A review of literature on communication skills development (CSD) in the engineering curriculum

Engineering education has expanded recently to include emphasis on the development of some very specific non-technical attributes that match a strong technical base to produce well-rounded engineering graduates who are flexible and adaptable to suit the constantly developing and changing requirements of the workplace. These non technical skills include communication skills, the ability to function in teams, knowledge of societal and contemporary issues, development of global perspective, and ethics awareness. A great importance of these abilities to engineering education has emerged over the last decade even within the international and local scene. Within the Malaysian context, the Engineering Accreditation Council’s (EAC) Engineering Program Accreditation Manual(BEM, 2007) , outlines ten learning outcomes that encompasses both the technical and non technical skills which are considered essential for graduating engineers. Similarly, the Accreditation Board of Engineering and Technology (ABET) Criterion 3 (ABET, 2000), outlines eleven criterion which targeted many of these as essential program outcomes in order for engineering programs to be accredited and which are seen as critical for the success in the twenty first century. Communication skills development(CSD) is one of the outcomes required by an undergraduate engineering program in the Engineering Accreditation Council (EAC) for Institutions of Higher Learning (IHL) in Malaysia as well as in the ABET Engineering Criteria 2000 (ABET, 2000). CSD is essential for an engineer who aspires to carry out his/her professional practice in the global arena and especially in the English language. With an increasingly global economy, the Malaysian education system must produce graduates who can communicate effectively in English. Otherwise, it would lose one of its vital selling points for foreign investors to ensure that skilled labor force are sufficient to support internationally competitive commerce and industry and to provide individuals with opportunities to optimize their potentials (Muhammad Rashid bin Rajuddin, 2006; Riemer, 2002)

Designing an Open Virtual Factory of Small and Medium-sized Enterprises for Industrial Engineering Education

Curriculum of Industrial Engineering program must accomplish the requirement that graduates have the ability to design, develop, implement, and improve integrated system that include people, materials, equipment and energy. However, it is not easy to implement a curriculum that fosters such competencies. One of the strategies to achieve that is using an innovative learning media, so that the problem-based learning (PBL) can be accustomed. In this paper, we design a web-based enterprise resources planning. It is aimed to capture the real problem of small and medium-sized enterprises (SMEs) in bottled drinking water industries. The integrated system can be illustrated as ERP application that designed by using free open source software (FOSS). This research aimed to utilize the application to improve teaching methods in IE education. The result of the research can be used to improve the competencies of IE students, especially the abilities to identify, formulate, and solve the activities of the business process improvement in SMEs. Keywords Industrial engineering education, FOSS, innovative learning media, problem-based learnin

Design and Implementation of Performance Metrics for Evaluation of Assessments Data

The objective of this paper is to design performance metrics and respective formulas to quantitatively evaluate the achievement of set objectives and expected outcomes both at the course and program levels. Evaluation is defined as one or more processes for interpreting the data acquired through the assessment processes in order to determine how well the set objectives and outcomes are being attained. Even though assessment processes for accreditation are well documented but existence of an evaluation process is assumed. This paper focuses on evaluation process to provide insights and techniques for data interpretation. It gives a complete evaluation process from the data collection through various assessment methods, performance metrics, to the presentations in the form of tables and graphs. Authors hope that the articulated description of evaluation formulas will help convergence to high quality standard in evaluation process

Academic Recognition of Military Experience in STEM Education

Recent calls for increases in science, technology, engineering, and math (STEM) education attainment and veterans' education success have created a platform for examining how veterans with military experience in STEM fields can more efficiently complete postsecondary education and training.The American Council on Education (ACE) military evaluation program provides credit recommendations for military courses that align servicemembers' training with postsecondary curricula and competencies. These recommendations,if accepted as transfer credit, can decrease the time it takes servicemembers and veterans to complete STEM certificates and degrees.Numerous challenges exist in considering military credit recommendations for postsecondary courses and degrees. The process is complex, requiring an acute understanding of military transcripts and the resources and tools available to assist institutions of higher education in awarding credit for military training. Additionally, misinformation and lack of awareness regarding the content, scope, and rigor of the ACE review process and resulting credit recommendations create resistance to awarding credit.Successfully increasing acceptance of military credit recommendations at institutions of higher education can be achievedthrough public-private partnerships between colleges and universities, federal agencies, workforce development experts, and other key stakeholders using available resources and tools to build degree pathways that accurately map military training to STEM courses.An education campaign about the ACE review process and the value of the resulting credit recommendations will also help eliminate the stigma surrounding credit awarded for prior learning, and boost support among leaders and institutions for increased acceptance of military credit recommendations. This approach will lead to the developmentof best practices and, ultimately, increases in both STEM attainment and veterans' education success

Motivating Technical Writing through Study of the Environment

Today’s engineers must be more than just technically competent. To be successful in our increasingly global economy in which teamwork and interdisciplinary interaction are the norm, engineers must have excellent communication skills. In recognition of industry needs, the San José State University College of Engineering redesigned its technical communication course to ensure that students graduate with writing and speaking skills that will transfer readily to their career needs and the global arena. The course aims to motivate students through exploring topics that are meaningful to them and using communication formats that they will see in the workplace. Combing technical communication with study of the environment broadens the course to meet multiple ABET outcomes. This paper describes the course goals, organization, management, selected assignments, and assessment. Assessment data indicate that at the end of the semester students, on average, have gained between 0.8 and 1.1 points on a 12-point evaluation rubric, and have gained an appreciation of the unique characteristics of and need for technical writing