1) Title: Integrated Micro-System in Medicine
Organizer-Chairman: Professor Georges Nassar
Institute of Electronic, Microelectronic & Nanotechnology, INSA (HdF), UPHF, 59300 Valenciennes, France
E-mail:[email protected]
Aim: Today, healthcare technologies are reshaping our life and providing a more advanced, targeted and efficient service. Like some sectors that have had to evolve due to the emergence of new technologies, healthcare providers must adapt to the technological trends in their sector to be able to best guide the patient towards an optimized therapy. Indeed, smart technologies are being added to the healthcare sector at a rapid pace, bringing hope for improved treatment and effective care. This is particularly important for healthcare establishments looking for solutions to better manage admission flows and adapt care effectively. As a result, the transfer and ‘real-time’ coupled analysis of multiple physiological data becomes a necessity in order to ensure continuous information monitoring with the aim of improving performance both in diagnosis and in the choice of therapy.
Topics:
- Bio-MEMS
- Network connected Sensors
- Embedded System
- Biotechnologies
- Bio-Connected Architecture
- Autonomous Diagnosis Design
- Intelligence Analysis
- Telemedical Modeling Unit
- Decision Support Programming System
2) Title: Distance Learning In The Digitalization And Artificial Intelligence Era
Organizer-Chairman: DR JOANNA ROSAK-SZYROCKA
Assistant Professor, Department of Production Engineering and Safety. Faculty of Management, CZESTOCHOWA UNIVERSITY OF TECHNOLOGY, POLAND
E-mail: [email protected]
www.rosak-szyrocka.pl
https://scholar.google.com/citations?user=9zafgbcAAAAJ&hl=en
Aim: In recent years, there has been a substantial shift in how e-learning is approached. Due to the extensive usage of e-learning, many teachers have thus far addressed the implementation of the didactic process using this method. As a result, educators have been obliged to quickly switch to educating students using platforms like Moodle. The epidemic has altered schooling forever. It was an effort on the part of both students and instructors. Teachers who are digitally aware and well qualified are needed in the epidemic crisis. Inquire about the Web 3.0 transformation project, which refers to intelligent apps employing natural language processing, machine-based learning, and reasoning. The Web has changed since the early days of the Web 3.0 transformation project. Therefore, educators should improve their knowledge and abilities in order to make the best use possible of technical equipment, E-learning tools, educational apps, and other online platforms for educational applications. Although virtual universities have been around for about ten years, there hasn't been much research done to show how much this knowledge differs from traditional knowledge acquisition in terms of quality, pedagogical methods used, and other issues. There has also been little research done on how students and teachers view teaching in terms of time, work organization, didactic needs, and personal character predispositions. Universities are being forced to change their curricula and methods of teaching as we approach the Industry 4.0 industrial revolution in order to prepare students for careers as engineers who can function in a virtual and almost totally automated world. Unquestionably, remote learning is a cutting-edge teaching technique that seamlessly integrates with the strategies used to train employees for Industry 4.0. The rapid growth of mobile digital information and communication technologies at the age of 30 indicates that a shift in how people see e-education is inevitable. Largely portable Computer devices (laptops, palmtops, and tablets), especially contemporary ones, have risen in popularity as multimedia gadgets in the media world, where modern people and businesses function. Smartphones and wireless Internet access will be commonplace in Industry 4.0, allowing human resources to be included in training programs that employ computer-stored materials and online activities. Due to this, it is crucial to start research and train future Industry 4.0 employees via distance learning. In line with the advancement of information and communication technology, e-learning has dramatically changed. Opportunities that conventional training does not provide are offered by e-learning. Mobility, flexibility, and interaction are three of this style of education most significant benefits. After the invention of the Web, e-Learning really took off, and it is continually evolving to meet new difficulties. All educational levels use this kind of instruction. The learning process, as well as that of university instructors and students, may greatly benefit from e-Learning. The aim of this special session is to discuss how education has changed, especially in times of pandemic, digitalization, AI times and what challenges universities face in ensuring the highest possible level of education. The aim of the session will also be to find out how teachers and students evaluate distance learning, what their expectations are, and what elements require improvement. It will also be discussed whether e-learning is our future and what the main problems are with introducing such a form of education at Universities in the industry 5.0, digitalization and artificial intelligence (AI) eras.
Topics:
- Distance learning
- Industry 4.0
- Industry 5.0
- Digitalization era
- E-learning in the face of demographic trends
- Web 3.0 in e-learning
- Digitalization at a university
- E-learning as a desirable form of education
- Artificial intelligence
- ChatbotFuture competences
- Smart Universities
3) Title: AI-enabled information systems
Organizer-Chairman: Dr. Mariya Evtimova
Université Paris 1 Panthéon- Sorbonne, Paris, FRANCE
E-mail: [email protected]
Aim: The Information Systems and Technologies research using AI is invited to submit proposals for the organization of AIEIS “AI- enabled information systems” is a special session in the Electrical Engineering & Computer Science (ELECS) conference that will be held in Bern, Switzerland. December 21-23, 2024. AIEIS is a global forum for researchers and practitioners to present and discuss the most recent innovations, trends, results, experiences and concerns in the AI that is present to Information Systems and Technologies.
