engineer

Viridian Introduces Engineered Reclaimed Hardwood Line

Viridian Reclaimed Wood introduces a new line of engineered reclaimed hardwood flooring in four different species, according to Viridian co-owner Joe Mitchoff.




engineer

Tufts Mathematics Professor's Gift Renames Science and Engineering Complex

Today, Tufts University announced that Loring Tu, a professor in the Department of Mathematics, has made a substantial gift to name the Science and Engineering Complex (SEC) in honor of his late grandfather, Tsungming Tu, who was a world-renowned doctor and expert on pharmacology, toxicology, and medical education. Going forward, the SEC will be known as the Tsungming Tu Complex (TTC).




engineer

Tufts Mathematics Professor's Gift Renames Science and Engineering Complex

Today, Tufts University announced that Loring Tu, a professor in the Department of Mathematics, has made a substantial gift to name the Science and Engineering Complex (SEC) in honor of his late grandfather, Tsungming Tu, who was a world-renowned doctor and expert on pharmacology, toxicology, and medical education. Going forward, the SEC will be known as the Tsungming Tu Complex (TTC).




engineer

Academy of Science, Engineering and Medicine of Florida names two FSU professors Rising Stars

The Academy of Science, Engineering and Medicine of Florida (ASEMFL) has named two Florida State University faculty members part of its 2024 class of "Rising Stars."




engineer

Engineering Out Loud

Using 3D modeling and simulations to target tumors




engineer

Value Engineering University, Part V

Tips on establishing profit-producing customer relations.




engineer

Marquis Who's Who Honors Saad Bin Arshad, MS, for Expertise in Automotive Engineering

Saad Bin Arshad, MS, is a distinguished senior systems modeling engineer at Lucid




engineer

Marquis Who's Who Honors Salice Thomas, BEng, MS, MBA, MPhil, for Expertise in Engineering

Salice Thomas, BEng, MS, MBA, MPhil, is a global business executive with more than 25 years of expertise in engineering and providing technological solutions across a wide range of industries




engineer

A Genetically-Engineered Spider Silk Scarf

Sruli Recht, the Reyjavik-based industrial designer with a penchant for the unusual, may have topped himself. His ATOR scarf, made of spider silk, was created with the help of both a spider and a goat:

"Our knit originates from the silk gland DNA of a spider, carefully placed in the milk ducts of a goat. A single filament is reeled out of the goat millimetres at a time to produce the most unobtainable fibre in the world."

"It takes several weeks to hand-loom the filament into this fabric quality, a further week gently coaxing the textile into the knotted web of this ghostly veil. [The scarf is] is woven, its proteins color treated with hot acid, then cured. After cutting it is twisted into a Möbius strip, and a flat felled seam is backstitched by hand with lengths of the same yarn, a holistic approach just short of felting, closing the loop."

"The edges are folded and pressed with agonizing slowness, before being bound with a Japanese thermally activated tape, a frosted, almost invisible finish."

"ATOR is made from one of the rarest multi-hyphenated materials in the world – genetically engineered spider-goat silk filament, hand-loomed, hand-dyed, hand-stitched, and hand-bound."

Considering that Recht could only get enough material to produce three of these, the €2,200 (USD $2,337) price doesn't seem that high.




engineer

Developing Educational Interventions Addressing the “Messiness” of Engineering (November 14, 2024 2:00pm)

Event Begins: Thursday, November 14, 2024 2:00pm
Location: Duderstadt Center
Organized By: Engineering Education Research


Abstract: Engineering textbooks have problems, and those problems have problems. While they may be complex and time-consuming, textbook problems are “tidy” in that they are well-defined, closed-ended, and decontextualized. In contrast, the practice of engineering is “messy.” The design process is ill-defined, modeling and analysis are open-ended, and the engineered systems affect and are affected by society in positive and negative ways. In this talk I frame the messiness of engineering as an important part of the conversation about DEI in engineering. By exposing students to the messiness of engineering throughout their undergraduate education, instructors can better prepare students for their careers; help students to reflect upon their views and biases; and present engineering as socially constructed, instead of inherently upholding a white supremacist culture. I will then present the SHUTTLE Lab’s design-based research approach to putting some of this messiness back into engineering science courses. Specifically, I will describe our work addressing the messiness of mathematical modeling. We are focused on the professional skill of engineering judgment, and are simultaneously creating open-ended modeling problems, studying emerging engineering modeling judgment, and training faculty to notice and respond to their students’ displays of engineering judgment.

