petri net modeling and one-wafer scheduling of single-arm multi-cluster tools. CASE 2013: 862-867 - [c7]Yan Qiao, Naiqi Wu, MengChu Zhou:
Scheduling of time constrained dual-arm cluster tools with wafer revisiting. CASE 2013: 868-873 - [c6]Yan Qiao, Naiqi Wu, MengChu Zhou, Qingyun Dai:
Petri net-based scheduling analysis of dual-arm cluster tools subject to wafer revisiting and residency time constraints. ICNSC 2013: 252-257 - [c5]Qinghua Zhu, Naiqi Wu, Yan Qiao, MengChu Zhou:
Scheduling of single-arm multi-cluster tools to achieve the minimum cycle time. ICRA 2013: 3555-3560 - 2012
- [j1]Yan Qiao, Naiqi Wu, MengChu Zhou:
Real-Time Scheduling of Single-Arm Cluster Tools Subject to Residency Time Constraints and Bounded Activity Time Variation. IEEE Trans Autom. Sci. Eng. 9(3): 564-577 (2012) - [c4]Yan Qiao, Naiqi Wu, MengChu Zhou:
Petri net-based scheduling analysis of dual-arm cluster tools with wafer revisiting. CASE 2012: 206-211 - [c3]Yan Qiao, Naiqi Wu, MengChu Zhou:
Real-time control policy for single-arm cluster tools with residency time constraints and activity time variation by using Petri net. ICNSC 2012: 34-39 - [c2]Yan Qiao, Naiqi Wu, MengChu Zhou:
Petri net-based real-time scheduling of time-constrained single-arm cluster tools with activity time variation. ICRA 2012: 5056-5061 - 2011
- [c1]Yan Qiao, Naiqi Wu, MengChu Zhou:
Modeling and analysis of dual-arm cluster tools for wafer fabrication with revisiting. CASE 2011: 90-95
Coauthor Index
Naiqi Wu
aka: NaiQi Wu
aka: NaiQi Wu
[j65] [j63] [j62] [j61] [j60] [j59] [j58] [j57] [j53] [j52] [j49] [j45] [j44] [j43] [c28] [j42] [j41] [j40] [j39] [j37] [j36] [j35] [j33] [c27] [j32] [j31] [j30] [j29] [j28] [j27] [j26] [j25] [j23] [j22] [j21] [j20] [j19] [c26] [j18] [j17] [j16] [j15] [j14] [j13] [c25] [c24] [j12] [j11] [j10] [c23] [j9] [c22] [c21] [c20] [c19] [j8] [j7] [j6] [j5] [c16] [c15] [j4] [j3] [j2] [c14] [c13] [c12] [c11] [c10] [c9] [c8] [c7] [c6] [c5] [j1] [c4] [c3] [c2] [c1]
Fajun Yang
aka: FaJun Yang
aka: FaJun Yang
MengChu Zhou
aka: Mengchu Zhou
aka: Mengchu Zhou
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