Skip to main navigation
Skip to search
Skip to main content
CityUHK Scholars Home
Researcher Login
Link opens in a new tab
Search content at CityUHK Scholars
Home
Researchers
Research units
Research output
Projects
Activities
Prizes
Student theses
Datasets
Impacts
Press/Media
Prof. Jun LIU, 劉軍
(Former)
Accepting PhD Students
Willing to speak to media
h-index
2208
Scopus Citations
27
Scopus h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2011
2026
Research activity per year
Overview
Fingerprint
Network
Research output
(95)
Projects
(7)
Prizes
(5)
Researchers
(3)
Similar Profiles
(6)
Supervised Work
(5)
Fingerprint
Dive into the research topics where Jun LIU is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Computer Science
Robotics
89%
Convolutional Neural Network
74%
Experimental Result
66%
Deep Learning Method
54%
Microscopic Image
34%
Federated machine learning
32%
Supervised Learning
28%
Feature Vector
28%
Hardware Platform
28%
Convolution
26%
Pre-Trained Language Models
22%
Learning Network
22%
Cluster Validity
22%
Spectral Clustering
22%
Pixel Classification
22%
Human Motion Prediction
22%
Magnetic Tracking
22%
Interactivity
22%
Human Motions
17%
Image Processing
17%
Active Contour
17%
Tree Search
17%
Motion Pattern
17%
End Effector Position
17%
Deep Learning Model
17%
Background Noise
17%
Superior Performance
15%
Artificial Intelligence
15%
Linguistics
15%
Vertebral Column
15%
Global Feature
13%
Annotation
12%
Sign Language Recognition
11%
Differential Privacy
11%
Privacy Preserving
11%
service robot
11%
Point Cloud
11%
Machine Learning Algorithm
11%
Event Detection
11%
Transfer Learning
11%
Polyp Segmentation
11%
Open Set Recognition
11%
Image Classification
11%
zigbee
11%
Deep Feature
11%
Image Segmentation
11%
Uncertainty Estimation
11%
Underwater Image Enhancement
11%
Augmented Reality
11%
Microscopic Image Analysis
11%
Engineering
Robotics
100%
Magnetic Field
34%
Experimental Result
31%
Joints (Structural Components)
24%
Deep Learning Method
22%
Microrobots
22%
Magnetic Sensor
22%
Sensor Array
22%
Robot
22%
Robotic System
20%
Micropipette
20%
Micropipette Tip
19%
Output Force
19%
Cell Mass
18%
End Effector
17%
Microfluidic Device
17%
Success Rate
17%
Rigidity
16%
Permanent Magnet
14%
Vibration Amplitude
14%
Joint Space
14%
Limitations
12%
Fluidics
12%
Part Surface
12%
Micromanipulation
11%
Nanomaterial
11%
Erythrocyte
11%
Cell Morphology
11%
Point Cloud
11%
Ultrasonics
11%
Conducted Experiment
11%
Scale Cross
11%
Dielectrics
11%
Overcome Friction
11%
Jet
11%
Momentum Conservation
11%
Viscous Fingering
11%
Friction Force
11%
Space Application
11%
Injection Pressure
11%
High Resolution
11%
Digital Microfluidics
11%
Coaxiality
11%
Thrust Force
11%
Nitrogen
11%
Hydrogel
11%
Task Space
11%
Aeroengine
11%
Error Distribution
11%
Flexure
11%
Medicine and Dentistry
Vitrification
34%
Convolutional Neural Network
26%
In Vitro Fertilisation
24%
Heart Disease
22%
Puncture Procedure
22%
fertility
22%
Sperm Motility
21%
Cell Nucleus
19%
Cell Culture
15%
Image-Guided Intervention
15%
Atomic Force Microscopy
15%
Mammalian Embryo
13%
Gap Junction
13%
Arrhythmogenic Right Ventricular Dysplasia
11%
Semen Analysis
11%
Protein Expression
11%
Puncture
11%
Cell Contact
11%
Evolution
11%
Inner Cell Mass
11%
Somatostatin Cell
11%
Cooperation
11%
Medical Device
11%
Scanning Electron Microscopy
11%
Gene Linkage
11%
Visual Feedback
11%
Intracytoplasmic Sperm Injection
11%
Image Analysis
11%
Morphometric Analysis
11%
Blastocyst
11%
Trophoblast
11%
Cancer Cell
11%
Cell Communication
11%
Assisted Reproductive Technology
9%
Mouse Embryo
8%
Microinjection
8%
Tail
7%
Health Care Cost
7%
Fluoroscopy
7%
Cryoprotectant
7%
Oocyte
6%
Contact Examination
5%
Microvessel
5%
Computer Assisted Tomography
5%
Cardiac Computed Tomography
5%
Health Care Personnel
5%
Anatomical Concepts
5%
Visual Pigment
5%
DNA Template
5%
Cardiac Structure
5%