Bio: Aaron W. Johnson is an Assistant Professor of Aerospace Engineering and a Core Faculty member in Engineering Education Research at the University of Michigan. His design-based research focuses on how to re-contextualize engineering science engineering courses to better reflect and prepare students for the reality of ill-defined, sociotechnical engineering practice. Aaron holds a B.S. in Aerospace Engineering from Michigan and a Ph.D. in Aeronautics and Astronautics from the Massachusetts Institute of Technology, and was an instructor in Aerospace Engineering Sciences at the University of Colorado Boulder. Outside of work, Aaron enjoys collecting LEGO NASA sets, camping, and playing disc golf.




engineer

Reflex (YC W23) Is Hiring Software Engineers (San Francisco)

Comments




engineer

Senior Avionics Engineer

Brisbane, Queensland Australia - Job Description At Boeing, we innovate and collaborate to make the world a better place. From the seabed to outer space, you can contribute to work that matters with a company where diversity, equity and inclusion are shared values. We’re committed to fostering ... View




engineer

Senior Avionics Engineer

Williamtown, New South Wales Australia - Job Description At Boeing, we innovate and collaborate to make the world a better place. From the seabed to outer space, you can contribute to work that matters with a company where diversity, equity and inclusion are shared values. We’re committed to fo... View




engineer

Pioneering Data Engineering Innovations in Enterprise Analytics

Teradata's capabilities make it ideal for handling complex, high-volume workloads, while Snowflake's flexibility offers a scalable cloud solution.




engineer

Paritosh Kumar Praveen vs Engineering Projects (India) Ltd. on 13 November, 2024

:

The Appellant filed an (offline) RTI application dated 19.06.2023 seeking the following information:

Page 1 of 5

"1. COPY OF THE SUSPENSION ORDER DATED 03.04.2017 PASSED BY COMPETENT AUTHORITY OF EPIL, NEW DELHI AGAINST SH. PARITOSH KUMAR PRAVEEN (EMP. CODE- 1986).

2. WHETHER ANY REVIEW (EXTENSION/REVOCATION) OF THE ABOVE MENTIONED SUSPENSION ORDER DATED 03.04.2017 HAS OCCURRED? IF YES, THEN PLEASE PROVIDE COPY OF ALL THE REPORTS PASSED BY THE REVIEW COMMITTEE SUBSEQUENT TO THE SUSPENSION ORDER DATED 03.04.2017 TILL DATE.

AND ALSO PROVIDE THE COPY OF ALL THE ORDERS OF THE COMPETENT AUTHORITY PASSED ON THE ABOVE MENTIONED REPORTS OF THE REVIEW COMMITTEE TILL DATE.




engineer

Manish Agarwal vs Military Engineer Services on 13 November, 2024

:

The Appellant filed an (online) RTI application dated 24.04.2023 seeking the following information:

Querry is in reference to Chief Engineer Central Command. Index No 5-28

-Central Command. For renewal of Security Deposit of FDR wherein many letters were sent for sending to bank FDRs for renewal. However, no reply has been received. Letters dated 08.08.2022, No 4501-244 dated 08.08.2022, letter No 4501-245 dated 06.10.2022, dated 15.11.2022 & dated 20.12.2022 & letter No 4501-248 datet25.01.2023, and 20.03.2023.

