Your search keyword '"Camelia, Fanny"' showing total 12 results

1. Preface

Author

Setiawan Eko, Hidayati Nurul, Fatoni Rois, Camelia Fanny, Kristanto Agung, Ardiyanto, Setiawan Wisnu, Mulyaningtyas Akida, Anggono Agus Dwi, Prasetyaningtiyas Gayuh Aji, Kusban Muhammad, Tri Nugrahaini Fadhilla, Putri Arinda Soraya, and Prasetya Dedi Ary

Subjects

Environmental sciences, GE1-350

Published

2024

2. The Effectiveness of a Systems Engineering Course in Developing Systems Thinking

Author

Camelia, Fanny, Ferris, Timothy L. J., and Behrend, Monica B.

Abstract

Contribution: An evaluation of the effectiveness of systems engineering (SE) courses in developing students' systems thinking (ST) capacity in both the cognitive and affective domains. A combined cognitive ST performance and affective engagement with ST assessment is proposed as an approach to assess students' ST in both domains. The results can support course change decisions and guide learning experience development. Background: SE education aims to produce graduates with strong knowledge and skills in SE and a strong appreciation of the practical value of ST, which addresses the cognitive and affective domains in education. Consequently, it is important to evaluate the effectiveness of SE courses in developing students' ST in these domains, an area that studies do not consider. Intended Outcomes: An understanding of the ST ability of undergraduate students in an SE course in a domain specific engineering program in both the cognitive and affective domains. Application Design: A study evaluated the effectiveness of two SE classes in developing students' ST capacity using a combined cognitive and affective assessment tool developed and validated in previous studies. ST assessment is determined by combining ST performance and affective engagement. To observe the transformation of students' ST capacity, a longitudinal design collected data at two times in each of two offerings of an SE course offered by the same university in two locations--Australia and Singapore. Findings: The course developed students in most dimensions of cognitive ST, but did not appear to improve students' affective engagement with ST.

Published

2020

3. Red-teaming as a research validation method for systems engineering thesis students

Author

Ferris, Timothy L. J., Camelia, Fanny, Mattsson, Tuomas, and Machado, Rogério C.

Abstract

All research projects need a forward path method for performing the investigation, making findings and reaching conclusions. In addition, project methodology must include methods that test the truth of the knowledge claimed to have been developed through the project. We address the specific issue of validation in thesis projects in systems engineering (SE) programs where the intended outcome is either an application of SE method or an investigation of a topic in SE. We present red-teaming (RTing) as a validation method for results of SE research. We discuss two case studies of thesis projects which used a RTing method to evaluate a proposed method for doing something. From this we discuss the strengths and weaknesses of the RTing method in thesis projects and provide guidelines for use of RTing as a project outcomes evaluation method. We conclude RTing is a useful method to evaluate a thesis project which generates a design or a method because it uses a method not directly influenced by the student’s assumptions in the design of the project. The RTing method is constrained by the challenges of finding willing red-team (RT) members, project schedule, and the RT member’s knowledge of the subject.

Published

2022

4. The effectiveness of a systems engineering course in developing systems thinking, Available online 12 July, 2019

Author

Camelia, Fanny, Ferris, Tim, and Behrend, Monica B.

Subjects

student assessment, undergraduate, systems engineering education, assessment tools, Affective domain, cognitive domain, systems thinking

Abstract

performance and affective engagement with ST assessment is proposed as an approach to assess students' ST in both domains. The results can support course change decisions and guide learning experience development. Background: SE education aims to produce graduates with strong knowledge and skills in SE and a strong appreciation of the practical value of ST, which addresses the cognitive and affective domains in education. Consequently, it is important to evaluate the effectiveness of SE courses in developing students' ST in these domains, an area that studies do not consider. Intended Outcomes: An understanding of the ST ability of undergraduate students in an SE course in a domain specific engineering program in both the cognitive and affective domains. Application Design: A study evaluated the effectiveness of two SE classes in developing students' ST capacity using a combined cognitive and affective assessment tool developed and validated in previous studies. ST assessment is determined by combining ST performance and affective engagement. To observe the transformation of students' ST capacity, a longitudinal design collected data at two times in each of two offerings of an SE course offered by the same university in two locations--Australia and Singapore. Findings: The course developed students in most dimensions of cognitive ST, but did not appear to improve students' affective engagement with ST.

