期刊信息
Advanced Engineering Informatics (AEI)
https://www.sciencedirect.com/journal/advanced-engineering-informatics影响因子: |
8.000 |
出版商: |
Elsevier |
ISSN: |
1474-0346 |
浏览: |
25382 |
关注: |
20 |
征稿
The science of supporting knowledge-intensive activities Advanced computing methods and related technologies are changing the way engineers interact with the information infrastructure. Explicit knowledge representation formalisms and new reasoning techniques are no longer the sole territory of computer science. For knowledge-intensive tasks in engineering, a new philosophy and body of knowledge called Engineering Informatics is emerging. Advanced Engineering Informatics solicits research papers with particular emphases both on 'knowledge' and 'engineering applications'. As an international Journal, original papers typically: • Report progress in the engineering discipline of applying methods of engineering informatics. • Have engineering relevance and help provide the scientific base to make engineering decision-making more reliable, spontaneous and creative. • Contain novel research that demonstrates the science of supporting knowledge-intensive engineering tasks. • Validate the generality, power and scalability of new methods through vigorous evaluation, preferably both qualitatively and quantitatively. In addition, the Journal welcomes high quality review articles that summarise, compare, and evaluate methodologies and representations that are proposed for the field of engineering informatics. Similarly, summaries and comparisons of full-scale applications are welcomed, particularly those where scientific shortcomings have hindered success. Typically, such papers have expanded literature reviews and discussion of findings that reflect mastery of the current body of knowledge and propose novel additions to contemporary research. Papers missing explicit representation and use of knowledge, such as those describing soft computing techniques, mathematical optimization methods, pattern recognition techniques, and numerical computation methods, do not normally qualify for publication in the Journal. Papers must illustrate contributions using examples of automating and supporting knowledge intensive tasks in artifacts-centered engineering fields such as mechanical, manufacturing, architecture, civil, electrical, transportation, environmental, and chemical engineering. Papers that report application of an established method to a new engineering subdomain will qualify only if they convincingly demonstrate noteworthy new power, generality or scalability in comparison with previously reported validation results. Finally, papers that discuss software engineering issues only are not in the scope of this journal.
最后更新 Dou Sun 在 2024-07-12
Special Issues
Special Issue on The 31st international conference on intelligent computing in engineering (EG-ICE): Data and Intelligent Methods for Engineering the Built Environment截稿日期: 2025-01-31This special issue collects a selection of the best research works presented at the 31st International conference on intelligent computing in engineering (EG-ICE): Data and intelligent methods for engineering the built environment. EG-ICE stands for the European Group for Intelligent Computing in Engineering, who aims to promote research and applications of advanced informatics in all aspects of engineering. The research topics tackled are focuses on intelligent computing, which involves applying advanced computing methods to enhance performance in engineering for a variety of applications such as: Life-cycle support, advanced computing in engineering, automation and robotics, BIM and engineering ontologies, monitoring and control algorithms in engineering, enhancing sustainability and resilience, engineering optimization, computer-supported construction management, among others. This community therefore has a clear commitment with society, and thus research findings include: 1) technological innovation by applying advanced informatics techniques in engineering, thus leading to more efficient, secure, and sustainable solutions in areas such as design, simulation, optimization, and control; 2) Process improvement by enabling automation, reducing errors, and accelerating product and system development; 3) solving complex problems, such as managing large amounts of data, optimizing intricate systems, and making model-based decisions; 4) exploiting the interdisciplinary collaboration, that involve experts in computer science, civil engineering and architecture, together with mathematics, natural sciences, and even social sciences. The aforementioned problems need to be approached from multiple perspectives resulting in more comprehensive and original solutions for the challenges that our society is facing now and in the future. Guest editors: Dr. Belén Riveiro Universidade de Vigo, Vigo, Spain Prof. Pedro Arias-Sánchez Universidade de Vigo, Vigo, Spain