Pei Yang
Beihang University
7 Papers
6 Citations
Pei Yang is an academic researcher from Beihang University. The author has contributed to research in topics: Linear programming & Satellite. The author has an hindex of 4, co-authored 6 publications.
Chat about Author
Papers
A two-stage flow-shop scheme for the multi-satellite observation and data-downlink scheduling problem considering weather uncertainties
TL;DR: A two-stage flow shop scheme for the MSODSP is developed in order to optimize the observation scheduling and data-downlink scheduling concurrently and get truly optimized results.
39
Optimal mathematical programming for the warehouse location problem with Euclidean distance linearization
TL;DR: This paper developed an MILP-based dynamic iterative partial optimization (MILP-DIPO) to search for the near-optimal results with controllable computational time for large-sized datasets and validated the proposed model and heuristics on 14 datasets.
36
An Effectiveness Evaluation Model for Satellite Observation and Data-Downlink Scheduling Considering Weather Uncertainties
TL;DR: A satellite effectiveness evaluation model for satellite observation and data-downlink scheduling (SODS) based on the Availability–Capacity–Profitability (ACP) framework, which is designed to evaluate the overall performance of satellites from the perspective of time resource utilization, the success rate of tasks, and profit return is developed.
15
Modeling the Capacitated Multi-Level Lot-Sizing Problem under Time-Varying Environments and a Fix-and-Optimize Solution Approach
TL;DR: This study investigated the time-varying capacitated lot-sizing problem under a fast-changing production environment, where production factors such as the setup costs, inventory-holding costs, production capacities, or even material prices may be subject to continuous changes during the entire planning horizon.
6
Operando Imaging of Over-Discharge-Induced Surface Morphology Evolutions of LiMn2O4 Submicron-Sized Particles by Electrochemical High-Speed Atomic Force Microscopy.
TL;DR: In this article , the authors tracked the morphologic evolution of LiMn2O4 submicron-sized particles during over-discharging by electrochemical high-speed atomic force microscopy (EC-HS-AFM).
5