A5035213437- Network Time Synchronization Technologies
- Smart Grid Security and Resilience
- Energy Efficient Wireless Sensor Networks
- Context-Aware Activity Recognition Systems
- IoT Networks and Protocols
- Age of Information Optimization
- Petri Nets in System Modeling
- Wireless Body Area Networks
- Advanced Photocatalysis Techniques
- Advanced Nanomaterials in Catalysis
- Wood and Agarwood Research
- CO2 Reduction Techniques and Catalysts
- Energy Harvesting in Wireless Networks
- Smart Agriculture and AI
- Machine Learning and ELM
- Electrocatalysts for Energy Conversion
- Electrochemical sensors and biosensors
- Software-Defined Networks and 5G
- EEG and Brain-Computer Interfaces
- Power System Reliability and Maintenance
- Real-Time Systems Scheduling
- Advanced Memory and Neural Computing
- Carbon Dioxide Capture Technologies
Nanjing University
2025
State Key Laboratory of Pollution Control and Resource Reuse
2025
Shanghai Jiao Tong University
2020-2024
Fujian Agriculture and Forestry University
2024
Ministry of Education of the People's Republic of China
2022-2023
The escalating global fecal waste and rising CO2 levels present dual significant environmental challenges, further intensified by urbanization. Traditional management methods are insufficient, particularly in addressing the related health risks threats. This study explores synthesis of biochar from pig manure as a carbon substrate to disperse stabilize Cu nanoparticles, resulting formation an efficient Cu-NB-2000 electrocatalyst for electrocatalytic reduction (ECR). Through characterization...
For improving the performance of industrial cyber-physical systems (ICPS), joint design control and transmission has been demonstrated as an efficient mechanism. However, existing metrics in recent works lack completeness accuracy, which leads to challenge stability network resource utilization ICPS. This article proposes a full-loop age information (FL-AoI)-based architecture for multisubsystem ICPS integrating multihop network. The FL-AoI depicts timeliness by state delay, input...
As an emerging communication tool, Time-Sensitive Networking (TSN) is proposed by the IEEE 802.1 TSN Task Group to achieve deterministic data transmission. defines protocols ensure determinism of traditional Ethernet configuring gate control list (GCL). However, calculating schedules GCL according different time-sensitive applications, not well-defined in standard. In this paper, we focus on problem mixed To end, first model into three categories: high (HTS) flows, low (LTS) and best-effort...
Cyber-physical power system (CPPS) stability is severely affected by the communication network performance due to cyber-physical interdependence. Thus, uncertain coordinated attacks (CPCA) pose more significant threats CPPS than physical attacks. However, defense strategies in recent works assume real-time and reliable transmission under an ideal cyber-attack, leading inaccurate interdependence modeling. Therefore, are ineffective against CPCA. This paper proposes a hierarchical architecture...
Co-design of control and communication is critical to enhancing the performance industrial Cyber-Physical System (ICPS). However, stochastic features non-deterministic strategies in existing works limit improvement. This paper proposes a centralized-control deterministic-transmission co-design architecture for multi-subsystem ICPS over Time-Sensitive Network (TSN). Packet-wise no-wait transmission scheduling devised enable fine-grained deterministic delays system data. An integrated model...
Traditional methods for designing cyber-physical systems (CPS) are mostly based on the best-effort communication to design control and transmission mechanisms independently, which limits overall system performance. Moreover, these focus utilization of resources without sufficient consideration deterministic low latency communication. Hence, co-design in CPS integrated with Time Sensitive Networking (TSN), that provides transmission, is a promising challenging problem. In this paper, we...
Industrial wireless communication networks (IWCNs) have been widely applied in data interaction between field sensors and edge computing units. Nevertheless, harsh industrial environments malicious attacks cause loss delay, which makes it challenging to satisfy the reliability timeliness requirements of IWCNs. Considering limited energy budget, computation capacity, multiple unreliable factors, traditional reliable transmission policies become less efficient for To handle these issues, this...
The joint design of control and transmission has been demonstrated to be a successful technique for enhancing the performance industrial cyber-physical systems (ICPS). In majority existing works, cost are defined independently, followed by weighted total calculation. This approach suffers from dimension consistency issue, leading results diverge system's actual optimal performance. Hence, it is necessary consider overall information loop characterize coupling relationship between construct...
To improve the performance of industrial cyber-physical systems (ICPS), joint design control and transmission has been shown to be an effective mechanism. However, existing work lack completeness accuracy, which brings challenges improving stability network resource utilization ICPS. In this paper, we propose a architecture for integrated multi-subsystem ICPS multi-hop networks. We consider timeliness information through state delays, input event-triggered states in avoid instability caused...