FDR bearing No.7 15474 Folio 127180-98 dt.25.9-98 for Rs.60,000.00, (Maturity Date :3-7-2001 FDR bearing No.715475 Follo 127198/98) dated 23.9.98 for Rs.60,000.00.




engineer

Engineering electronic band structure of ternary thermoelectric nanocatalysts for highly efficient detection of hydrogen sulfide

J. Mater. Chem. A, 2024, Advance Article
DOI: 10.1039/D4TA00438H, Paper
Hongyuan Shang, Xiaofei Zhang, Aiping Zhang, Jinwen Du, Ruiping Zhang
This study rationally designs a ternary thermoelectric nanocatalyst PtTeCu nanorod for the accurate detection of hydrogen sulfide in biomedical applications.
To cite this article before page numbers are assigned, use the DOI form of citation above.
The content of this RSS Feed (c) The Royal Society of Chemistry




engineer

Boosting the electrocatalytic activity of single atom iron catalysts through sulfur-doping engineering for liquid and flexible rechargeable Zn–air batteries

J. Mater. Chem. A, 2024, Advance Article
DOI: 10.1039/D4TA00524D, Paper
Tianfang Yang, Bingcheng Ge, XuPo Liu, Zunjie Zhang, Ye Chen, Yang Liu
A practical strategy is reported to design single-Fe atom decorated S/N-doped C (Fe SAs@S/N–C) catalysts with a high Fe loading of 5.45 wt%. The prepared catalysts exhibit excellent performances for liquid and all-solid-state Zn–air batteries.
To cite this article before page numbers are assigned, use the DOI form of citation above.
The content of this RSS Feed (c) The Royal Society of Chemistry




engineer

Closed pore structure engineering from ultra-micropores with the assistance of polypropylene for boosted sodium ion storage

J. Mater. Chem. A, 2024, Advance Article
DOI: 10.1039/D4TA01375A, Paper
Xue Li, Ning Sun, Shaohong Zhang, Razium Ali Soomro, Bin Xu
Closed pore architectures with exceptional Na-storage performance have been successfully fabricated from ultra-micropores with the assistance of polypropylene.
To cite this article before page numbers are assigned, use the DOI form of citation above.
The content of this RSS Feed (c) The Royal Society of Chemistry




engineer

Toward record high Zn2+ storage in carbon electrodes via pore confinement engineering

J. Mater. Chem. A, 2024, Advance Article
DOI: 10.1039/D4TA01191K, Paper
Xiubo Zhang, Chang Yu, Yuanyang Xie, Jinhe Yu, Yingbin Liu, Yi Yang, Jianjian Wang, Shuqin Lan, Siyi Hou, Kunlun Liu, Jieshan Qiu
The effective specific surface area is proposed and well correlated with Zn2+ storage, guiding maximum Zn2+ storage within carbon. Multiple in situ spectroscopy techniques clarify the co-adsorption mechanism of hydrated Zn2+, SO42−, and H+.
To cite this article before page numbers are assigned, use the DOI form of citation above.
The content of this RSS Feed (c) The Royal Society of Chemistry




engineer

Evaluating the therapeutic potential of genetically engineered probiotic Zbiotics (ZB183) for non-alcoholic steatohepatitis (NASH) management via modulation of the cGAS-STING pathway

RSC Med. Chem., 2024, 15,3817-3836
DOI: 10.1039/D4MD00477A, Research Article
Maha Saad, Walaa Ibrahim, Amany Helmy Hasanin, Aya Magdy Elyamany, Marwa Matboli
ZBiotics administration in the NASH model downregulated the RNA panel (MAPK3, EDN1, TNF, miR-6888-5p, lncRNA RABGAP1L-DT-206), restored intestinal barrier integrity, reduced hepatic inflammation, and improved lipid profiles and liver enzymes.
The content of this RSS Feed (c) The Royal Society of Chemistry




engineer

Two held on charge of cheating retired engineer of over ₹75 lakh in Kochi

They allegedly promised the victim a windfall through online trading




engineer

Engineering seat blocking scam: FIR booked against IP addresses




engineer

FAU Engineers Win NSF Grant to Develop One-of-a-Kind School of AI Bio-Robotic Fish

