INIS
performance
91%
information
83%
outages
80%
cooperatives
69%
interference
66%
probability
55%
allocations
47%
power
41%
energy
38%
radiowave radiation
35%
relays
33%
energy transfer
33%
silicon carbides
33%
resources
33%
harvesting
29%
spectra
29%
electric-powered vehicles
29%
capacity
27%
simulation
26%
noise
23%
imperfections
19%
signals
18%
transmission
18%
devices
18%
monte carlo method
17%
reliability
16%
transfer (energy)
16%
ireland
16%
france
16%
satellites
16%
unmanned aerial vehicles
16%
internet
16%
assignments
16%
security
16%
colleges
16%
management
16%
research programs
16%
engineering
16%
universities
16%
layers
16%
germany
16%
schools
16%
asymptotic solutions
15%
constraints
15%
cancellation
13%
efficiency
12%
solutions
12%
design
11%
statistical models
11%
comparative evaluations
10%
levels
9%
outdoors
9%
data
9%
accuracy
8%
availability
7%
benchmarks
6%
algorithms
6%
range
6%
evaluation
5%
increasing
5%
size
5%
Keyphrases
Wireless Power
50%
Information Transfer
33%
Energy Transfer
33%
Future Wireless Networks
33%
Faculty Development
33%
Energy Harvesting
32%
Ergodic Capacity
27%
Outage Probability
23%
Non-orthogonal multiple Access
22%
Channel State Information
22%
Relay Node
20%
Multi-user
20%
Visible Light Communication System
16%
Radio Frequency
16%
Resource Allocation
16%
Outage
16%
Hardware Impairments
16%
System Status
16%
Signal-to-noise
16%
Defected Ground Structure
16%
Imperfect CSI
16%
Performance Limits
16%
Cooperative Networks
16%
Uplink-Downlink
16%
Engineering Schools
16%
Physical Layer Security
16%
Scheduling Techniques
16%
Nokia
16%
Supervisory Skills
16%
Bell Labs
16%
Energy Beamforming
16%
Downlink Transmission
16%
Transferred Energy
16%
Metropolitan University
16%
Trinity College
16%
Ireland
16%
Dresden
16%
Novel Resources
16%
Wireless Power Transfer
16%
Information Reliability
16%
France
16%
D2D Networks
16%
Security Aspects
16%
Resource Users
16%
Postdoctoral Scholars
16%
User Scheduling
16%
Development Research
16%
Further Development
16%
Germany
16%
Near-field Wireless Power Transfer
16%
Electric Vehicle Network
16%
Wireless Power Transfer System
16%
Millimeter Wave
16%
Management Skills
16%
Cooperative Non-orthogonal multiple Access (C-NOMA)
16%
Hardware Testbed
16%
Allocation Scheduling
16%
Imperfect SIC
16%
Recent Advancements
16%
Generalized Fading
16%
Electric Vehicular Network
16%
Coverage Probability
13%
Statistical Model
11%
Closed-form Expression
9%
Asymptotic Analysis
8%
Optimal Performance
8%
Linear Bottlenecks
8%
Satellite-terrestrial Networks
8%
Relay Selection
7%
Average Throughput
6%
Multiple Access Network
5%
Visible Light Communication
5%
Primary Network
5%
Spectrum Scarcity
5%
Exact Closed-form
5%
Jamming
5%
Aggregator
5%
Network Routing
5%
Robust Communication
5%
Spectral Bands
5%
Amplify-and-forward
5%
Two-hop
5%
Forward Mode
5%
Connected Devices
5%
Statistical System
5%
Interference Constraint
5%
Generalized Formula
5%
Power Harvesting
5%
Relaying Protocol
5%
Wirelessly
5%
Transmission Energy
5%
Network Entity
5%
Information Quality
5%
Energy Conservation
5%
Performance Evaluation
5%
Quality Scenarios
5%
System Parameters
5%
Specific Scenario
5%
Channel Condition
5%
Time Switching
5%
Harvesting Protocols
5%
Power Splitting Relaying
5%
Closed-form Analytic Solution
5%
Massive Connectivity
5%
Transmit Power
5%
System Impairments
5%
Engineering
Non-Orthogonal Multiple Access
100%
Cooperative
52%
Channel State Information
49%
Outages
46%
Energy Engineering
43%
Outage Probability
38%
Radio Frequency
35%
Energy Harvesting
35%
Communication Channel
33%
Electric Vehicle
29%
Ergodic Capacity
27%
Cognitive Radio
25%
Limitations
24%
Closed Form
22%
Multiuser
20%
Fading Channel
19%
Internet of Things
16%
Defected Ground Structures
16%
Terrestrial Network
16%
Signal-dependent Noise
16%
Wireless Power Transfer
16%
Cooperative Network
16%
Unmanned Aerial Vehicle
16%
Beamforming
16%
Downlink Transmission
16%
Physical Layer Security
16%
Engineering
16%
Germany
16%
Joints (Structural Components)
16%
Research Project
16%
Nodes
14%
Successive Interference Cancellation
11%
Statistical Model
11%
Interference Temperature
10%
Communication Network
10%
Aggregator
9%
Primary Network
9%
Relay Node
9%
Closed Form Expression
9%
Systems Performance
8%
Simulation Result
8%
Orthogonal Multiple Access
8%
Optimal Performance
8%
Data Rate
8%
Infrastructure
7%
Spectral Efficiency
7%
Transceiver
6%
Secondary User
6%
Optimal Power Allocation
6%
Power Allocation Scheme
5%
Switching Time
5%
Model Parameter
5%
Channel Condition
5%
System Parameter
5%
Interference Constraint
5%
Network Entity
5%