Published

2019

5. PERKEMBANGAN EKONOMI KOPERASI di INDONESIA

Author

Hasyim Hasyim and Camelia Fanny Sitepu

Abstract

Perkembangan ekonomi di Indonesia dimulai dari masa penjajahan Belanda sampai Jepang. Banyak sekali kesulitan dan penderitaan rakyat pada saat itu,belum lagi mereka harus menuruti kemauan para penjajah. Disini perkembangan ekonomi sangat sulit,karena mereka menguasai semua yang ada. Sampai akhirnya masyarakat mendirikan koperasi kredit dengan tujuan membantu rakyatnya yang terjerat hutang dengan rentenir. Dengan demikian, masyarakat mengenal koperasi serta fungsinya dari koperasi tersebut. Cita-cita Koperasi memang sesuai dengan susunan kehidupan rakyat Indonesia. Meski selalu mendapat rintangan, namun Koperasi tetap berkembang. Seiring dengan perkembangan masyarakat, berkembang pula perundang-undangan yang digunakan. Perkembangan dan perubahan perundang-undangan tersebut dimaksudkan agar dapat selalu mengikuti perkembangan jaman. Perkembangan koperasi masih menghadapi masalah-masalah baik di bidang kelembagaan maupun di bidang usaha koperasi itu sendiri. Masalah-masalah tersebut dapat bersumber dari dalam koperasi sendiri maupun dari luar. Masalah kelembagaan koperasi juga dapat dikelompokkan dalam masalah intern maupun masalah ekstern. Masalah intern mencakup masalah keanggotaan, kepengurusan, pengawas, manajer, dan karyawan koperasi. Sedangkan masalah ekstern mencakup hubungan koperasi dengan bank, dengan usaha-usaha lain, dan juga dengan instansi pemerintah. Keywords: Perkembangan Ekonomi, Koperasi, Indonesia

Published

2018

6. Validation Studies of a Questionnaire Developed to Measure Students’ Engagement With Systems Thinking

Author

Camelia, Fanny, primary and Ferris, Timothy L. J., additional

Published

2018

7. Undergraduate Students’ Engagement With Systems Thinking: Results of a Survey Study

Author

Camelia, Fanny, primary and Ferris, Timothy L. J., additional

Published

2017

8. Validation studies of a questionnaire developed to measure students' engagement with systems thinking

Author

Camelia, Fanny and Ferris, T L J

Abstract

The purpose of this paper was to develop and validate a new theoretically based scale to measure students' learning of systems thinking in relation to the affective domain in the context of systems engineering education. Two variant questionnaires are reported here, one using only questions constructed using positive grammar and the other using a mix of positive and negative constructs, each applied to a different sample. The first group of 186 participants completed the positive version of the questionnaire, and, the second group of 163 completed the mixed version. Construct validity was examined through exploratory factor analysis (EFA) and confirmatory factor analysis (CFA). EFA was conducted to find the factors underlying each questionnaire. CFA was conducted to confirm the better questionnaire version and to confirm the factors which underlie both versions. The results indicate that a three factor, 16 item, scale with a mix of positive and negative wording is the better instrument with which to measure students' engagement with systems thinking. The results also indicate that the three factor, 16 item construct is a better representative of both versions of the questionnaire, whether the questionnaire has only positive questions or a mix of positive and negative questions.

Published

2016

9. SEJARAH HUKUM PERDATA DAGANG di INDONESIA: PENDEKATAN KEPUSTAKAAN

Author

Camelia Fanny Sitepu

Abstract

Sejarah membuktikan bahwa Hukum Perdata yang saat ini berlaku di Indonesia, tidak lepas dari Sejarah Hukum Perdata Eropa. Bermula di benua Eropa, terutama di Eropa Kontinental berlaku Hukum Perdata Ramawi, disamping adanya Hukum tertulis dan Hukum kebiasaan setempat. Diterimanya Hukum Perdata Romawi pada waktu itu sebagai hukum asli dari negara-negara di Eropa, oleh karena keadaan hukum di Eropa kacau-balau, dimana tiap-tiap daerah selain mempunyai peraturan-peraturan sendiri, juga peraturan setiap daerah itu berbeda-beda. Oleh karena adanya perbedaan ini jelas bahwa tidak ada suatu kepastian hukum. Akibat ketidak puasan, sehingga orang mencari jalan kearah adanya kepastian hukum, kesatuan hukum dan keseragaman hukum. Pada tahun 18o4 atas prakarsa Napoleon terhimpunlah Hukum Perdata dalam satu kumpulan peraturan yang bemama "Code Civil des Francais" yang juga dapat disebut "Code Napoleon", karena Code Civil des Francais ini adalah merupakan sebagian dari Code Napoleon. Sebagai petunjuk penyusunan Code Civil ini dipergunakan karangan dari beberapa ahli hukum antara lain Dumoulin, Domat dan Pothies, disamping itu juga dipergunakan Hukum Bumi Putra Lama, Hukum Jemonia dan Hukum Cononiek. Kata Kunci : Sejarah Hukum Perdata Dagang

Published

2018

10. The Effectiveness of a Systems Engineering Course in Developing Systems Thinking

Author

Timothy L.J. Ferris, Fanny Camelia, Monica Behrend, Camelia, Fanny, Ferris, Timothy LJ, and Behrend, Monica B

