2025 International Conference on Aerospace Information Perception and Intelligent Processing (AIPIP 2025) will bring together leading researchers, engineers and scientists in the domain of interest from around the world.
Manuscripts passed the peer-review process by expert reviewers from the conference organizing committee will be accepted and published in the Conference Proceedings. The published papers will then be submitted to EI Compendex, Scopus for abstracting/indexing.
The topics of interest for submission include, but are not limited to:
· Air and Space Information Sensing Technology and Applications · Multispectral/Hyperspectral Image Processing · Radar Imaging and Signal Processing · Satellite Remote Sensing Data Analysis · Intelligent Processing Algorithms and Models · Deep Learning Applications in Airborne Information · Machine Learning and Data Mining Techniques · Adaptive Signal Processing and Pattern Recognition · Air and Space Data Fusion and Integration Methods · Multi-source data fusion technology · Sensor network data integration · Collaborative analysis of space and ground data · Real-time air and space information processing system · Real-time data processing and analysis platform · Application of Edge Computing in Airborne Information Processing · Cloud computing-supported airspace information service · Intelligent Decision Support System · Decision Support Framework Based on Airborne Information · Application of Airborne Information in Emergency Management · Predictive Modeling and Simulation Technology · Frontier Technologies and Emerging Fields · Combination of Airborne Information and Artificial Intelligence · Application of Blockchain Technology in Airborne Information Processing · Prospects of Quantum Computing in Data Processing | · Air and Space Communication Network Architecture and Protocols · Application of 5G/6G Technology in Air and Space Information Processing · Signal Processing and Optimization Technology in Satellite Communication · Air and Space Information Sharing and Cooperative Communication Mechanism · Adaptive Communication Technology for Unmanned Aerial Vehicles · Realization of Highly Reliable Low Latency Communication (URLLC) in Air and Space Applications · Air and Space Data Transmission under the Environment of Internet of Things (IoT) · Space communication security and privacy protection technology · Application of network slicing in airborne information services · Convergence of Aerial Networks and Terrestrial Networks · Application of Edge Computing in Aerial Communication Networks · Intelligent Routing Algorithms in Air-Space Communications · Multi-access Edge Computing Technology and Aerial Networks · Research on Quantum Communication Technology in Space Information Processing · Signal Enhancement and Error Correction Technology in Satellite Links · Delay Optimization Technology in Space Data Transmission |