Manuscript submission information: Open for Submission: 24-Oct-2024 to 31-Jan-2025 Submission Site: Editorial Manager® Article Type Name: "VSI: EG-ICE Workshop 2024" - please select this item when you submit manuscripts online All manuscripts will be peer-reviewed. Submissions will be evaluated based on originality, significance, technical quality, and clarity. Once accepted, articles will be posted online immediately and published in a journal regular issue within weeks. Articles will also be simultaneously collected in the online special issue. For any inquiries about the appropriateness of contribution topics, welcome to contact Leading Guest Editor (Dr. Belén Riveiro). Guide for Authors will be helpful for your future contributions, read more: Guide for authors - Advanced Engineering Informatics For more information about our Journal, please visit our ScienceDirect Page: Advanced Engineering Informatics Keywords: intelligent computing in engineering; advanced computing methods; automation in engineering; robotics; BIM; structural health monitoring; engineering optimization
最后更新 Dou Sun 在 2024-11-23
Special Issue on Towards a Cognitive Product Design and Manufacturing System: Enhancing Industrial Information Integration with KG and/or LLM截稿日期: 2025-02-28Current product design and manufacturing systems (PDMS) have embraced perception technology with excellent performance, such as recognizing objects from sketches and recognizing objects in assembly process. The next step is enhancing the cognitive capability of PDMS, i.e. the capability of understanding, reasoning and learning design and manufacturing information/knowledge. Given a task or object, a cognitive PDMS should know “what-it-is”, “what-I-can-do” and “how-to-do”. To achieve this, the PDMS should integrate related information/knowledge as much as possible and transform the related information/knowledge into machine-readable and machine-understandable format. But a critical issue in PDMS is that the information/knowledge in this area is usually multi-sourced and multi-modal. Two research topics still need to be further investigated: 1) how to integrate and understand the multi-sourced and multi-modal knowledge in PDMS in the semantic level, 2) how to apply the integrated information/knowledge with semantic meanings for the product design and manufacturing tasks. The convergence of large language models (LLMs) and knowledge graphs (KGs) presents a promising opportunity for advanced PDMS. KG enhances cognitive capabilities, such as semantic understanding and complex reasoning, while LLMs could exploit pre-training techniques for comprehensive understanding and reasoning. The collaboration of LLMs and KGs would advance product design and manufacturing systems on many scenarios, such as requirement extraction based on multimodal data, multimodal design case retrieval, assembly process recommendation in natural interactions, real-time production process monitoring and optimization, etc. Despite successes, studies on LLMs and KGs in PDMS remain limited. This special issue (SI) welcomes researchers, scholars, and practitioners to contribute original research papers, reviews, and case studies that explore the applications of LLMs and/or KGs in PDMS area. The topics of interest include, but are not limited to: Theory and framework of LLM/KG-augmented PDMS Knowledge integration/reasoning/management/application approaches in PDMS Data integration/analysis/management/application approaches in PDMS Advanced product design approaches using KG or LLM, e.g., complex product design approach, collaborative design approach, bio-inspired design approach, conceptual product design approach, embodiment design approach, etc. Advanced manufacturing approaches using KG or LLM, e.g., assembly approach, human-robot collaboration approach, quality control approach, etc. The mechanism of LLM-KG integration in PDMS Review articles of LLM/KG-driven PDMS Case studies of LLM/KG-driven PDMS Guest editors: Prof. Ying Liu Cardiff University, Cardiff, United Kingdom Dr. Zuoxu Wang Beihang University, Beijing, China Dr. Xinyu Li Donghua University, Shanghai, China Dr. Ru Wang Beijing Institute of Technology, Beijing, China Dr. Xingyu Li Purdue University, West Lafayette, IN, United States Prof. Ang Liu University of New South Wales, Sydney, Australia
最后更新 Dou Sun 在 2024-09-28