A school of bio-robotic fish with advanced sensors will create a versatile network capable of maneuvers and station-keeping beyond current vehicles both in shallow coastal areas and in deep ocean environments.




engineer

German Engineering

Now THAT'S Das Auto!




engineer

Recruitments for engineering sector

The Indian engineering sector is of strategic importance to the economy owing to its intense integration with other industry segments. The sector can be broadly categorised into two segments - heavy engineering and light...




engineer

Mercedes Benz To Hire 1,000 Engineers For R&D In India

Luxury automotive major Mercedes Benz today said it will hire 1,000 engineers in the country next year for its research and development (R&D) initiatives in India.




engineer

UAE, Saudi Arabia, Mexico and Turkey turn out to be major buyers of Indian engineering goods 

EEPC expects the 12th edition of the International Engineering Sourcing Show (IESS) to held in Chennai between November 27 and 29, to attract over 300 delegates from over 40 countries




engineer

Monitor Engineering Newsletter Reaches 25000 Subscribers

More than 25000 people are now receiving Monitor (ISSN 1472-0221), the free newsletter for PC-based measurement and control.




engineer

Logic Engineers

I don't like any of the names for people who create technology solutions for use in the real world. In no particular order:

  • Developer - Sorry, that's for photographic film (and who uses that anymore?) not software - my second least-favorite on this list.
  • Programmer - probably the one I use the most, but the mechanistic connotations: a glorified typist of code; and the implication is that someone else does the thinking, bothers many - leading to...
  • Architect - Horrible. Borrowed from physical construction, it brings in notions of rigidity of thinking and solution; my least favorite, often used by those who use 'Developer' to describe "those who do the thinking around here."
  • Coder - Probably my favorite; however implies that software is the focus instead of the problem to be solved.
  • Hacker - I don't mind this one, but it feels forced sometimes and of course carries negative connotations due to it's use in a security context; It does however, put the problem solving front-and-center and I like that;
  • Software Engineer - Part of my current title; pros: sounds professional and captures the applied science nature of the work; cons: again the implication is writing code, not general problem solving and often - though not in my case - is indicative of a very rigid, bureaucratic culture
  • Software Craftsman - En Vogue with those who see (as I do) that there is more to this work than just slinging code, I have several problems with it: software focus again, the lack of gender neutrality, and a certain pretentiousness (that might just be because some people sound that way when they talk about the movement - which I am positively disposed to, but not a part of)
  • Technologist - This one is popular with the start-up crowd; This is one of the few on this list that recognizes the holistic integrated nature of the work from the solution side; on the other hand, lacks action, professionalism and anything related to the problem (not a coincidence that the startup world likes it, because those that use it are often seeing the project as separating problem and solution too)
  • Sys Admin, DBA, network engineer, etc, etc - I.e. every other technology-related role that isn't primarily about writing software. This is my biggest concern of all as I believe this distinction (writing software and everything else) is horribly misguided, artificial and needs to go (that's another entry)

Am I just being pedantic? I'd say yes, except that I believe these terms all devolve from not seeing the holistic nature of solving problems with programmable machines and since I do see it that way, I want a term that encompasses all of it.

Thus Logic Engineer. Physicists have Mechanical Engineers to apply their ideas, why don't Logicians have Logic Engineers? Currently, we conflate this practical science with Computer Science which is also a pure science - or would be if we stopped doing that. I know that Engineer has professional accreditation connotations in many disciplines - and I'm mixed on what that would mean given the current state of technological practice today - but I believe this most closely maps to what we are doing:

Logician: figure out the rules and limits of valid reasoning.

Logic Engineer: figure out the rules and limits of applying logic to real-world problems. We are Logic Engineers.

Further, if we stopped slicing the world up into hardware and software practitioners, and started seeing that software is just liquid hardware (and vice versa); maybe we'd have something worth accrediting (though I don't think for a long while yet).

