> Motivations for the use of online optimization within the power system are explained explicitly.

> Provide a comprehensive review of XAI, FL, and DA in the context of applications to medical data.

> Describe XAI, FL, and DA methods and their applications in medicine. Persisting challenges, and future research directions of these three techniques, are also discussed.

> Provide tabulated overview of methods and their applications with references to open-source algorithms and data sets.

> Propose a paradigm taxonomy with three levels and seven dimensions from a knowledge perspective.

> Propose to build a new ecosystem that drives AI paradigm shifts through DeSci movement based on DAO. 

> Design the Hanoi framework, which integrates human factors, parallel intelligence based on a combination of artificial systems and the natural world, and the DAO to inspire AI innovations.

> A stealthy intermittent integrity attack generation strategy is formulated.

> An optimal fixed-point smoother with covariance matrix resetting is proposed.

> Corresponding adaptive threshold is designed, and an attack detectability analysis is carried out to characterize quantitatively the class of detectable stealthy intermittent integrity attacks.

> A novel machine learning accelerated perturbation control based MPC method is presented for power systems.

> A control scheme involving realistic coordination among SVC, LS, and LTC is proposed, where the slow-acting LTCs are formulated to have a delayed control effect to appropriately reflect their real-world behavior.

> Noncooperative game is reformulated in the framework of MPC under state/input constraints.

> An iterative algorithm is proposed for the game such that the ε-NE can be attained distributedly.

> Sufficient conditions are given to ensure the convergence of the iterative algorithm.

> Deterministic and stochastic fixed-time stability of autonomous nonlinear DT systems are presented.

> Lyapunov conditions are first presented under which the fixed-time stability of deterministic DT systems is certified.

> Extensions to systems under deterministic perturbations as well as stochastic noise are then considered.

> GESO and EID are compared.

> A detailed observation of disturbance-suppression mechanisms is carried out.

>A time-domain index is introduced to assess the disturbance-rejection performance.

> Resilient design of the TL against DoS attacks is investigated.

> A novel decentralized adaptive controller against unbounded AAs is proposed.

> A resilient formation-tracking experiment on a swarm of UAVs is conducted, which verifies the effectiveness and practicability of the designed two-layered control scheme.

> Secure energy-to-peak state estimation is studied for the first time against eavesdropping.

> An artificial-noise-based encryption scheme is developed to protect the information security.

> Desired estimator parameter is calculated by solving certain recursive matrix inequalities.

> Leader-following output consensus problem of heterogeneous linear multi-agent systems with unknown agent parameters under directed graphs is solved.

> Followers are allowed to be non-minimum phase with unknown arbitrary individual relative degrees.

> A distributed adaptive pole placement control scheme is developed.

> First paper considering the security issue of serial manipulators in the control.

> Presents a co-design of kinematics control and attack identification.

> Present both theoretical analysis and numerical experiments to validate the effectiveness.

> Suppress the vibrations of multiple flexible manipulators.

> Realize leader-follower angle consensus for multiple flexible manipulators.

> Handle parameter uncertainties and actuator failures with neural networks.

> Pricing problem in microgrid trading is modeled as related game models to solve.

> Generalized game model is used to design sale prices for MGs in MGC trading.

> Evolutionary game model is used to design sale prices for MGs in P2P trading.

> SLMEA serves as the first attempt for super-large-scale multi-objective optimization.

> SLMEA solves problems with up to one million variables in the experiments.

> SLMEA is a totally black-box algorithm without using problem-specific information.

> Propose a novel PRAN for the pipeline leakage detection.

> Present a novel PSO-optimized LSTM network for the pipeline leakage detection..

> Introduce an AM to excavate class discriminative information by weighting the hidden states.