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Encyclopedia User Research Invitation: Share Your Insights on Academic Encyclopedias

Encyclopedia MDPI is conducting a targeted survey to identify the specific barriers hindering efficient research. We invite you to spend 3 minutes defining the priorities for our next generation of structured knowledge tools: 2026 Academic Encyclopedia Survey What This Study Explores As scholars’ approaches to accessing and engaging with knowledge evolve, we seek to better understand the role of structured resources in research and learning. Through this study, we aim to explore: What challenges scholars encounter when using structured knowledge entries; Where existing knowledge platforms may fall short of expectations; How structured knowledge resources can better support academic needs. The insights gained will help guide improvements to Encyclopedia MDPI. Contact Us If you have any questions or would like to participate in, please feel free to contact us at office@encyclopedia.pub. Kind regards,Encyclopedia Editorial Office

Announcement 19 Mar 2026

From Concept to Safety: Integrating CAD and MBSE in Aircraft Design

Supersonic passenger aircraft have regained attention in recent years as advances in aerodynamics, materials, and digital engineering continue to expand the possibilities for high-speed air travel. At the same time, these aircraft introduce engineering challenges that are often more demanding than those encountered in conventional aviation. Fuel systems, in particular, must operate safely under elevated temperatures, complex subsystem interactions, and demanding operating conditions. Addressing potential hazards early in the design process is therefore an important aspect of aircraft development. A recent study published in Aerospace, titled “Integrating Computer-Aided Design and Model-Based Systems Engineering for Early Zonal Hazard Analysis: Application to a Supersonic Aircraft Fuel System”, presents a framework that combines Computer-Aided Design (CAD) and Model-Based Systems Engineering (MBSE) to support hazard analysis during the conceptual design stage of a supersonic aircraft. Figure 1. Integrating CAD and MBSE for Early Zonal Hazard Analysis. Produced by MDPI Academic Video Service (Source: https://encyclopedia.pub/video/1819). 1. Safety Challenges in Supersonic Aircraft Design Safety assessment is a fundamental component of aircraft development. One commonly used approach is Zonal Safety Analysis (ZSA), which examines the interactions between systems and components located within specific areas of an aircraft. Traditionally, these assessments rely heavily on documentation, engineering reviews, and expert judgement. As aircraft systems become increasingly interconnected, however, potential hazards often arise not only from individual components but also from their interactions with surrounding structures and neighboring systems. In supersonic aircraft, fuel systems may be affected by thermal loads, environmental control systems, structural elements, and propulsion-related components. Detecting these interactions late in development can result in costly redesigns and extended development schedules. For this reason, there is growing interest in approaches that enable safety considerations to be incorporated earlier in the design process. 2. Linking System Architecture and Aircraft Geometry The framework proposed in this study combines two complementary engineering tools. CAD models provide detailed information about the physical arrangement of aircraft structures and subsystems, allowing engineers to evaluate component placement, spatial relationships, and potential thermal or structural concerns. MBSE, by contrast, focuses on system functionality and interactions. It provides a structured representation of how different subsystems communicate, exchange resources, and respond to failures. By integrating these two approaches, the framework links aircraft geometry with system architecture, enabling hazard analysis to be performed while the aircraft configuration is still evolving. Information from CAD models can inform system-level assessments, while the results of safety analyses can guide subsequent design modifications. This iterative process supports the refinement of both subsystem layouts and system architecture throughout conceptual development. 3. The SA-24 Phoenix Fuel System To demonstrate the framework, the researchers applied it to the fuel system of the conceptual supersonic aircraft SA-24 Phoenix. The study examined several hazards associated with fuel-system operation in a high-speed aircraft environment, including fuel vaporization caused by elevated temperatures, fuel tank over-pressurization, leakage scenarios, and structural fatigue resulting from thermal stresses. The analysis incorporated established safety assessment methods, including Functional Hazard Analysis (FHA), Failure Modes and Effects Analysis (FMEA), and Fault Tree Analysis (FTA), while also considering relevant certification requirements derived from EASA CS-25 standards. Using the integrated CAD–MBSE framework, the researchers were able to evaluate both the physical arrangement of system components and the functional relationships between subsystems, providing a more comprehensive view of potential risks during early design stages. 4. Hazard Pathways and Mitigation Measures The analysis identified several subsystem interactions that could contribute to safety risks. For example, heat generated by environmental control system ducting could influence fuel temperatures, while the proximity of fuel-system components to other aircraft systems created additional considerations for hazard management. The integrated framework also allowed potential mitigation measures to be evaluated during conceptual design. These included thermal insulation, thermal shielding, increased subsystem separation, redundant venting arrangements, and structural fire barriers. Because hazard analysis and design evaluation were conducted within a connected modeling environment, potential design changes could be assessed and incorporated earlier than would typically be possible using conventional document-based approaches. According to the study, the proposed framework resulted in an estimated reduction of up to 40% in Risk Priority Number (RPN) values for key thermal hazard pathways. The authors also report an approximately 25% reduction in conceptual design iteration time compared with traditional approaches. 5. Implications for Future Aircraft Programs Although demonstrated using a supersonic fuel system, the framework has potential applications beyond this specific case study. Many modern aircraft contain highly integrated subsystems whose interactions can be difficult to evaluate using conventional methods alone. The study reflects a broader shift toward digital engineering practices within aerospace development. By connecting geometric models, system architecture, and safety assessment activities, integrated digital frameworks can improve traceability between design decisions and safety requirements while supporting more informed engineering decisions throughout development. 6. Conclusion The study demonstrates how CAD and MBSE can be integrated to support zonal hazard analysis during the earliest stages of aircraft design. Using the SA-24 Phoenix fuel system as a case study, the authors show how linking physical and functional models can help identify potential hazards, evaluate mitigation strategies, and support safety-informed design decisions before detailed development begins. As aircraft systems continue to grow in complexity, approaches that enable earlier assessment of subsystem interactions may become increasingly valuable. While further refinement and validation are still needed, the framework presented in this work highlights the potential of digital engineering tools to support more efficient development processes and earlier identification of safety issues in future aircraft programs.

