98 7.2 Students appreciation of current features ease-of-use, p.99 ,
Students appreciation of additional features usefulness, p.99 ,
, Educators appreciation about current features usefulness, p.100
Educators appreciation of current features ease-of-use, p.101 ,
Educators appreciation of additional features usefulness, vol.101 ,
Students appreciation about current features usefulness, vol.109 ,
, Students appreciation of current features ease-of-use
, Students appreciation of additional features usefulness
111 7.12 Student responses to each of the knowledge acquisition test ,
11.3.2 the three ts of systems engineering -trading, tailoring, and thinking, INCOSE International Symposium, vol.21, pp.1356-1372, 2011. ,
INCOSE Systems Engineering Handbook: A Guide for System Life Cycle Processes and Activities, 2015. ,
Survey of Model-Based Systems Engineering (MBSE) methodologies ,
, Iso/iec/ieee international standard -systems and software engineering -system life cycle processes. ISO/IEC/IEEE 15288 First edition 2015-05-15, pp.1-118, 2015.
A model for effective systems engineering workforce development at space and naval warfare systems center (ssc) atlantic. Master's thesis, vol.9, 2013. ,
Development of systems engineering people to support major transformation plans in thales (process, roles, methodology and related tools), COSE International Symposium, vol.22, pp.1884-1898, 2012. ,
Introduction to Systems Engineering, 2000. ,
A review of systems engineering standards and processes, Journal of Biomechatronics Engineering, pp.71-85, 2008. ,
Engineering design thinking, teaching, and learning, Journal of Engineering Education, vol.94, issue.1, pp.103-120, 2005. ,
Ac 2012-3389: System engineering competency: The missing course in engineering education, INCOSE International Symposium Journal, vol.20, issue.1, pp.21-36, 2010. ,
Systems engineering: A new approach to engineering education in india, Engineering Education: Innovative Practices and Future Trends (AICERA), 2012 IEEE International Conference on, pp.1-3, 2012. ,
Virtual reality for manufacturing engineering in the factories of the future, Applied Mechanics & Materials, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01213459
Developing a systems engineering activity for middle school students using lego robotics, ASEE 123rd Annual Conference and Exposition, 2016. ,
Didactic recommendations for education in systems engineering, 2010. ,
Design, systems, and engineering education, International Journal of Engineering Education, vol.20, issue.3, pp.305-312, 2004. ,
2.3 standardized process as a tool for higher level systems thinking, INCOSE International Symposium, vol.9, pp.1492-1502, 2007. ,
URL : https://hal.archives-ouvertes.fr/hal-00185302
A survey of current practice in systems engineering education, 44th SEFI Annual Conference, 2016. ,
The Art and Practice of the Learning Organization, Doubleday, 2006. ,
A cognitive framework for engineering systems thinking, 2016. ,
Enabling systems thinking to accelerate the development of senior systems engineers, Systems Engineering, vol.11, issue.1, pp.1-14, 2008. ,
Guide: Introduction au Penser Système, 2014. ,
The conceptagon: A framework for systems thinking and systems practice, 2009. ,
Kasser and Moti Frank. 1.2.2 a maturity model for the competency of systems engineers, INCOSE International Symposium, vol.20, issue.1, pp.37-50, 2010. ,
, Ieee guide for information technology -system definition -concept of operations (conops) document. IEEE Std 1362-1998, pp.1-24, 1998.
Systems thinking: Critical thinking skills for the 1990s and beyond, System Dynamics Review, vol.9, issue.2, pp.113-133, 1993. ,
Guide to the systems engineering body of knowledge (sebok, p.7, 2017. ,
Engineering systems thinking: Cognitive competencies of successful systems engineers, Procedia Computer Science, vol.8, pp.273-278, 2012. ,
Engineering systems thinking and systems thinking, Systems Engineering, vol.3, issue.3, pp.163-168, 2000. ,
General System Theory: Foundations, Development, Applications, 1968. ,
Systems Thinking: Coping with 21st Century Problems, Industrial Innovation Series, 2008. ,
1.6.4 systems engineering is not just engineering-or is it? a critical look at the scope of our profession, INCOSE International Symposium, vol.10, pp.727-734, 2000. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00148681
The Art of Systems Architecting, 2000. ,
8.5.3 a framework for a systems engineering body of knowledge, INCOSE International Symposium, vol.11, pp.841-847, 2001. ,
URL : https://hal.archives-ouvertes.fr/hal-01499472
Systems Engineering and Analysis, 1998. ,
, National Aeronautics and Space Administration. Systems Engineering Handbook. Nasa, 2007.
1.1.3 educating systems engineers: Encouraging divergent thinking, INCOSE International Symposium, vol.12, issue.1, pp.8-15, 2002. ,
URL : https://hal.archives-ouvertes.fr/pasteur-01856114
An integrated approach to systems engineering training, INCOSE International Symposium, vol.4, pp.323-330, 1994. ,
3.4.1 yes systems engineering, you are a discipline, INCOSE International Symposium, vol.22, pp.416-431, 2012. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00023150
A methodology for systems engineering, 1962. ,
History of systems engineering ,
Development of a system engineering competency career model: verification of the model using opm method, p.7, 2017. ,
, MITRE Corporation. Systems Engineering Guide. MITRE, 2014.