So, I'm gonna try it for a while... at least in my head.




engineer

Big Data and Data Engineering Services Market is expected to reach USD 240.60 Bn by 2030, at a CAGR of 17.6% during the forecast period.

(EMAILWIRE.COM, October 31, 2024 ) The global Big Data and Data Engineering Services market is experiencing significant growth, driven by the increasing volume of unstructured data and the need for advanced analytics. Key factors driving this growth include the rise of IoT devices, social media,...




engineer

KOTV engineer Neil Willits passes

Neil was one of the original KOTV engineers who put the station on the air in 1949. Tulsa World obit link in GroupBlog 330.




engineer

The Reverse Engineers Tour On-Demand Update

Portland is currently in the lead for demands to have us put on a concert in their town. If you would like us to play in your town demand it here. Here is a current list of cities that have demanded the Reverse Engineers.




engineer

New look for The Reverse Engineers Website

The Reverse Engineers website has been revamped. We now have quick links to our Myspace page and our iLike.com pages.  We hope you like the new look of the site and watch out for further improvements to the site in the near future. Check it out here: www.thereverseengineers.com




engineer

Experience Formula 1 engineering in the new Mercedes-AMG C 63 S E Performance sedan

Mercedes-Benz India has introduced the Mercedes-AMG C 63 S E PERFORMANCE, a hybrid sports sedan that blends high-performance engineering with Formula 1™-inspired technology




engineer

Meeting New Challenges in Document Engineering




engineer

Researching together in academic engagement in engineering: a study of dual affiliated graduate students in Sweden

This article explores dual affiliated graduate students that conduct research involving both universities and firms, which we conceptualise as a form of academic engagement, e.g., knowledge networks. We explore what they do during their studies, and their perceptions about their contributions to the firm's capacities for technology and innovation. So far, university-industry interactions in engineering are less researched than other fields, and this qualitative study focuses upon one department of Electrical Engineering in Sweden. First, we define and describe how the partner firms and universities organise this research collaboration as a form of academic engagement. Secondly, we propose a conceptual framework specifying how graduate students act as boundary-spanners between universities and firms. This framework is used for the empirical analysis, when exploring their perceptions of impact. Our results reveal that they primarily engage in problem-solving activities in technology, which augment particularly the early stages of absorptive capacities in firms.




engineer

Concurrent Software Engineering Project




engineer

An Instructional Design Framework to Improve Student Learning in a First-Year Engineering Class

Increasingly, numerous universities have identified benefits of flipped learning environments and have been encouraging instructors to adapt such methodologies in their respective classrooms, at a time when departments are facing significant budget constraints. This article proposes an instructional design framework utilized to strategically enhance traditional flipped methodologies in a first-year engineering course, by using low-cost technology aids and proven pedagogical techniques to enhance student learning. Implemented in a first-year engineering course, this modified flipped model demonstrated an improved student awareness of essential engineering concepts and improved academic performance through collaborative and active learning activities, including flipped learning methodologies, without the need for expensive, formal active learning spaces. These findings have been validated through two studies and have shown similar results confirming that student learning is improved by the implementation of multi-pedagogical strategies in-formed by the use of an instructional design in a traditional classroom setting.




engineer

Activity Oriented Teaching Strategy for Software Engineering Course: An Experience Report