Special Issue on Human-AI Collaboration for Engineering Designs and Services in the Evolution of Industry 5.0 and Beyond截稿日期: 2025-03-31In the field of engineering, the arrival of the digital transformation era has brought about a fundamental paradigm change that presents both previously unthinkable possibilities and difficult challenges (Lee et al., 2021). One notable challenge is the increasing complexity of cybersecurity threats, as interconnected systems become more prevalent, posing risks to integrity and security of critical engineering infrastructure. Additionally, the rapid pace of technological evolution has led to challenges in workforce adaptation, requiring continuous skill development to keep pace with emerging technologies and methodologies. Moreover, ethical implications surrounding the use of artificial intelligence (AI) in engineering, such as bias in algorithms and responsible technology integration, represent another significant challenge that necessitates careful consideration and resolution within the evolving digital landscape (Lee et al., d2021; Lepri et al., 2021; Rožanec, et al., 2023). The fast adoption of modern technologies by various industries has made the integration of AI and human intelligence (HI) a crucial focus in the field of engineering designs and services (Lee et al., 2022; Lepri et al., 2021; Rožanec, et al., 2023, Agrawal et al., 2023). The transition from Industry 4.0 to Industry 5.0 represents a critical turning point in the dynamic environment of the digital transformation age, stressing a deep reorientation towards human-centric, linked systems (Zhang et al., 2023; Zizic et al., 2022). The essential requirement for research on human-AI collaboration, which is emphasized by a number of aspects, is at the center of this shift. Industry 5.0 sees a future where human creativity and intuition are crucial, encouraging collaborative innovation in engineering designs and services, whereas Industry 4.0 was primarily focused on technology efficiency (Trappey et al., 2017; Marcon et al, 2022; Zizic et al., 2022). The shift to Industry 5.0 demands efficient decision-making that combines human contextual awareness with AI-driven insights. Furthermore, social and ethical issues take center stage, necessitating a responsible integration of AI that is consistent with human values (Rožanec et al., 2023; Grabowska et al., 2022, Colabianchi et al., 2023). Research on human-AI collaboration is crucial for developing educational initiatives that highlight the symbiotic relationship between people and AI as we equip the labor force for Industry 5.0 (Grabowska et al., 2022; Lepri et al., 2021; Zhang et al., 2023). Digital Twin as a highly automated, AI-enabled artifact heavily impacts the Human-Machine collaboration: “Where humans fit in?” (Agrawal et al., 2023, Colabianchi et al., 2023). Human-AI collaboration refers to the synergistic and interactive partnership between HI and AI systems to achieve shared goals or tasks. It involves the seamless integration of human expertise, creativity, and contextual understanding with the computational capabilities of AI, fostering a mutually beneficial relationship (Grabowska et al., 2022; Lepri et al., 2021; Zhang et al., 2023, Agrawal et al., 2023). This collaboration often encompasses joint decision-making, problem-solving, and information processing, where the strengths of both human and AI entities are leveraged to enhance overall performance and outcomes. In the context of Industry 5.0 and digital transformation, human-AI collaboration emphasizes a cooperative and symbiotic approach, recognizing the unique strengths of each component and optimizing their collective potential for innovation, efficiency, and responsible technological integration. We extend an invitation to researchers, academics, and industry professionals to participate in a thorough examination of the field of human-AI collaboration as it develops in relation to engineering designs and services as Guest Editors of this special issue. The combination of AI and HI is changing the engineering design and service landscape in the age of digital transformation. In the context of engineering, this special issue seeks to investigate and present cutting-edge research, approaches, and case studies that demonstrate the dynamic interplay between human expertise and AI technologies. A wide range of subjects pertaining to human-AI collaboration in engineering designs and services will be covered. Among the possible topics of interest include, but not 1. Theoretical foundations and concepts of human-AI collaboration on engineering designs and services Exploring cognitive models for Human-AI interaction in engineering designs Developing conceptual frameworks for ethical Human-AI Collaboration in engineering services Exploring innovation theories in Human-AI Co-Creation for engineering solutions 2. Human-AI collaborative design processes Examining how humans and AI systems collaborate in the design process, exploring the challenges and opportunities for enhancing creativity, efficiency, and innovation. Exploration of collaborative frameworks that seamlessly integrate human and AI contributions in the design and innovation processes within engineering disciplines. Analyze the evolving skillsets required in the era of human-AI collaboration and propose strategies for upskilling the workforce. 