, INCOSE. Systems engineering vision 2025
ANSI/EIA-632 Standard, Processes for Engineering a System, EIA, 1998. ,
, Ieee trial-use standard for application and management of the system engineering process, IEEE Std, 1220.
, Ieee standard for application and management of the systems engineering process. IEEE Std 1220-1998, 1999.
, Iso/iec/ieee international standard -systems engineering -system life cycle processes. ISO/IEC 15288 First edition 2002-11-01, pp.1-70, 2002.
, Ieee standard for application and management of the systems engineering process, Revision of IEEE Std 1220-1998), pp.1-87, 2005.
, Iso/iec/ieee systems and software engineering -system life cycle processes. IEEE STD 15288-2008, pp.1-84, 2008.
, Adoption of iso/iec 15288:2002 systems engineering-system life cycle processes, Adoption of ISO/IEC Std 15288:2002), pp.1-67, 2005.
Systems engineering international standards and support tools for very small enterprises, INCOSE International Symposium, vol.24, pp.551-569, 2014. ,
, Systems and software engineering -lifecycle profiles for very small entities (vses) -part 5-6-1: Systems engineering -management and engineering guide: Generic profile group: Entry, pp.1-50, 2015.
, Systems engineering standards, p.1, 2017.
Instantiating product-specific processes: A framework for product quality achievement, INCOSE International Symposium, vol.26, pp.1731-1746, 2016. ,
The evolution of the iso/iec 29110 set of standards and guides, International Journal of Information Technologies and Systems Approach (IJITSA), vol.10, issue.1, pp.1-21, 2017. ,
An innovative approach to the development of an international software process lifecycle standard for very small entities, International Journal of Information Technologies and Systems Approach (IJITSA), vol.7, issue.1, pp.1-22, 2014. ,
Systems and software engineering standards for very small entities: Accomplishments and overview, Computer, vol.49, issue.8, pp.84-87, 2016. ,
Development of a systems engineering career competency model for the u.s. department of defense, INCOSE International Symposium, vol.26, issue.1, pp.1864-1874, 2016. ,
Assessing the competencies of systems engineers, 2010. ,
6.2 developing systems engineering competencies in undergraduate students for industrial placements, INCOSE International Symposium, vol.9, pp.1379-1386, 2012. ,
Comprehensive approach to systems engineering capability development in ge healthcare, INCOSE International Symposium, vol.26, issue.1, pp.115-124, 2016. ,
, Mitre systems engineering competency model, The Mitre Institute, 2007.
, Defense acquisition university (dau) eng competency model
, Nasa project management and systems engineering competency model, academy of program / project engineering leadership (appel, p.7, 2017.
Incose systems engineering competency framework, international council on systems engineering (incose) united kingdom (uk), p.7, 2017. ,
Annex a -guide to competency evaluation, international council on systems engineering (incose) united kingdom (uk), ?CatID= Publications&query=SE%20Competencies%20Framework%20-%20Annex, vol.Accessed, p.7, 2017. ,
, Moti Frank. 7.2.1 towards a 4-d systems engineering cognitive competency model. INCOSE International Symposium, vol.24, pp.617-634, 2014.
, , p.7, 2016.
2.6.2 an approach to develop a systems engineering curriculum for human capital and process improvement, INCOSE International Symposium, vol.10, issue.1, pp.743-749, 2000. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00078134
Findings from a web-based survey of degree programs in engineering systems ,
, Engineering education for a changing world, 1994.
Systems engineering education. Systems, Man, and Cybernetics, Part C: Applications and Reviews, IEEE Transactions on, vol.30, issue.2, pp.164-174, 2000. ,
, Systems engineering capability model interim standard, eai/is 731, 1999.
