メインナビゲーションにスキップ
検索にスキップ
メインコンテンツにスキップ
早稲田大学 ホーム
English
日本語
ホーム
プロファイル
研究部門
研究成果
専門知識、名前、または所属機関で検索
Scopus著者プロファイル
伍 軍
教授(任期付)
Professor(non-tenure-track) 教授(任期付)
,
大学院情報生産システム研究科
ウェブサイト
https://w-rdb.waseda.jp/html/100003146_ja.html
h-index
6160
被引用数
38
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
2003
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
(276)
類似のプロファイル
(6)
フィンガープリント
Jun Wu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
Computer Science
Internet of Things
100%
Blockchain
93%
Federated Learning
79%
Privacy Preserving
68%
Fog Computing
50%
Artificial Intelligence
48%
Smart City
48%
Quality of Service
46%
Digital Twin
45%
Internet of Vehicles
44%
Wireless Sensor Network
42%
Software-Defined Network
40%
Smart Grid
40%
Energy Efficient
39%
Software-Defined Networking
38%
Intelligent Transportation System
29%
Social Network
28%
Incentive Mechanism
27%
Resource Allocation
26%
Big Data
26%
Industrial Internet of Things
26%
Differential Privacy
25%
Network Function Virtualization
24%
Network Architecture
23%
Computing Resource
23%
Backdoors
22%
Edge Computing
20%
Internet-Of-Things
20%
Energy Efficiency
20%
Decoding Performance
20%
Mobile Network
19%
Posteriori Probability
19%
Deep Reinforcement Learning
18%
Knowledge-Sharing
17%
Experimental Result
17%
Machine Learning
16%
Security Assessment
16%
Beyond 5G
16%
Memory Access
16%
Device-To-Device
16%
Reflecting Surface
15%
Edge Intelligence
15%
Proposed Mechanism
15%
Sensor Networks
15%
Industrial Control System
14%
Computation Offloading
13%
Semisupervised Learning
13%
Privacy Protection
13%
Attackers
13%
Unmanned Aerial Vehicle
13%
Keyphrases
Software-defined Networking
21%
Wireless Sensor Networks
19%
Energy Internet
19%
Blockchain
18%
Artificial Intelligence Models
13%
Geographical Migration
13%
Convolutional Turbo Code
13%
Sharing Economy
13%
Quality of Service Provisioning
13%
Industrial Wireless Sensor Networks
13%
Edge Computing
13%
Industrial Control Systems
13%
Internet of Things
13%
Edge Intelligence
13%
Swarm Learning
13%
Vulnerability
12%
Max-min Operator
10%
Data Security
9%
Data Exchange
9%
Digital Twin Model
9%
Decoder
8%
Airbnb
8%
Edge Resources
8%
Learning-based
8%
Intelligent Reflecting Surface
8%
Energy-efficient Resource Allocation
8%
Underlaying Cellular Networks
8%
Device-to-device Communication
8%
Energy Efficiency
8%
Traffic Control
7%
Computing Resources
7%
Adversarial Samples
7%
Resource Allocation Problem
7%
Joint Protection
6%
Fronthaul Network
6%
6G Network Architecture
6%
Malicious Node Detection
6%
Edge Storage
6%
Fatigue Detection
6%
Bias Mitigation
6%
Traffic Forwarding
6%
Multi-dimension Feature
6%
Learning Dimensions
6%
Copyright
6%
Device-to-device (D2D) Communication
6%
Spectral Efficiency
6%
Vehicular Edge
6%
Defense Resource Allocation
6%
Demand Incentive
6%
Driving Event Detection
6%