3. Human-AI interaction and human-AI systems design Development of interfaces and interaction models that facilitate effective communication and collaboration between human (designer, engineer, etc.) and AI algorithms, ensuring seamless integration and mutual understanding. Investigating User Experience (UX) principles that optimize the integration of AI tools into daily workflows, ensuring a positive and efficient user experience. Exploring how AI technologies can augment human cognitive abilities, leading to enhanced problem-solving, decision-making, and creativity in the workplace. 4. Human-centric and AI-augmented designs and services in the evolution of Industry 5.0 Integrating user-centric approaches in the design and implementation of digital transformations under Industry 5.0. Exploring generative AI-driven digital transformations from a human factor perspective under Industry 5.0. Examining human-AI collaboration in enhancing engineering services, such as manufacturing monitoring, and optimization, quality assurance and maintenance, and also exploring new service models enabled by human-AI collaboration. 5. Neuro-informed AI systems for enhancing human design decision-making in engineering Leveraging neuroscientific principles for effective decision making and management strategies. Understanding the impact of neuro management on organizational performance and effectiveness of product and service design. Exploring scenarios of neuro management, emotional intelligence in engineering management and decision making. 6. Adaptive learning environments for user acceptance and adoption of human-AI collaboration in engineering Exploring approaches to integrating human-AI collaboration into engineering education and training programs, preparing the next generation of engineers for a collaborative digital future. Studies on factors influencing the acceptance and adoption of human-AI collaboration by engineering professionals and the broader community. Examining human-AI collaboration in educational settings, tailoring learning experiences to the individual needs and learning styles of students. 7. Ethical considerations in human-AI cooperative Industry 5.0 Understanding ethical and responsible AI for human-centered technological innovation. Investigations into ethical implications, challenges, and responsible practices concerning the collaboration between humans and AI in engineering contexts. Addressing societal concerns and ensuring responsible technological innovation in Human-AI Cooperative Industry 5.0. Handling issues of trust and risks in human-AI collaborative Industry 5.0 and beyond. Handling of legislative and regulatory rules and practices in human-AI collaborative Industry 5.0. 8. Case studies and best practices in human-AI collaborations Evolution of human roles and responsibilities in human-AI collaborative Industry 5.0 and beyond. Presenting real-world engineering applications and success stories in human-centered digital transformations. Exploring best practices and changing dynamics with advanced digital transformation enablers, emphasizing human-AI collaborative Industry 5.0. Guest editors: Prof. Amy TrappeyNational Tsing Hua University, Hsinchu, Taiwan Dr. Josip StjepandicPROSTEP AG, Darmstadt, Germany Prof. John MoRMIT University, Melbourne, Australia Dr. Ching-Hung LeeXi'an Jiaotong University, Xi'an, China Dr. Yi ZhangUniversity of Technology Sydney, Sydney, Australia
最后更新 Dou Sun 在 2024-05-12
Special Issue on Human-Robot Interactions in Construction截稿日期: 2025-03-31The construction sector is the foundational sector of the worldwide economy. However, the construction industry faces challenges of insufficient safety and labor. Thus, construction robots are invented and applied to improve safety and (partially) substitute construction workers and/or machines. Human-robot interactions (HRIs) appear as a new construction environment. With the development of artificial intelligence technology, sensor technology and BIM technology, construction robotics for on-site construction is maturing, and single-task construction robots (handling robots, installation robots, etc.) and integrated robots are emerging in large numbers on construction sites. The increased use of robots in construction is changing the skill requirements of construction workers, construction safety management, and the plan of labor and machines. Thus, HRIs may bring new challenges and benefits for construction workers, such as distraction by robots and active dodging of workers[2]. Considering the various types of robots and workers, HRIs are complex to study and manage. Compared with manmade robots, workers are harder to understand and control. Thus, comprehensive understanding and effective management of construction workers in HRIs are vital for smart construction. The academia is also actively discussing issues related to HRIs, including risk identification, skill training, etc. Recently, the research has been more in-depth, including five main contents: first, how