Engineers for the future; accounting for diversity

tailoring engineering and STEM education to meet the needs of all stakeholders. (External Industry requirement) a. Educational institutions must consider an increasingly diverse group of stakeholders, including students, staff, industry, and the wider community. How can educational activities expand our horizons beyond classroom and industry experience

Software Engineering for Millennials, by Millennials

Software engineers need to manage both technical and professional skills in order to be successful. Our university offers a 5.5 year program that mixes computer science, software and computer engineering, where the first two years are mostly math and physics courses. As such, our students' first real teamwork experience is during the introductory SE course, where they modify open source projects in groups of 6-8. However, students have problems working in such large teams, and feel that the course material and project are "disconnected". We decided to redesign this course in 2017, trying to achieve a balance between theory and practice, and technical and professional skills, with a maximum course workload of 150 hrs per semester. We share our experience in this paper, discussing the strategies we used to improve teamwork and help students learn new technologies in a more autonomous manner. We also discuss what we learned from the two times we taught the new course.Comment: 8 pages, 9 tables, 4 figures, Second International Workshop on Software Engineering Education for Millennial

Women IT Technicians: moving through the glass partition

A study of the lives and careers of women ICT technicians offers a different perspective to other research which focuses on traditional educational routes into computing professions. As part of the JIVE Partners project funded by the European Equal programme, we have recently completed a research study using a qualitative longitudinal approach that followed 20 women ICT technicians who were training to become Microsoft Certified Systems Engineers. We found that their routes into ICT were complex and varied and had often involved crossing boundaries between jobs which are usually gender segregated. Rather than reaching a glass ceiling that blocked their upward progression, these women found ways to make a lateral transition through a ‘glass partition’ into areas of work that have traditionally been dominated by men. Whilst women form significant numbers of those studying and working with ICTs, they are usually concentrated in administrative contexts rather than in technical occupations. Although precise figures are difficult to ascertain, there are few women working as ICT technicians or support staff and those that do work in these fields find that their career prospects are limited due to the attitudes and practices within this sector. Women in the study had a range of technical job roles some of which spanned traditional gender boundaries. The majority of the women did not choose ICT as their first profession, and for many of them there was an element of luck or chance in their entry into their current job roles. While formal careers advice had been minimal, family members (male and female) were important influencers, either as role models or as a source of information and encouragement. Prior to entering work in technical areas of ICT, these women had a range of educational backgrounds; they were often quite highly qualified but not in ICT subjects. Career decisions and future plans were strongly influenced by work life balance consideration

A Collaborative Project to Increase the Participation of Women and Minorities In Higher Level Mathematics Courses

In this article, the authors describe a program developed to encourage women and minorities to continue their study of mathematics in high schools until graduation. The 3- year program was a collaborative effort by professors and students from Bryant University, local businesses, and local high schools. During the 3 years, the program evolved from the development and presentation of reality-based mathematical modules taught in the high school classrooms to an interdisciplinary enrichment activity at Bryant University. The university students acted as mentors or tutors to the high school students. Throughout the program, the business representatives, university personnel, and high school teachers collaborated to bring mathematics alive to the students through real-world applications

Ethical Engineering and Respect for The ‘Other’

Engineers have a very important role and responsibility in shaping modern society. Diversity amongst engineers is important in fulfilling this responsibility and ensuring that the creativity and needs of the whole population are taken account of. However, only a small percentage of engineers are female and very few of them are disabled. The paper discusses the experiences of women and disabled engineers in the context of othering and considers the way in which the existence of binary divides facilitates marginalisation and exclusion. It also discusses the need to involve end-users in design and development and education to encourage this, with a particular focus on disabled end-users

Spartan Daily, October 12, 1981

Volume 77, Issue 28https://scholarworks.sjsu.edu/spartandaily/6804/thumbnail.jp

Spartan Daily, October 12, 1981

Volume 77, Issue 28https://scholarworks.sjsu.edu/spartandaily/6804/thumbnail.jp

Emerging cad and bim trends in the aec education: An analysis from students\u27 perspective

As the construction industry is moving towards collaborative design and construction practices globally, training the architecture, engineering, and construction (AEC) students professionally related to CAD and BIM became a necessity rather than an option. The advancement in the industry has led to collaborative modelling environments, such as building information modelling (BIM), as an alternative to computer-aided design (CAD) drafting. Educators have shown interest in integrating BIM into the AEC curriculum, where teaching CAD and BIM simultaneously became a challenge due to the differences of two systems. One of the major challenges was to find the appropriate teaching techniques, as educators were unaware of the AEC students’ learning path in CAD and BIM. In order to make sure students learn and benefit from both CAD and BIM, the learning path should be revealed from students’ perspective. This paper summarizes the background and differences of CAD and BIM education, and how the transition from CAD to BIM can be achieved for collaborative working practices. The analysis was performed on freshman and junior level courses to learn the perception of students about CAD and BIM education. A dual-track survey was used to collect responses from AEC students in four consecutive years. The results showed that students prefer BIM to CAD in terms of the friendliness of the user-interface, help functions, and self-detection of mistakes. The survey also revealed that most of the students believed in the need for a BIM specialty course with Construction Management (CM), Structure, and Mechanical-Electrical-Plumbing (MEP) areas. The benefits and challenges of both CAD and BIM-based software from students’ perspectives helps to improve the learning outcomes of CAD/BIM courses to better help students in their learning process, and works as a guideline for educators on how to design and teach CAD/BIM courses simultaneously by considering the learning process and perspectives of students. © 2018 The autho

Spartan Daily, October 12, 1981

Volume 77, Issue 28https://scholarworks.sjsu.edu/spartandaily/6804/thumbnail.jp