Blog 18 Jun 2026

MDPI Academic Video Service: Advancing Visual Scholarly Communication

Encyclopedia MDPI is thrilled to announce significant enhancements to its Academic Video Service, which aim to improve its quality, accessibility, and functionality. Since its launch, our video service has enabled numerous scholars to present their research in a dynamic and visually engaging format, greatly enhancing its visibility and impact. Due to the overwhelmingly positive reception this service has received, we have reached a point where the number of orders we are receiving exceeds our current capacity. In order to maintain the quality of these videos and continue optimizing the service, we have made the decision to introduce a fee. However, to ensure that this service is still a cost-effective option, we have set our prices significantly below the market average. 1. Highlights of the Upgrades to the Service Although the service will now be fee-based, we are committed to providing even more professional and comprehensive support, including the following: One-on-one video production guidance Personalized assistance to ensure your needs are fully met. Scriptwriting and English editing Expertly crafted narratives and professional English editing to ensure your research is presented clearly, accurately, and with impact. High-quality animations Visually engaging animations are created to simplify complex research and captivate your audience. Whiteboard Animations: Clean and minimalist, using hand-drawn illustrations to explain ideas step-by-step. Motion Graphics (MG) Animations: Cartoon Style: Bright, colorful, and approachable, ideal for making technical or scientific content more accessible and engaging. Hand-Drawn Style: Unique and artistic, adding a personal touch to your research while maintaining clarity and professionalism. Customized infographics (optional) We can also create tailored infographics to visually summarize key data or findings, enhancing the clarity and appeal of your video. Native voiceover Native speakers provide voiceovers to enhance the accessibility and reach of your research. Multiple rounds of revision To ensure your video accurately represents your work. Social media promotion Expanding your research's visibility and impact. 2. Why Choose Us? The Proven Impact of Video Abstracts Research shows that a well-crafted video abstract can significantly enhance the visibility and impact of your work. It has been shown to do the following: Increase paper views by 120% （Source: 10.1007/ s11192-019-03108-w） Boost citations by 20% （Source: Wiley Online Library） Improve journal rankings by 33% （Source: Research Square） Raise Altmetrics scores by 140% （Source: Research Square） Our Expertise in Academic Research Backed by MDPI, our experienced production team combines deep academic knowledge with creative excellence. We understand the nuances of scholarly communication and ensure that every frame accurately conveys the value of your research, meeting the highest standards of quality and precision. Collaborations with SCI Journals We have partnered with over 60 SCI journals to create exclusive video series, enhancing the dissemination and impact of published research. For example, our collaborations with Entropy, Remote Sensing, Nanomaterials , Animals , Nutrients, Foods , Sustainability, Cancers, etc., have helped authors achieve greater visibility and recognition for their work. Global visibility The videos are linked to your paper's DOI for maximum exposure. Available Video Services and Their Pricing Video Abstract (up to 5 minutes long): Summarizes the key findings, methodology, and significance of your research paper. Regular Price: 600 CHF Short Take (up to 2 minutes long): Uses original animations to explain the specific aspects of your research. Regular Price: 500 CHF Scholar Interview: A face-to-face discussion offering deeper insights into your publication. Regular Price: 400 CHF Scholar Profile: A brief overview of a scholar’s career, highlighting education, research focus, and key achievements. Regular Price: 500 CHF 3. Video Production Service If you want to see some examples of our videos, please visit https://encyclopedia.pub/video. If you would like to apply for the video service, please click https://encyclopedia.pub/video_service. 4. Others If you have any other questions, please contact office@encyclopedia.pub.