robots influence construction workers in HRIs; second, how to train construction workers to adapt to HRIs; third, AI-based robots who could recognize construction workers and react to workers’ behaviors; fourth, safety issues and management of HRIs; fifth, how to improve the effectiveness of HRIs. As an emerging cross-discipline, human-computer interaction technology has been actively applied in various fields. However, with the emergence of new production modes, not all the consequent new problems have been properly resolved. The most basic issues of how workers and robots interact with each other, such as the degree of workers' trust in robots in HRI, have not yet been discussed and solved in depth. Most of the HRIs in construction are human-led, and the autonomy of the robots needs to be further developed. Considering the complexity and uniqueness of the HRI process, it is unclear how the HRI process will impact construction productivity. Furthermore, it is difficult to achieve HRI stability with a single human-computer interface. This requires further refinement of the integration of multiple interfaces and multi-sensory channels to improve the reliability and stability of perceiving and communicating human intentions. This special issue addresses this void by specifically encouraging state-of-the-art research that provides theoretical breakthroughs into understanding and optimizing HRIs. The SI accepts scientific contributions based on different cognitive, behavioral, and managerial methodologies. Guest editors: Assoc Prof. Jing Lin Dalian University of Technology, Dalian, China Prof. Eric Jing Du University of Florida, Gainesville, Florida, United States of America Dr. Brian Guo University of Canterbury, Christchurch, New Zealand
最后更新 Dou Sun 在 2024-09-28
Special Issue on Artificial Intelligence for the Built World截稿日期: 2025-03-31The recent surge and uptake of Artificial Intelligence (AI) technologies is changing the world around us, also in the Architecture, Engineering and Construction (AEC) industry. Large Language Models (LLMs) are created and put to work for co-piloting design and engineering processes, Semantic Models of the built world are created and relied upon (Symbolic AI), decision-support is relying on input from Generative AI (GenAI) tools, Computer Vision (CV) techniques and Natural Language Processing (NLP) are becoming commonly available, and Digital Twins (DTs) of the built world become increasingly interactive, realistic and up to date. But how big is the prospective impact now really for the AEC industry practitioner: which AI-based development are creating the strongest added value and potential for the engineering processes in our built world? This special issue aims to collect cutting-edge research initiatives and results around several key themes in “AI for the Built World”, as inspired by the Georg Nemetschek Institute (GNI) Symposium and Expo of 2024 on the same topic. The topics of interest include, but are not limited to: - Digital Twins & AI - AI-Based - Decision Support - Natural Language Processing & Remote Perception - Physics-Informed AI - Building Energy & Environment - Infrastructure Planning & Maintenance - Semantic Model Generation Example research questions in scope of this Special Issue are the following: How can we address the challenges of data unavailability when needing to train neural networks, LLMs, and similar models for engineering and construction tasks? How to incorporate AI algorithms in remote perception, LiDAR technology, and computer vision to perform better object detection and understanding? What are the limitations of integrating AI-driven systems into complex construction environments and infrastructure management? To what extent can computationally expensive simulation models be replaced by appropriately trained neural networks, and what is their reliability? How can Physics-Informed Neural Networks be deployed in the AEC industry? What are the challenges of integrating AI systems with existing Building Information Modeling (BIM) workflows? Which functions can best be enabled by an AI agent or co-pilot during Design Decision Support, and how does such agent help in Design Space Exploration (DSE)? How should we address the ethical and regulatory challenges associated with the increasing reliance on AI for decision-making in construction, particularly with respect to safety, labor displacement, privacy, and accountability? This Special Issue is connected to the 2024 GNI Symposium & Expo on “AI for the Built World”, yet it is open for all research on the outlined topics. The Special Issue particularly welcomes research focused on engineering solutions: validated toolchains, novel algorithms, and emerging technologies for the AEC engineer are to be bundled into a single Special Issue. Guest editors: Dr. Pieter Pauwels Eindhoven University of Technology, Eindhoven, Netherlands Prof. Dr. Ghang