Dear colleagues,

please find enclosed the call for papers for the third edition of AIRCAD 2025 @ ICIAP.

 

Kind regards

 

[apologies for multiple postings]

 

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CALL FOR PAPERS - AIRCAD 2025 @ICIAP 2025

 

3rd International Workshop on Artificial Intelligence and Radiomics in Computer-Aided Diagnosis AIRCAD 2025

held in conjunction with the 23rd International Conference on Image Analysis and Processing ICIAP2025,

Roma, Italy, September 2025

 

https://sites.google.com/view/aircad2025

 

AIMS AND SCOPE

In the modern era, healthcare systems predominantly operate with digital medical data, facilitating a wide array of artificial intelligence applications. There's a growing interest in quantitatively analysing clinical images through techniques like Positron Emission Tomography, Computerised Tomography, and Magnetic Resonance Imaging, particularly in the realms of texture analysis and radiomics. Through machine and deep learning advancements, researchers can glean insights to enhance the discovery of therapeutic tools, bolster diagnostic decisions, and aid in the rehabilitation process. However, the huge volume of available data may intensify the diagnostic effort, exacerbated by high inter/intra-patient variability, diverse imaging techniques, and the necessity to incorporate data from multiple sensors and sources, thus giving rise to the well-documented domain shift issue.

 

To tackle these challenges, radiologists and pathologists employ Computer-Aided Diagnosis (CAD) systems, which assist in analysing biomedical images. These systems mitigate or eradicate difficulties arising from inter- and intra-observer variability, ensuring consistent assessments of the same region by the same physician at various times and across different physicians, thanks to adept algorithms.

 

Additionally, significant issues such as delayed or restricted data access, driven by privacy, security, and intellectual property concerns, pose considerable hurdles. Consequently, researchers are increasingly exploring the use of synthetic data, both for model training and for simulating scenarios not observed in real life.

 

Furthermore, the emergence of foundation models, such as Vision Transformers and large multimodal models, represents a paradigm shift in medical image analysis. These models, pre-trained on vast datasets, demonstrate remarkable adaptability across various tasks, including segmentation, classification, and multi-modal integration. Their ability to generalise effectively offers promising avenues for addressing domain shift issues and integrating heterogeneous data sources, enhancing diagnostic and predictive accuracy.

 

This workshop aims to provide a comprehensive overview of recent advancements in biomedical image processing, leveraging machine learning, deep learning, artificial intelligence, and radiomics features. Emphasis is placed on practical applications, including potential solutions to address domain shift issues, the utilisation of synthetic images to augment CAD systems, and the integration of foundation models into clinical workflows. Ultimately, the aim is to explore how these techniques can seamlessly integrate into the conventional medical image processing workflow, encompassing image acquisition, retrieval, disease detection, prediction, and classification.

 

 

TOPICS

The workshop calls for submissions addressing, but not limited to, the following topics:

- Machine and Deep Learning techniques for image analysis (i.e., segmentation of cells, tissues, organs, lesions; classification of cells, diseases, tumours, etc.)

- Image Registration Techniques

- Image Preprocessing Techniques (e.g., noise reduction, enhancement of contrast)

- Image-based 3D reconstruction

- Computer-Aided Detection and Diagnosis Systems (CADs)  to support clinicians in identifying pathological conditions

- Radiomics and Artificial intelligence for personalised medicine

- Machine and Deep Learning as tools to support medical diagnoses and decisions

- Image retrieval (e.g., context-based retrieval, lesion similarity)

- Advanced architecture for biomedical image remote processing, elaboration and transmission

- 3D Vision, Virtual, Augmented and Mixed Reality application for remote surgery

- Image processing techniques for privacy-preserving AI in medicine.

- Generation and utilisation of synthetic medical images for model training and validation

- Foundation models (e.g., Vision Transformers, GPT-like architectures) for medical image analysis and multi-modal data integration

- Techniques for evaluating the reliability and robustness of synthetic data in clinical scenarios

- Ethical and Regulatory Aspects in AI-Driven Medical Imaging

- Frameworks for ethical AI development and deployment in healthcare.

- Addressing biases and ensuring fairness in AI-driven diagnostic systems.

- Compliance with regulatory standards for AI-based medical devices

- Addressing the transparency issue with explainable AI models in clinical practice.

 

SUBMISSION GUIDELINES

Accepted papers will be included in the ICIAP 2025 proceedings, which will be published by Springer as Lecture Notes in Computer Science series (LNCS). When preparing your contribution, please follow the guidelines provided on the ICIAP main conference website. The maximum number of pages is 12 including references. Each contribution will be reviewed based on originality, significance, clarity, soundness, relevance and technical content. The submission will be handled electronically via the Conference's CMT Website:

 

https://cmt3.research.microsoft.com/AIRCAD2025

 

Once accepted, the presence of at least one author at the event and the oral presentation of the paper are expected. For more details about the registration see the ICIAP main conference details.

 

 

IMPORTANT DATES

- Paper Submission : 15 June, 2025

- Notifications to Authors : 30 June 2025

- Camera Ready Papers Due : 10 July, 2025

- Workshop Event: 15/16 September, 2025

 

ORGANIZERS

Albert Comelli, Ri.MED Foundation, acomelli@fondazionerimed.com

Cecilia Di Ruberto, University of Cagliari, dirubert@unica.it

Andrea Loddo, University of Cagliari, andrea.loddo@unica.it

Lorenzo Putzu, University of Cagliari, lorenzo.putzu@unica.it

Alessandro Stefano, Institute of Molecular Bioimaging and Physiology, National Research Council of Cefalu’, alessandro.stefano@ibfm.cnr.it

Luca Zedda, University of Cagliari, luca.zedda@unica.it