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Lei Liu
Department of Entrepreneurship, Marketing and Management Systems
https://orcid.org/0000-0002-7132-3961
Email
Lei.Liu
nottingham.edu
cn
h-index
9
Scopus Citations
2
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2021
2024
Research activity per year
Overview
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Research output
(6)
Fingerprint
Dive into the research topics where Lei Liu is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Keyphrases
Robust Scheduling
100%
Turbine Blade
100%
Makespan
88%
At-risk
77%
Remanufacturing
77%
Branch-and-bound Method
66%
Phase-type Distribution
55%
Scheduling Framework
44%
Active Networks
44%
Markovian
44%
Branch-and-bound Algorithm
44%
Two-machine
44%
Manufacturing Activity
44%
Re-entrant Flow Shop
33%
Activity Phase
33%
Two-machine Flow Shop
33%
Remanufacturing Process
33%
Heuristic Algorithms
33%
Risk Measures
33%
Network Type
33%
Processing Time
33%
Robust Schedule
33%
Computational Experiment
33%
Scheduling Approach
33%
Markovian Approach
22%
General Distribution
22%
Uncertain Events
22%
Stochastic Processing Times
22%
Industrial Case
22%
Decision Maker
22%
Expected Performance
22%
Network Model
22%
Extreme Situations
22%
Wear State
15%
Residual Value
15%
Refurbished Products
15%
Degree of Uncertainty
15%
High-value Products
15%
Repair Method
15%
Power Generation
15%
Industrial Sector
15%
Economic Viability
15%
Industrial Level
15%
Variable Processing Times
11%
Markovian Model
11%
Timely Completion
11%
Used Parts
11%
Flow Shop Scheduling Problem
11%
Disruptive Effect
11%
Support Decision
11%
Computer Science
Processing Time
88%
Value at Risk
83%
Phase Type Distribution
61%
Branch-and-Bound Algorithm Design
50%
Activity Network
44%
Bound Approach
33%
Branch-and-Bound Algorithm
33%
Reentrant
33%
Activity Phase
33%
Scheduling Problem
33%
Heuristic Algorithm
33%
Computational Experiment
22%
Decision Maker
22%
Flowshop Scheduling
22%
Industrial Case
16%
Unexpected Event
11%
Real Application
11%
Engineering
Blade Turbine
100%
Remanufacturing
66%
Processing Time
50%
Scheduling Framework
41%
Distribution Type
25%
High Value Product
19%
Defects
19%
Power Generation
19%
Industrial Sector
19%
Flowshop Scheduling
16%
Design and Environment
16%
Real Application
16%
Decision Maker
16%
Scheduling Strategy
16%
Network Model
16%
Gas Fuel Manufacture
8%