Prospective authors are invited to submit their full papers using EDAS online submission system. All submissions should be written in English with a length of up to 6 pages (font size 10, double column) following the standard IEEE conference templates. Only PDF files will be accepted for the review process. Submitted papers will be peer-reviewed. Like the previous events, accepted and presented papers in ICCSPA’24 will be submitted for indexing in IEEE Xplore and Scopus. Selected papers will be invited for further peer-reviewed publication in a special issue in a reputable journal. More details will be provided soon.
Full Paper Templates
Use these templates to prepare your submission for ICCSPA’26:
- A4 Paper Template (Word Document)
- LaTex Template (Zip file)
Important Dates
December 1, 2025
December 21, 2025 (extended)
Jan 31th 2026 (FIRM)
Tutorial Proposals
Tutorial Proposal Submission: April 7, 2026
Acceptance Notification: April 27, 2026
Scheduled Tutorial Date: June 15, 2026
Acceptance Notification
February 20, 2026
March 9, 2026
March 11, 2026
March 15, 2026
March 27, 2026
March 15, 2026
March 27, 2026
Conference Tracks
The conference welcomes submissions across four distinct research tracks to foster focused discussions among researchers with shared interests. Each track encompasses a range of interconnected topics and methodologies, encouraging both theoretical contributions and practical applications. While the topics listed under each track highlight primary areas of interest, they are not exhaustive—we encourage submissions that explore emerging themes, interdisciplinary approaches, and novel perspectives that align with the broader scope of each track. Authors are invited to select the track that best fits their research contribution, keeping in mind that cross-track dialogue and collaboration are actively encouraged throughout the conference.
Track 1
AI, Learning, and Optimization for Wireless Communications and Networks
- Deep, federated, and reinforcement learning for wireless systems
- Learning-based resource allocation, network slicing, and traffic prediction
- Optimization algorithms for network control and network design
- Edge intelligence, and autonomous network management
- Semantic communication, goal-oriented networking
- AI-driven PHY/MAC layer solutions and digital twin architectures
- Trustworthy AI for mobile networks (e.g., adversarial robustness, explainability)
Track 2
Wireless Communication Theory, Protocols, and Physical Layer Technologies
- Channel modeling, modulation, coding, and MIMO systems
- mmWave, Terahertz, and reconfigurable intelligent surfaces (RIS)
- MAC layer design, cross-layer optimization, spectrum access, spectrum sharing
- Protocols for next-generation wireless systems.
- Coexistence and interference management in heterogeneous networks
- Low-latency, energy-efficient, and ultra-reliable systems
- Security, privacy and resilience in wireless communication systems
Track 3
Sensing, Positioning, and Navigation in Wireless and Networked Systems
- RF-based and cooperative sensing
- High-precision positioning (e.g., mmWave, UWB, GNSS, LEO satellite)
- Sensor fusion for localization and mapping (SLAM)
- Wireless imaging and environmental reconstruction
- Joint communication and sensing (JCAS), quantum sensing
- Robust navigation for autonomous vehicles, drones, and mobile robots
- Adversarial robustness, security and privacy in localization systems
Track 4
Emerging Technologies and Applications
- Internet of Things (IoT/IIoT), V2X, UAVs, smart cities
- Non-terrestrial networks (NTN), satellite and high-altitude platforms
- SDN/NFV, multi-access edge computing, EdgeAI, and 6G architectures
- Biomedical and wearable communication systems
- Quantum, molecular, and nano-scale communications
- Optical wireless, LiFi, and free-space optics
- AR/VR/XR, immersive media, and tactile internet
- Testbeds, real-world deployments, and industry verticals
- Security and privacy of applications and protocols