Scopes
(Including but not limited to the following topics)
Track 1: Aerospace Engineering
Aircraft Structural Analysis and Design Automation
Autonomous flight control
Digital signal processing
Mechanical-electrical equipment control technology
Guidance, navigation and control estimation for aircraft
GPS multipath
Instrumentation and control engineering
Intelligent sensing and information fusion
Sensors and actuators
Spacecraft avionics systems, subsystems and technologies
Spacecraft structure and design
Unmanned autonomous systems
Unmanned aircraft technology and applications
Space communication
Communication, navigation and surveillance
Space system design and integration
Aerospace systems and technologies
Track 2: Unmanned aircraft applications
Unmanned aircraft autonomous navigation and intelligent control system
Multi-unmanned aircraft cooperative control technology
Unmanned aircraft signal processing algorithm optimization
Unmanned aircraft image recognition based on deep learning
Application of edge computing in real-time data processing of unmanned aircraft
Design and optimization of unmanned aircraft power system
New battery technologies and energy storage solutions for unmanned aircraft
Enhancing the electronic immunity of unmanned aircraft against interference
Integration and miniaturization of unmanned aircraft electronic components
RF design and implementation for unmanned aircraft
Research on wireless carrier technology for unmanned aircraft
Research on the architecture and design of unmanned aircraft communication networks, communication protocols between unmanned aircraft clusters
Cloud computing support for unmanned aircraft data storage and management
Unmanned aircraft data processing and analysis platform
Application of multi-source data fusion technology in unmanned aircraft
Track 3: Autonomous systems
Architecture of unmanned autonomous systems in the aerospace field
Autonomous control of aircraft in complex environments
Improvement of autonomous perception and cognitive capabilities of aerospace platforms
Aerospace autonomous decision support system
Autonomous collaborative and formation control of multiple platforms
Integrated technology for autonomous navigation and positioning
Space autonomous operation and maintenance
Task planning and execution optimization for autonomous systems
Evaluation of the safety and robustness of autonomous systems
Unmanned aircraft and satellite autonomous obstacle avoidance technology
Real-time environmental perception and response of unmanned aircraft autonomous systems
Verification and evaluation methods for unmanned aircraft autonomous systems in space
Human-machine collaboration mechanism for autonomous systems
Autonomous adaptive technologies for extreme environments
Intelligent edge computing and integration with autonomous systems
Track 1: Aerospace Engineering
Aircraft Structural Analysis and Design Automation
Autonomous flight control
Digital signal processing
Mechanical-electrical equipment control technology
Guidance, navigation and control estimation for aircraft
GPS multipath
Instrumentation and control engineering
Intelligent sensing and information fusion
Sensors and actuators
Spacecraft avionics systems, subsystems and technologies
Spacecraft structure and design
Unmanned autonomous systems
Unmanned aircraft technology and applications
Space communication
Communication, navigation and surveillance
Space system design and integration
Aerospace systems and technologies
Track 2: Unmanned aircraft applications
Unmanned aircraft autonomous navigation and intelligent control system
Multi-unmanned aircraft cooperative control technology
Unmanned aircraft signal processing algorithm optimization
Unmanned aircraft image recognition based on deep learning
Application of edge computing in real-time data processing of unmanned aircraft
Design and optimization of unmanned aircraft power system
New battery technologies and energy storage solutions for unmanned aircraft
Enhancing the electronic immunity of unmanned aircraft against interference
Integration and miniaturization of unmanned aircraft electronic components
RF design and implementation for unmanned aircraft
Research on wireless carrier technology for unmanned aircraft
Research on the architecture and design of unmanned aircraft communication networks, communication protocols between unmanned aircraft clusters
Cloud computing support for unmanned aircraft data storage and management
Unmanned aircraft data processing and analysis platform
Application of multi-source data fusion technology in unmanned aircraft
Track 3: Autonomous systems
Architecture of unmanned autonomous systems in the aerospace field
Autonomous control of aircraft in complex environments
Improvement of autonomous perception and cognitive capabilities of aerospace platforms
Aerospace autonomous decision support system
Autonomous collaborative and formation control of multiple platforms
Integrated technology for autonomous navigation and positioning
Space autonomous operation and maintenance
Task planning and execution optimization for autonomous systems
Evaluation of the safety and robustness of autonomous systems
Unmanned aircraft and satellite autonomous obstacle avoidance technology
Real-time environmental perception and response of unmanned aircraft autonomous systems
Verification and evaluation methods for unmanned aircraft autonomous systems in space
Human-machine collaboration mechanism for autonomous systems
Autonomous adaptive technologies for extreme environments
Intelligent edge computing and integration with autonomous systems
Important Dates/重要日期
- Submission Deadline: 2026.7.6
- Registration Deadline: 2026.7.13
- Conference Date: 2026.7.21
- Notification Date: About a week after the submission
Submission Portal/投稿方式
Mail Address: ipmalc_or@163.com
If you have any question or need any assistance regarding the conference, please feel free to contact our conference specialists:
徐老师
+86-15680829715(微信同号)
1347638002
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