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查看 Scopus 资料
张 福彪
宇航学院
h-index
201
引用
8
H-指数
根据储存在 Pure 的刊物以及来自 Scopus 的引用文献数量计算
2014
2024
每年的科研成果
概览
指纹图谱
合作网络
科研成果
(24)
相似学者
(2)
指纹图谱
深入其中 Fubiao Zhang 为活跃的研究主题。这些主题标签来自此人的成果。它们共同形成唯一的指纹。
分类
加权
按字母排序
Engineering
Adaptive Control
77%
Aircraft Response
16%
Automatic Pilot
33%
Backups
33%
Collision Avoidance
20%
Collision Term
33%
Computer Simulation
27%
Control Scheme
27%
Controller Design
22%
Cooperative
46%
Deep Learning
33%
Demonstrates
26%
Disturbance Model
22%
Drone
13%
External Disturbance
100%
Fault Detection and Diagnosis
13%
Fault Tolerant Control
100%
Feedback Control System
16%
Finite Time
66%
Flight Control
66%
Flight Test
30%
Flying Quality
16%
Gain Controller
22%
Geolocation
33%
Handling Quality
33%
Impact Angle
33%
Input Constraint
44%
Integrated Control
33%
Low-Altitude Flight
33%
Model Uncertainty
22%
Mutual Information
33%
Non-Linear Dynamic
28%
Nonlinear Model
15%
Nonlinear System
15%
Nonlinearity
44%
Optimisation Problem
17%
Parametric Uncertainty
33%
Piecewise Linear System
33%
Pitch Rate
11%
Predictive Control Model
44%
Real-Time Optimisation
33%
Reference Model
88%
Reinforcement Learning
16%
Remote Control
16%
Rotors
88%
Simulation Result
17%
Sliding Mode Control
33%
Tasks
13%
Transport Aircraft
33%
Unmanned Aerial Vehicle
66%
Computer Science
actuator fault
22%
Adaptive Control Systems
33%
Allocation Control
22%
Artificial Intelligence
33%
Assignment Problem
33%
Cognitive Consistency
33%
Completion Time
11%
Computational Complexity
6%
Control Approach
11%
Coordination Level
5%
Decision Model
33%
Decomposition Pattern
33%
Detection Method
6%
Experimental Result
22%
fault-tolerance
33%
Grand Challenge
33%
Knowledge Transfer
22%
Knowledge-Sharing
33%
Layered Architecture
33%
Learning Framework
5%
level-set method
11%
Local Optimization
6%
Micromanagement
5%
Motion Planning
11%
multi agent
33%
multi-agent
33%
Multi-Agent Reinforcement Learning
33%
Multi-Objective Optimization
16%
Mutual Information
33%
Observation Sequence
6%
Obstacle Avoidance
11%
Optimization Problem
34%
Optimization Strategy
11%
Particle Filter
6%
Planning Method
11%
Process Optimization
16%
Reinforcement Learning
22%
Simulation Environment
16%
Splines
11%
State Space
11%
Tolerance Method
16%
Trajectory Generation
33%
Transfer Learning
33%