Lee Yonsei University, Seoul, South Korea Prof. Dr. André Borrmann Technical University of Munich, Munich, Germany Manuscript submission information: Open for Submission: from 24-Oct-2024 to 31-Mar-2025 Submission Site: Editorial Manager® Article Type Name: "VSI: AI for the Built World" - please select this item when you submit manuscripts online All manuscripts will be peer-reviewed. Submissions will be evaluated based on originality, significance, technical quality, and clarity. Once accepted, articles will be posted online immediately and published in a journal regular issue within weeks. Articles will also be simultaneously collected in the online special issue. For any inquiries about the appropriateness of contribution topics, welcome to contact Leading Guest Editor (Dr. Pieter Pauwels). Guide for Authors will be helpful for your future contributions, read more: Guide for authors - Advanced Engineering Informatics For more information about our Journal, please visit our ScienceDirect Page: Advanced Engineering Informatics Keywords: Artificial Intelligence; Building Information Modelling; Neural Networks; Large Language Models; Construction; Digital Twins; Decision Support; Design Space Exploration
最后更新 Dou Sun 在 2024-11-23
相关期刊
CCF | 全称 | 影响因子 | 出版商 | ISSN |
---|---|---|---|---|
IEEE/ASME Transactions on Mechatronics | 6.100 | IEEE | 1083-4435 | |
c | Acta Informatica | 0.400 | Springer | 0001-5903 |
c | Service Oriented Computing and Applications | 1.800 | Springer | 1863-2386 |
c | Logical Methods in Computer Science | Logical Methods in Computer Science | 1860-5974 | |
c | ACM Transactions on Interactive Intelligent Systems | 3.600 | ACM | 2160-6455 |
b | SIAM Journal on Imaging Sciences | SIAM | 1936-4954 | |
ACM Transactions on Accessible Computing | 2.500 | ACM | 1936-7228 | |
Journal of Computer Networks and Communications | 2.000 | Hindawi | 2090-7141 | |
International Journal of E-Entrepreneurship and Innovation | IGI Global | 1947-8585 | ||
Computer Science & Engineering: An International Journal | AIRCC | 2231-3583 |
全称 | 影响因子 | 出版商 |
---|---|---|
IEEE/ASME Transactions on Mechatronics | 6.100 | IEEE |
Acta Informatica | 0.400 | Springer |
Service Oriented Computing and Applications | 1.800 | Springer |
Logical Methods in Computer Science | Logical Methods in Computer Science | |
ACM Transactions on Interactive Intelligent Systems | 3.600 | ACM |
SIAM Journal on Imaging Sciences | SIAM | |
ACM Transactions on Accessible Computing | 2.500 | ACM |
Journal of Computer Networks and Communications | 2.000 | Hindawi |
International Journal of E-Entrepreneurship and Innovation | IGI Global | |
Computer Science & Engineering: An International Journal | AIRCC |
相关会议
CCF | CORE | QUALIS | 简称 | 全称 | 截稿日期 | 通知日期 | 会议日期 |
---|---|---|---|---|---|---|---|
WOTIC | International Workshop on Information Technologies and Communication | 2011-08-22 | 2011-10-13 | ||||
ICNCSG | International Conference on New Computer Science Generation | 2021-01-17 | 2021-02-07 | 2021-03-20 | |||
S&I Media | International Conference on Stereo & Immersive Media | 2018-01-15 | 2018-06-28 | ||||
SIMBig | The Symposium on Information Management and Big Data | 2018-05-14 | 2018-06-14 | 2018-09-03 | |||
NLP | International Conference on Natural Language Processing | 2022-09-03 | 2022-09-10 | 2022-09-17 | |||
a | FOIS | International Conference on Formal Ontology in Information Systems | 2018-09-17 | ||||
MEC | International Conference on Trends in Mechanical Engineering | 2022-04-29 | 2023-05-01 | 2023-05-13 | |||
ICITACEE | International Conference on Information Technology, Computer and Electrical Engineering | 2016-08-24 | 2016-08-25 | 2016-10-18 | |||
SPLC | International Systems and Software Product Line Conference | 2022-04-08 | 2022-06-02 | 2022-09-12 | |||
EUCCO | European Conference on Computational Optimization | 2018-05-30 | 2018-09-10 |
简称 | 全称 | 截稿日期 | 会议日期 |
---|---|---|---|
WOTIC | International Workshop on Information Technologies and Communication | 2011-10-13 | |
ICNCSG | International Conference on New Computer Science Generation | 2021-01-17 | 2021-03-20 |
S&I Media | International Conference on Stereo & Immersive Media | 2018-01-15 | 2018-06-28 |
SIMBig | The Symposium on Information Management and Big Data | 2018-05-14 | 2018-09-03 |
NLP | International Conference on Natural Language Processing | 2022-09-03 | 2022-09-17 |
FOIS | International Conference on Formal Ontology in Information Systems | 2018-09-17 | |
MEC | International Conference on Trends in Mechanical Engineering | 2022-04-29 | 2023-05-13 |
ICITACEE | International Conference on Information Technology, Computer and Electrical Engineering | 2016-08-24 | 2016-10-18 |
SPLC | International Systems and Software Product Line Conference | 2022-04-08 | 2022-09-12 |
EUCCO | European Conference on Computational Optimization | 2018-05-30 | 2018-09-10 |
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