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Dr Heng Yu
Assistant Professor in Computer Science
School of Computer Science
Artificial Intelligence and Optimisation Research Group
Email
Heng.Yu
nottingham.edu
cn
2008
2024
Research activity per year
Overview
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Research output
(33)
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Dive into the research topics where Heng Yu is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Keyphrases
Embedded Systems
64%
Dynamic Scheduling
59%
Energy Conservation
45%
Dynamic Voltage Frequency Scaling
43%
Frequency Scaling
36%
Application Scheduling
35%
Time-adaptive
35%
Quality Optimization
35%
Dynamic Voltage Scaling
35%
Imprecise Computation
35%
Computational Tasks
35%
Quality of Service
35%
Difference Vector
35%
Execution Quality
27%
Multiprocessor Systems
27%
Output Quality
27%
Temperature Constraint
25%
Spatial-temporal
25%
Voltage Scaling
24%
SRAM-based FPGA
23%
Reliability Maximization
23%
Scrubbing
23%
Parallel Tasks
23%
Smart Vehicle
23%
SDSoC
23%
Virality
23%
Retweeting
23%
Language Expectancy Theory
23%
Thermal-aware
23%
Heterogeneous MPSoC
23%
Adaptive Workload
23%
Adaptive Applications
23%
Placement Algorithm
23%
Routing Architecture
23%
3D FPGA
23%
Directional Routing
23%
Convolutional Neural Network Accelerator
23%
FPGA-based
23%
Application Mapping
23%
Data Reuse
23%
NoC-based MPSoC
23%
Communication-aware
23%
Energy Consumption Optimization
23%
Dependent Inputs
23%
Cache Memory
23%
Worst-case Execution Time
23%
Memory Architecture
23%
Cross-level
23%
Resilient
23%
Reliability Analysis
23%
Computer Science
Embedded Systems
100%
Quality of Service
47%
multi-processor
45%
Application Execution
41%
Dynamic Voltage and Frequency Scaling
39%
Execution Time
35%
Hashing
35%
Temperature Control
32%
JPEG2000
29%
Scheduling Scheme
29%
Energy Efficiency
27%
Effective Temperature
27%
Thermal Management
27%
Scheduling Method
26%
Multiprocessor System
26%
System Resource
26%
Quadratic Programming
25%
Feature Scaling
24%
Dynamic Power
23%
Task Selection
23%
Target Distribution
23%
Selection Method
23%
Scheduling Requirement
23%
Frequency Level
23%
Task Graph
23%
Content Information
23%
Information Dissemination
23%
Informational Content
23%
Theoretical Approach
23%
Crisis Information
23%
Volunteer Organization
23%
Placement Algorithm
23%
Application Level
23%
Paradigm Design
23%
runtime system
23%
Approximate Computing
23%
Data Locality
23%
Unified Communication
23%
Comparison Result
23%
End Application
23%
Transmission Time
23%
Data Reuse
23%
Cache Memory
23%
Memory Architecture
23%
Worst-Case Execution Time
23%
Worst-Case Execution Time Analysis
23%
Positive Effect
23%
Natural Language Processing
23%
Social Media
23%
Practical Implication
23%