Aim/Purpose: This paper presents the findings of an Activity-Oriented Teaching Strategy (AOTS) conducted for a postgraduate level Software Engineering (SE) course with the aim of imparting meaningful software development experience for the students. The research question is framed as whether the activity-oriented teaching strategy helps students to acquire practical knowledge of Software Engineering and thus bridge the gap between academia and software industry. Background: Software Engineering Education (SEE) in India is mainly focused on teaching theoretical concepts rather than emphasizing on practical knowledge in software development process. It has been noticed that many students of CS/IT background are struggling when they start their career in the software industry due to inadequate familiarity with the software development process. In the current context of SE education, there is a knowledge gap between the theory learned in the classroom and the actual requirement demanded by the software industry. Methodology: The methodology opted for in this study was action research since the teachers are trying to solve the practical problems and deficiencies encountered while teaching SE. There are four pedagogies in AOTS for fulfilling the requirements of the desired teaching strategy. They are flipped classroom, project role-play for developing project artifacts, teaching by example, and student seminars. The study was conducted among a set of Postgraduate students of the Software Engineering programme at Cochin University of Science and Technology, India. Contribution: AOTS can fulfil both academic and industrial requirements by actively engaging the students in the learning process and thus helping them develop their professional skills. Findings: AOTS can be molded as a promising teaching strategy for learning Software Engineering. It focuses on the essential skill sets demanded by the software industry such as communication, problem-solving, teamwork, and understanding of the software development processes. Impact on Society: Activity-oriented teaching strategies can fulfil both academic and industrial requirements by actively engaging the students in the SE learning process and thus helping them in developing their professional skills. Future Research: AOTS can be refined by adding/modifying pedagogies and including different features like an online evaluation system, virtual classroom etc.




engineer

Collaborative Approach in Software Engineering Education: An Interdisciplinary Case

Aim/Purpose: This study was aimed at enhancing students’ learning of software engineering methods. A collaboration between the Computer Science, Business Management, and Product Design programs was formed to work on actual projects with real clients. This interdisciplinary form of collaboration simulates the realities of a diverse Software Engineering team. Background: A collaborative approach implemented through projects has been the established pedagogy for introducing the Software Engineering course to undergraduate Computer Science students. The collaboration, however, is limited to collaboration among Computer Science students and their clients. This case study explored an enhancement to the collaborative approach to project development by integrating other related disciplines into the project development framework; hence, the Interdisciplinary Approach. Methodology: This study adopted the case method approach. An interdisciplinary service innovation activity was proposed to invite other disciplines in the learning process of the computer science students. The agile methodology Scrum was used as the software development approach during project development. Survey data were collected from the students to establish (a) their perception of the interdisciplinary approach to project development; (b) the factors that influenced success or failure of their team to deliver the project; and (c) the perceived skills or knowledge that they acquired from the interdisciplinary approach. Analysis of data followed a mixed method approach. Contribution: The study improved the current pedagogy for Software Engineering education by integrating other related disciplines into the software project development framework. Findings: Data collected showed that the students generally accepted the interdisciplinary approach to project development. Factors such as project relevance, teamwork, time and schedule, and administration support, among others, affect team performance towards project completion. In the case of the Computer Science students, results show that students have learned skills during the experience that, as literature reveal, can only be acquired or mastered in their future profession as software engineers. Recommendations for Practitioners: The active collaboration of the industry with the University and the involvement of the other related courses in teaching software engineering methods are critical to the development of the students, not only in learning the methodology but also as a working professional. Recommendation for Researchers: It is interesting to know and eventually understand the interactions between interdisciplinary team members in the conduct of Software Engineering practices while working on their projects. More specifically, what creative tensions arise and how do the interdisciplinary teams handle the discourse? Impact on Society: This study bridges the gap between how Software Engineering is taught in the university and how Software Engineering teams work in real life. Future Research: Future research is targeted at refining and elaborating the elements of the interdisciplinary framework presented in this paper towards an integrated course module for Software Engineering education.




engineer

Enhancing Children's Interest and Knowledge in Bioengineering through an Interactive Videogame

