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Bo Li
Assistant Professor
,
Department of Computing
https://orcid.org/0000-0001-7500-8355
Phone
27667255
Email
comp-bo.li
polyu.edu
hk
h-index
260
Citations
9
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2014
2024
Research activity per year
Overview
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Network
Research output
(36)
Activities
(9)
Similar Profiles
(1)
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Dive into the research topics where Bo Li is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Keyphrases
Bayesian Auction
73%
Seller
61%
Sliding Motion
59%
Least Core
54%
Nucleolus
54%
Mechanism Design
53%
Bayesian Mechanism
39%
Algorithm Design
39%
Linear Matrix Inequality
39%
Incentive Mechanism
36%
Cooperative Game
36%
Envy-freeness
35%
Constant Approximation
35%
Facility Location Problem
33%
Efficient Query
33%
Dominant Strategy
33%
Query Complexity
33%
Block Withholding Attack
33%
Miners
33%
Neural Sliding Mode Control
33%
Fairness Notion
33%
Matching Game
33%
Sliding Mode Dynamics
33%
Cardinality Matching
33%
Transition Rates
33%
Observer-based
33%
Optimal Revenue
32%
Numerical Examples
30%
Polynomial Time
30%
Envy-free
30%
Design Mechanism
29%
Single-item Auction
28%
Almost Optimal
28%
Unknown Nonlinearities
28%
Minimum Distance
25%
Maximin Share
25%
Proportional Allocation
25%
Adaptive Neural Network
25%
Envy-free Allocations
25%
Integral Sliding Surface
25%
Closed-loop System
25%
Quantile Queries
23%
Value Queries
23%
Unit-demand
23%
Common Knowledge
22%
Adaptive Sliding Mode Control
22%
Actuator Attacks
22%
Valuation Function
19%
Additive Valuations
19%
Play Value
19%
Computer Science
Mechanism Design
100%
Approximation (Algorithm)
91%
Polynomial Time
60%
Sliding Motion
56%
Dominant Strategy
56%
Sliding Mode Control
45%
Algorithm Design
38%
Multi Agent Systems
36%
Solution Concept
36%
Location Problem
33%
Proportionality
33%
Cardinality
33%
Approximation Ratio
33%
Linear Programming
33%
Actuator
28%
Adaptive Neural Network
25%
Bitcoin
25%
Competitive Ratio
25%
Neural Network
22%
polynomial-time algorithm
22%
linear matrix
19%
Common Knowledge
18%
Information Elicitation
16%
Scheduling Interval
16%
Free Assignment
16%
Blockchain
16%
Design Perspective
16%
Robot
16%
Fair Resource Sharing
16%
Allocating Resource
16%
Directed Network
16%
Triggered Event
16%
multiple robot
16%
Undirected Network
16%
Fundamental Problem
16%
Research Agenda
16%
Security Control
16%
Adversarial Machine Learning
16%
Computational Geometry
16%
Computational Complexity
16%
mobile manipulator
16%
Time-Varying Delays
16%
Processing Time
16%
Optimal Strategy
16%
Neural Network Approach
16%
Capacity Constraint
16%
Scheduling Problem
16%
Subadditive
16%
Boundary Condition
16%
Approximation Algorithms
16%