Subjects

student assessment, undergraduate, Affective domain, 05 social sciences, systems thinking, A domain, 050301 education, Cognition, Engineering program, Education, Learning experience, systems engineering education, Engineering education, Course evaluation, assessment tools, cognitive domain, ComputingMilieux_COMPUTERSANDEDUCATION, Systems engineering, Task analysis, Systems thinking, Electrical and Electronic Engineering, Psychology, 0503 education

Abstract

Contribution: An evaluation of the effectiveness of systems engineering (SE) courses in developing students' systems thinking (ST) capacity in both the cognitive and affective domains. A combined cognitive ST performance and affective engagement with ST assessment is proposed as an approach to assess students' ST in both domains. The results can support course change decisions and guide learning experience development. Background: SE education aims to produce graduates with strong knowledge and skills in SE and a strong appreciation of the practical value of ST, which addresses the cognitive and affective domains in education. Consequently, it is important to evaluate the effectiveness of SE courses in developing students' ST in these domains, an area that studies do not consider. Intended Outcomes: An understanding of the ST ability of undergraduate students in an SE course in a domain specific engineering program in both the cognitive and affective domains. Application Design: A study evaluated the effectiveness of two SE classes in developing students' ST capacity using a combined cognitive and affective assessment tool developed and validated in previous studies. ST assessment is determined by combining ST performance and affective engagement. To observe the transformation of students' ST capacity, a longitudinal design collected data at two times in each of two offerings of an SE course offered by the same university in two locations--Australia and Singapore. Findings: The course developed students in most dimensions of cognitive ST, but did not appear to improve students' affective engagement with ST Refereed/Peer-reviewed

Published

2020

11. Validation Studies of a Questionnaire Developed to Measure Students’ Engagement With Systems Thinking

Author

Timothy L.J. Ferris, Fanny Camelia, Camelia, Fanny, and Ferris, Timothy LJ

Subjects

Knowledge management, Applied psychology, 0211 other engineering and technologies, Context (language use), 02 engineering and technology, affective domain, 0502 economics and business, Systems thinking, Soft systems methodology, Electrical and Electronic Engineering, systems engineering, education, 021103 operations research, business.industry, systems engineering and theory, 05 social sciences, systems thinking, Construct validity, Confirmatory factor analysis, Exploratory factor analysis, Computer Science Applications, Human-Computer Interaction, systems engineering education, Control and Systems Engineering, Scale (social sciences), business, Construct (philosophy), Psychology, 050203 business & management, Software

Abstract

The purpose of this paper was to develop and validate a new theoretically based scale to measure students' learning of systems thinking in relation to the affective domain in the context of systems engineering education. Two variant questionnaires are reported here, one using only questions constructed using positive grammar and the other using a mix of positive and negative constructs, each applied to a different sample. The first group of 186 participants completed the positive version of the questionnaire, and, the second group of 163 completed the mixed version. Construct validity was examined through exploratory factor analysis (EFA) and confirmatory factor analysis (CFA). EFA was conducted to find the factors underlying each questionnaire. CFA was conducted to confirm the better questionnaire version and to confirm the factors which underlie both versions. The results indicate that a three factor, 16 item, scale with a mix of positive and negative wording is the better instrument with which to measure students' engagement with systems thinking. The results also indicate that the three factor, 16 item construct is a better representative of both versions of the questionnaire, whether the questionnaire has only positive questions or a mix of positive and negative questions. Refereed/Peer-reviewed

Published

2018

12. Integrating Affective Engagement into Systems Engineering Education

Author

Timothy Ferris, Squires, A. F., Camelia, F., 122nd ASEE Annual Conference and Exposition Washington Convention Center Seattle, United States 14-17 June 2015, Ferris, Timothy LJ, Squires, Alice F, and Camelia, Fanny

Subjects

systems engineering education, student, affective engagement, system

Abstract

In this paper we address the challenges and importance of developing the students’ affectiveengagement with the cognitive content offered in systems engineering education. Systemsengineering is concerned with developing the most appropriate total system solution to address aneed. Systems engineering methods used to find this solution require applying a systemsperspective while making tradeoffs of the relative benefits of each set of possible approaches to aproblem. However, the practical application of systems engineering is to seek a comprehensivedesign solution that satisfies a range of constraints and provides an adequate solution that“satisfices” the stakeholders. Applying the systems engineering method in order to gain theadvantage of an optimal rather than adequate solution, demands that the systems engineerbelieves in the value of the methods, techniques, and perspectives of the systems engineeringmethod, even at times where the method may seem indirect or counterintuitive to performingengineering work. Therefore, systems engineering education must engage the students in boththe cognitive domain - developing ability to perform the techniques, and in the affective domain- transforming the student’s belief to recognize the positive value of the systems engineeringmethod. This paper discusses: 1) the current gap in addressing the affective domain in systemsengineering education, 2) the importance of closing that gap to enable the effectiveimplementation of systems engineering on the job, and 3) related issues and challenges.Following this discussion, the paper proposes a framework for assessing the development of thestudent’s affective engagement in systems engineering methods Refereed/Peer-reviewed

Published

2015