Aim/Purpose: Bioengineering is a burgeoning interdisciplinary learning domain that could inspire the imaginations of elementary aged children but is not traditionally taught to this age group for reasons unrelated to student ability. This pilot study presents the BacToMars videogame and accompanying curricular intervention, designed to introduce children (aged 7-11) to foundational concepts of bioengineering and to the interdisciplinary nature of scientific endeavors. Background: This pilot study explores the bioengineering-related learning outcomes and attitudes of children after engaging with the BacToMars game and curriculum intervention. Methodology: This study drew on prior findings in game-based learning and applied them to a videogame designed to connect microbiology with Constructionist microworlds. An experimental comparison showed the learning and engagement affordances of integrating this videogame into a mixed-media bioengineering curriculum. Elementary-aged children (N = 17) participated in a 9-hour learning intervention, with one group of n = 8 children receiving the BacToMars videogame and the other group (n = 9) receiving traditional learning activities on the same content. Pre- and post-surveys and interview data were collected from both groups. Contribution: This paper contributes to education research on children’s ability to meaningfully engage with abstract concepts at the intersection of science and engineering through bioengineering education, and to design research on developing educational technology for introducing bioengineering content to elementary school children. Findings: Children in both groups showed improved knowledge and attitudes related to bioengineering. Children who used BacToMars showed slightly stronger performance on game-specific concepts, while children in the control condition showed slightly higher generalized knowledge of bioengineering concepts. Recommendations for Practitioners: Practitioners should consider bioengineering as a domain for meaningful, interdisciplinary learning in elementary education.. Recommendation for Researchers: Design researchers should develop playful ways to introduce bioengineering concepts accurately and to engage children’s imaginations and problem-solving skills. Education researchers should further investigate developmentally appropriate ways to introduce bioengineering in elementary education. Impact on Society: BacToMars introduces a meaningful scenario to contextualize complex con-cepts at the intersection of science and engineering, and to engage children in real-world, interdisciplinary problem solving. Future Research: Future research should explore BacToMars and bioengineering curricula for elementary-aged children in larger samples, with longer intervention times.




engineer

Adoption and Usage of Augmented Reality-based Virtual Laboratories Tool for Engineering Studies

Aim/Purpose: The study seeks to utilize Augmented Reality (AR) in creating virtual laboratories for engineering education, focusing on enhancing teaching methodologies to facilitate student understanding of intricate and theoretical engineering principles while also assessing engineering students’ acceptance of such laboratories. Background: AR, a part of next-generation technology, has enhanced the perception of reality by overlaying virtual elements in the physical environment. The utilization of AR is prevalent across different disciplines, yet its efficacy in facilitating Science, Technology, Engineering, and Mathematics (STEM) education is limited. Engineering studies, a part of STEM learning, involves complex and abstract concepts like machine simulation, structural analysis, and design optimization; these things would be easy to grasp with the help of AR. This restriction can be attributed to their innovative characteristics and disparities. Therefore, providing a comprehensive analysis of the factors influencing the acceptance of these technologies by students - the primary target demographic – and examining the impact of these factors is essential to maximize the advantages of AR while refining the implementation processes. Methodology: The primary objective of this research is to develop and evaluate a tool that enriches the educational experience within engineering laboratories. Utilizing Unity game engine libraries, digital content is meticulously crafted for this tool and subsequently integrated with geo-location functionalities. The tool’s user-friendly interface allows both faculty and non-faculty members of the academic institution to establish effortlessly the virtual laboratory. Subsequently, an assessment of the tool is conducted through the application of the Unified Theory of Acceptance and Use of Technology (UTAUT2) model, involving the administration of surveys to university students to gauge their level of adaptability. Contribution: The utilization of interactive augmented learning in laboratory settings enables educational establishments to realize notable savings in time and resources, thereby achieving sustainable educational outcomes. The study is of great importance due to its utilization of student behavioral intentions as the underlying framework for developing an AR tool and illustrating the impact of learner experience on various objectives and the acceptance of AR in Engineering studies. Furthermore, the research results enable educational institutions to implement AR-based virtual laboratories to improve student experiences strategically, align with learner objectives, and ultimately boost the adaptability of AR technologies. Findings: Drawing on practice-based research, the authors showcase work samples and a digital project of AR-based Virtual labs to illustrate the evaluation of the adaptability of AR technology. Adaptability is calculated by conducting a survey of 300 undergraduate university students from different engineering departments and applying an adaptability method to determine the behavioral intentions of students. Recommendations for Practitioners: Engineering institutions could leverage research findings in the implementation of AR to enhance the effectiveness of AR technology in practical education settings. Recommendation for Researchers: The authors implement a pragmatic research framework aimed at integrating AR technology into virtual AR-based labs for engineering education. This study delves into a unique perspective within the realm of engineering studies, considering students’ perspectives and discerning their behavioral intentions by drawing upon previous research on technology utilization. The research employs various objectives and learner experiences to assess their influence on students’ acceptance of AR technology. Impact on Society: The use of AR in engineering institutions, especially in laboratory practicals, has a significant impact on society, supported by the UTAUT2 model. UTAUT2 model assesses factors like performance, effort expectancy, social influence, and conditions, showing that AR in education is feasible and adaptable. This adaptability helps students and educators incorporate AR tools effectively for better educational results. AR-based labs allow students to interact with complex engineering concepts in immersive settings, enhancing understanding and knowledge retention. This interactive augmented learning for laboratories saves educational institutions significant time and resources, attaining sustainable learning. Future Research: Further research can employ a more comprehensive acceptance model to examine learners’ adaptability to AR technology and try comparing different adaptability models to determine which is more effective for engineering students.