Announcement 14 Apr 2026

Best Video Abstract Awards

The Encyclopedia platform, together with the journals Biology and Nutrients, launches the Best Video Abstract Awards to increase the visibility and reach of published research and to inspire researchers to explore the power of visual storytelling. Video abstracts have become an increasingly important medium for scientific communication. By integrating narration, visualizations, animations, and experimental footage, they make complex research more accessible, engaging, and memorable. This initiative recognizes video abstracts that are not only scientifically rigorous but also creatively compelling and educational, thereby promoting broader dissemination and deeper community engagement. To learn more about the awards or to participate directly, please visit the event page via the links provided below. https://encyclopedia.pub/best-video-abstract-award 1. Event Duration 9 February 2026 – 2 February 2027 2. Awards Biology Best Video Abstract AwardOpen to video abstracts based on papers published in Biology between 1 January 2024 and 31 December 2025. This award will be granted to two video abstracts based on the evaluation of the Award Evaluation Committee. Nutrients Best Video Abstract AwardOpen to video abstracts based on papers published in Nutrients between 1 January 2024 and 31 December 2025. This award will be granted to two video abstracts based on the evaluation of the Award Evaluation Committee. Prize For each journal award, the winner will receive: CHF 500 A voucher waiving the Article Processing Charges (APCs) for one journal submission (subject to peer review, valid for one year) A free Academic Video Service production (no matter where the paper is published), valid for one year. An electronic certificate Participant Incentive All participants will receive a CHF 100 discount voucher for the Encyclopedia Academic Video Service. 3. Participation The event will be conducted in three stages. Submission Stage 9 February 2026 – 31 August 2026 Independent Submission Authors may create and submit video abstracts independently using their own tools and creative approach. Professional Support Option Authors who do not currently have a video abstract but intend to apply for the award may opt for the Academic Video Service, which offers a one-stop, end-to-end solution covering script development, animation, voiceover recording, and editing. Please submit your video abstract here: https://encyclopedia.pub/user/video_add?activity=b57ab0910b456a5e4eebd960867ce205 Or place your video service order here: https://encyclopedia.pub/user/video_service_order All video abstracts will be assessed by the editorial team for editorial suitability and overall quality. Submissions that meet the guidelines will be assessed equally. Voting Stage 1 November 2026 – 31 December 2026 Public voting will be conducted during this period. Voting results and video performance metrics, including views, likes, shares, and collections, will contribute to the final evaluation. Winner Announcement 2 February 2027 Final winners will be determined based on a combined assessment of public voting results and a comprehensive evaluation by the Award Evaluation Committee, which carries the primary weight in the final decision. Winners will be announced on the Encyclopedia platform and journal websites. 4. Others If you have any other questions, please contact office@encyclopedia.pub

Announcement 09 Feb 2026

Encyclopedia Journal Receives Its First CiteScore of 10.1

We are pleased to share that Encyclopedia has been assigned its first CiteScore of 10.1 in June 2026, following its inclusion in Scopus (Elsevier) in 2025. The CiteScore ranks the journal 20 out of 223 titles (Q1) in Multidisciplinary area, an impressive achievement for a journal running in Volume 6. You can find more statistics on our website: https://www.mdpi.com/journal/encyclopedia/stats. The current CiteScores measure the average number of citations within a journal over a four-year window (2022–2025). The Scopus database provides a comprehensive suite of metrics that support informed publishing strategies, research evaluation and enable benchmarking of journal performance. This achievement reflects the collective efforts of our authors, reviewers, and editors. Together we will continue to track the progress of Encyclopedia and its growing impact in multidisciplinary research.

Announcement 04 Jun 2026

See what people are saying about us

Shlomi Agmon

Encyclopedia Video provides potential readers with a tool to quickly understand what the work is about. That is important for casualreaders, whose time is thus spared, and for investedreaders, for whom it makes the decision to say "yes, I want to read the paper" much simpler.

School of Computer Science and Engineering, The Hebrew University of Jerusalem, Jerusalem 9190401, Israel

Ignacio Cea

For the video abstracts, the papers and authors could gain more visibility and increase citations. Also, it means a more diverse and interesting way of communicating research, which is something valuable in itself.

Center for Research, Innovation and Creation, and Faculty of Religious Sciences and Philosophy, Temuco Catholic University

Melvin R. Pete Hayden

Thank the video production crew for making such a wonderful video. The narrations have been significantly added to the video! Congratulations on such an outstanding job of Encyclopedia Video team.

University of Missouri School of Medicine, United States

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