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早稲田大学 ホーム
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研究成果
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Scopus著者プロファイル
パン ジェニー
准教授(任期付)
Associate Professor(non-tenure-track) 准教授(任期付)
,
国際理工学センター(理工学術院)
ウェブサイト
https://w-rdb.waseda.jp/html/100001242_ja.html
h-index
260
被引用数
9
h 指数
Pureの文献数とScopusの被引用数に基づいて算出されます
2012
2024
年別の研究成果
概要
フィンガープリント
ネットワーク
研究成果
(50)
類似のプロファイル
(6)
フィンガープリント
Zhenni Panが活動している研究トピックを掘り下げます。このトピックラベルは、この研究者の研究成果に基づきます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Engineering
Non-Orthogonal Multiple Access
94%
Energy Engineering
82%
Transmissions
78%
Cellular Network
61%
Basestation
55%
Power Control
54%
Communication System
52%
Beamforming
47%
Intelligent Reflecting Surface
47%
Simulation Result
46%
Active Cell
39%
Power Allocation
38%
Cooperative
35%
Quality of Service
31%
Multiplexing
30%
Max
29%
Battery (Electrochemical Energy Engineering)
27%
Spectrum Efficiency
27%
Channel Estimation
26%
Bit Error Rate
25%
Mid-Infrared Spectroscopy
23%
Control Algorithm
23%
Swipt
23%
Doppler Effect
23%
Performance Analysis
23%
Support Vector Machine
23%
Joints (Structural Components)
23%
Successive Interference Cancellation
23%
Power Transmission
23%
Frequency Domain
23%
Power Level
23%
Highway Accidents
23%
Granularity
23%
Deep Learning
23%
Wavelength Division Multiplexing
23%
Sleep Mode
23%
Phase Control
23%
5G
23%
Reflected Light
23%
Power Difference
23%
Ultra-Reliable Low Latency Communication
23%
Fiber-Optic Communication
23%
Direction of Arrival
23%
Radio Frequency
23%
Optical Channel
23%
Code Division Multiple Access
23%
Hybrid Time
23%
Orbital Angular Momentum
23%
Optical Fiber
23%
Single User
23%
Computer Science
Cellular Network
100%
Quality of Service
47%
Machine Learning
47%
Non-Orthogonal Multiple Access
47%
Reinforcement Learning
39%
Access Point
39%
Resource Utilisation
35%
Configuration Cell
31%
Type Communication
31%
multi agent
31%
Energy Efficiency
31%
Channel Estimation
31%
Transmission Scheme
29%
Device-To-Device
29%
Wireless Power Transfer
29%
Deep Q-Network
23%
Qos Constraint
23%
Constraint Machine
23%
Reflecting Surface
23%
vehicular ad-hoc network
23%
Forwarding Model
23%
zero-forcing beamforming
23%
Time Difference
23%
direction-of-arrival
23%
5G
23%
Spectrum Resource
23%
Resource Sharing
23%
Receiving Station
23%
Macro Base Station
23%
Ultra Reliable Low Latency Communication
23%
Replacement Policy
23%
Genetic Algorithm
23%
Access Network
23%
Handover Decision
23%
interference coordination
23%
Energy Optimization
23%
Heterogeneous Network
23%
Power Efficiency
23%
Narrowband Interference
23%
Affinity Propagation
23%
Long Term Evolution
23%
Dynamic Resource Allocation
23%
Ergodic Average
23%
Downlink Transmission
23%
Uplink Transmission
23%
Linear Equation
23%
Ultra-Wideband
23%
array antenna
23%
Autonomous Vehicles
23%
State Transition
19%
Keyphrases
Vehicle Localization
23%
Delay-Doppler
23%
Satellite Cluster
23%
Neuronal Control
23%
Sleep Mode
23%
Two-tier Cellular Network
23%
Communication Constraints
23%
Multidimensional Parameters
23%
Dynamic Configuration
23%
Cooperative Traffic
23%
Power Efficient
23%
Efficient Scheme
23%
Lights Controlling
23%
Cooperative Passive Beamforming
23%
Limited Feedback
23%
Beamforming Design
23%
Zero-forcing Beamforming
23%
Secrecy Performance Analysis
23%
MU-MIMO System
23%
Orthogonal Time Frequency Space (OTFS) Modulation
23%
Multi-agent Deep Q-network
23%
Cooperative Access
23%
Power Adjustment
23%
Message Propagation
23%
Next-hop Selection
23%
Macro Base Station
23%
Adjustment Scheme
23%
Emergency Message
23%
Joint Active
23%
Reconfigurable Intelligent Surface
23%
Active Beamforming
23%
Ionospheric Propagation
23%
5G Networks
23%
Ultra-reliable Low-latency Communication (URLLC)
23%
Communications-based
23%
5G Applications
23%
Triple Band Antenna
23%
Cooperative Algorithm
23%
Image Sensor Communication
23%
Transmission Scheme
23%
Full-duplex Radio
23%
Energy Optimization
23%
Massive Machine-type Communications (mMTC)
23%
Multiple Power Levels
23%
Cell Sizing
23%
P-persistent
23%
D2D Communication
23%
Coexistence Networks
23%
Carrier Scheduling
23%
Hybrid Resource Allocation
23%