engineer

Investigating Factors Contributing to Student Disengagement and Ownership in Learning: A Case Study of Undergraduate Engineering Students

Aim/Purpose: Despite playing a critical role in shaping the future, 70% of undergraduate engineers report low levels of motivation. Student disengagement and a lack of ownership of their learning are significant challenges in higher education, specifically engineering students in the computer science department. This study investigates the various causes of these problems among first-year undergraduate engineers. Background: Student disengagement has become a significant problem, especially in higher education, leading to reduced academic performance, lower graduation rates, and less satisfaction with learning. The study intends to develop approaches that encourage a more interesting and learner-motivated educational environment. Methodology: This research uses a mixed methods approach by combining quantitative data from a survey-based questionnaire with qualitative insights from focus groups to explore intrinsic and extrinsic motivators, instructional practices, and student perceptions of relevance and application of course content. The aim of this method is to make an all-inclusive exploration into undergraduate engineering students’ perspectives on factors contributing to this disengagement and the need for more ownership. Contribution: Inculcating passion for engineering among learners seems demanding, with numerous educational programs struggling with issues such as a lack of interest by students and no personal investment in learning. Understanding the causes is of paramount importance. The study gives suggestions to help teachers or institutions create a more engaged and ownership-based learning environment for engineering students. Findings: The findings revealed a tangled web influencing monotonous teaching styles, limited opportunities and applications, and a perceived gap between theoretical knowledge and real-world engineering problems. It emphasized the need to implement more active learning strategies that could increase autonomy and a stronger sense of purpose in their learning journey. It also highlights the potential use of technology in promoting student engagement and ownership. Further research is needed to explore optimal implementation strategies for online simulations, interactive learning platforms, and gamification elements in the engineering curriculum. Recommendations for Practitioners: It highlights the complex interplay of intrinsic and extrinsic motivation factors and the need to re-look at instructional practice and emphasize faculty training to develop a more student-centered approach. It also stresses the need to look into the relevance and application of the course content. Recommendation for Researchers: More work needs to be done with a larger, more diverse sample population across multiple institutions and varied sociocultural and economic backgrounds. Impact on Society: Enhancing learners’ educational experience can result in creating a passionate and competent team of engineers who can face future obstacles fearlessly and reduce the production of half-baked graduates unprepared for the profession’s challenges. Future Research: Conduct long-term studies to assess the impact of active learning and technology use on student outcomes and career readiness. Investigate scaling up successful strategies across diverse engineering programs. See if promising practices work well everywhere.




engineer

International Journal of Web Engineering and Technology




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On-line Learning and Ontological Engineering




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Accreditation of Monash University Software Engineering (MUSE) Program




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Evaluation of a Suite of Metrics for Component Based Software Engineering (CBSE)




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Innovation and Scaling up Agile Software Engineering Projects




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IT Systems Development: An IS Curricula Course that Combines Best Practices of Project Management and Software Engineering