Topics:
- Machine learning algorithms
- Questions & Answering systems
- Knowledge Reasoning
- Semantic systems
- Metadata description and metadata systems
- Ontologies and knowledge graph applications
- Data mining systems
- Natural Language Processing algorithms
- Recommender systems
- Knowledge discovery
- Intelligent Systems
- Artificial Neural Networks
- Fuzzy and probability systems
- Big Data systems
- Information processing
- Information extraction
- Data- sharing and fairness in AI
- Human-computer interaction systems
- intelligent support systems in human science
- intelligent support systems in education
- intelligent business systems
4) Title: Advanced Computational and Artificial Intelligence Methods in Smart Forestry
Organisers-Chairs: Dr. Robertas Damasevicius
Faculty of Applied Mathematics, Silesian University of Technology, Gliwice, Poland
Email: [email protected]
Prof. Dr. Gintautas Mozgeris
Agriculture Academy, Faculty of Forest Sciences and Ecology, Department of Forest Sciences, Vytautas Magnus University, Akademija, Lithuania.
Email: [email protected]
Dr. Rytis Maskeliunas
Department of Multimedia Technologies, Kaunas University of Technology, 51311 Kaunas, Lithuania
Email: [email protected]
Aim: To provide a platform for researchers, practitioners, and policymakers to discuss, share, and promote the latest advancements in computational techniques and AI applications tailored for forestry. This special issue aims to shed light on the intersection of AI, data science, and the intricate dynamics of forest ecosystems, paving the way for more informed forest management, conservation, and industry practices. This conference special issue seeks to combine the collective expertise of multiple disciplines, ensuring a comprehensive perspective on the potential of AI and advanced computational techniques in revolutionizing forestry for the betterment of both humanity and the planet.
Topics:
- Remote Sensing and AI: Utilization of machine learning techniques for interpreting satellite imagery, LiDAR data, and drone footage in forest monitoring and assessment.
- Predictive Modeling: Employing deep learning and other AI models to forecast forest growth, disease outbreaks, pest infestations, and the effects of climate change.
- Automated Wildlife Tracking: Leveraging AI in the identification and monitoring of wildlife populations within forested areas, using sensors, audio recordings, and cameras.
- Forest Fire Detection and Prediction: Utilizing machine learning algorithms for early detection of forest fires, prediction of fire spread, and strategizing containment.
- Sustainable Forest Management: AI-assisted tools for monitoring tree growth, calculating sustainable harvest rates, and ensuring reforestation success.
- Bioacoustic Monitoring: Using neural networks and other AI methods to interpret and catalog forest sounds, aiding in biodiversity assessments and ecosystem health monitoring.
- Timber Traceability and Supply Chain Monitoring: Implementing blockchain and AI for ensuring sustainable and transparent forestry practices.
- Smart IoT Devices in Forestry: Deployment and data interpretation from smart sensors, RFID tags, and other IoT devices for real-time forest monitoring.
- Forest Health and Disease Analysis: AI-driven diagnostic tools for detecting pathogens, diseases, and other stressors in forest ecosystems.
- AI-Driven Conservation Efforts: Strategies and applications for using AI to boost conservation efforts, including protection of endangered species and habitats.
- Virtual and Augmented Reality in Forestry Education: Innovative ways to leverage AI in producing immersive educational experiences for forestry students and professionals.
- Forest Biomimicry and AI: Learning from forest structures and processes to enhance AI algorithms and architectures.
- Data Integration and Interoperability: Challenges and solutions in merging heterogeneous datasets for comprehensive forest analyses.
5) Title: Emerging Technologies in Social Commerce
Organiser-Chairman: Prof. Dr. Achmad Nizar Hidayanto
Professor of Information Systems, Universitas Indonesia, Faculty of Computer Science, Kota Depok, Jawa Barat 16425, Indonesia
E-mail: [email protected]
Aim: In an era where social media platforms have transformed the way businesses interact with their customers, understanding and connecting with your audience is more critical than ever before. The conference session, "Knowing Your Customer in The Age of Social Commerce," delves deep into the dynamic world of social commerce and explores strategies to unlock the power of customer insights. In today's interconnected digital landscape, consumers are not only making purchases online but also actively engaging with brands and products through social media. This special session seeks to foster a deep understanding of customer behavior, preferences, and interactions in the age of social media and e-commerce, and how they influence customers’ purchase intentions and decision-making processes.
Topics:
- Navigating the Social Commerce Revolution
- Customer Profiling and Behavioral Analysis
- Personalization and Customer Experience
- Data Privacy and Ethical Considerations
- Case Studies and Success Stories
- Future Trends and Innovations
- Networking and Collaboration
- Exploration of Customer Motivations
- Impact on Purchase Intentions
- Best Practices and Strategies for understanding customer engagement
6) Title: Circuit Design, Calibration, Advances and Applications of Sensor and Data Converters
Organiser-Chairman: Prof. Dr. Hua Fan
Professor of School of Integrated Circuit Science and Engineering (Exemplary School of Microelectronics), University of Electronic Science and Technology of China, Chengdu, China
E-mail: [email protected]
Aim: Wearable electronics are devices that can be worn or mated with human skin to pay close attention to activities of individual continuously without interrupting or limiting the motions of people and will play vital functions in future prevention-oriented healthcare monitoring systems. Most wearable sensing technologies that exist have focused on power efficiency, cost and portability. Future proactive health technologies, on the other hand, must be accurate and high-resolution if the general population is going to adopt them. In the other words, when sensor nodes are used in the body area networks for data collection, linearity and resolution are usually of much more vital importance than the power, because the amplitude of these signals is quite small. This session aims to bring together researchers, academicians and practitioners for discussion and exchange of ideas on the latest developments in high-resolution circuit design of the sensor as well as data converters, which always play an important role in the sensor microsystem.
Topics:
- Navigating the Social Commerce Revolution
- Customer Profiling and Behavioral Analysis
- Personalization and Customer Experience
- Data Privacy and Ethical Considerations
- Case Studies and Success Stories
- Future Trends and Innovations
- Networking and Collaboration
- Exploration of Customer Motivations
- Impact on Purchase Intentions
- Best Practices and Strategies for understanding customer engagement