Knowledge, abilities, cognitive characteristics and behavioral competences of engineers with high capacity for engineering systems thinking (cest). Systems Engineering, vol.9, pp.91-103, 2006. ,
Back to basics -up, out, and down: Three critical perspectives for the systems engineer, INCOSE International Symposium, vol.26, pp.318-325, 2016. ,
2.2.2 getting design right: Systems engineering for the nonengineer, INCOSE International Symposium, vol.20, pp.217-229, 2010. ,
URL : https://hal.archives-ouvertes.fr/hal-01409119
Toward a unified systems engineering education. Systems, Man, and Cybernetics, Part C: Applications and Reviews, IEEE Transactions on, vol.30, issue.2, pp.175-182, 2000. ,
Authentic learning supported by technology: Ten suggestions and cases of integration in classrooms, Educational Media International, vol.44, issue.3, pp.219-236, 2007. ,
3.3.2 collaborative systems thinking: A response to the problems faced by systems engineering's "middle tier, INCOSE International Symposium, vol.19, pp.477-489, 2009. ,
A network-based analysis of team coordination and shared cognition in systems engineering, Systems Engineering, vol.19, issue.5, pp.395-408, 2016. ,
Systems engineering a 21st century introductory course on systems engineering: the seraswati project, Proceeding of APCOSE, Asia-Pacific Conference on Systems Engineering, 2008. ,
Computer-based courseware for systems engineering education and training, COSE International Symposium, vol.2, pp.543-550, 1992. ,
Inductive teaching and learning methods: Definitions, comparisons, and research bases, Journal of Engineering Education, vol.95, issue.2, pp.123-138, 2006. ,
2.6.3 designing a systems engineering educational program using academic/industry collaboration, INCOSE International Symposium, vol.10, pp.750-756, 2000. ,
URL : https://hal.archives-ouvertes.fr/inserm-00420818
and Ilana Lavy. 5.6.3 developing capacity for engineering systems thinking in a project-based learning environment, INCOSE International Symposium, vol.13, pp.957-964, 2003. ,
Facilitating collaborative learning in online engineering student teams, INCOSE International Symposium, vol.26, pp.1219-1230, 2016. ,
Systems & Design Thinking: A Conceptual Framework for Their Integration, Proceedings of the 55th Annual Meeting of the ISSS-2011, vol.55, 2011. ,
Engineering design education: Where, when and how, Journal of American Education, 2013. ,
Multidisciplinary engineering systems graduate education: Master of engineering in mechatronics, Transforming Engineering Education: Creating Interdisciplinary Skills for Complex Global Environments, 2010. ,
, IEEE, pp.1-14, 2010.
Academic perspectives of systems engineering, JOHNS HOPKINS APL TECHNICAL DIGEST, vol.29, issue.4, 2011. ,
1.2.5 capstone design in education: Systems engineering and the west point way, INCOSE International Symposium, vol.12, issue.1, pp.211-217, 2002. ,
1.6.1 development of systems engineers: A structured approach based upon international experience, INCOSE International Symposium, vol.10, pp.703-709, 2000. ,
URL : https://hal.archives-ouvertes.fr/hal-01682188
Graduate course for systems engineering at the fachhochschule münchen, INCOSE International Symposium, vol.7, pp.763-768, 1997. ,
Graduate reference curriculum for systems engineering (grcse TM ) v1.1. Trustees of the Stevens Institute of Technology, 2015. ,
Graduate systems engineering education at the air force institute of technology, INCOSE International Symposium, vol.7, pp.769-775, 1997. ,
Integration of se design principles in a capstone design course: Airborne birdstrike countermeasure, INCOSE International Symposium, vol.26, pp.600-613, 2016. ,
Internal development of systems engineers, INCOSE International Symposium, vol.7, pp.750-754, 1997. ,
2 systems engineering education for confirmed engineers:experience feedback, INCOSE International Symposium, vol.22, pp.139-156, 2012. ,
Swayhoover. 1.1.4 structuring a professional systems engineering development program, INCOSE International Symposium, vol.15, pp.36-49, 2005. ,
1.4.1 an integrated approach to developing systems professionals, INCOSE International Symposium, vol.17, pp.95-112, 2007. ,
Learning systems engineering by teaching it, INCOSE International Symposium, vol.25, pp.211-220, 2015. ,
If you want good systems engineers, sometimes you have to grow your own!, IEEE Aerospace Conference, pp.1-15, 2007. ,
The architecture of the systems engineering experience accelerator, INCOSE International Symposium, vol.22, pp.1806-1820, 2012. ,
10.1.2 integrating systems and business engineering in an international context: The spacetech postgraduate program, INCOSE International Symposium, vol.19, pp.1457-1470, 2009. ,
URL : https://hal.archives-ouvertes.fr/in2p3-00024900
A systems engineering capstone design experience, INCOSE International Symposium, vol.2, pp.527-531, 1992. ,
A student challenge in systems engineering: RobAFIS 2010, INSIGHT -International Council on Systems Engineering (INCOSE), vol.14, issue.4, pp.9-11, 2011. ,
URL : https://hal.archives-ouvertes.fr/hal-00653908
Introducing systems engineering to industrial design engineering students with hands-on experience, Systems Engineering, 2005. ICSEng 2005. 18th International Conference on, pp.408-413, 2005. ,
Grange and Matra BAe Dynamics. 3 systems engineering educationacademic or vocational?, INCOSE International Symposium, vol.9, pp.316-320, 1999. ,
A student laboratory for systems engineering: Teaching systems engineering to students without previous seknowledeg based on an industry-oriented example, Systems Conference (SysCon), pp.1-6, 2012. ,
Active learning via lego mindstorms in systems engineering education, IEEE International Symposium on, pp.489-495, 2015. ,
Teaching systems thinking to industrial engineering students ,
5.2.3 product and process -student learning in an undergraduate systems engineering course, INCOSE International Symposium, vol.14, issue.1, pp.969-982, 2004. ,
6.3.5 an implementation of a process centered collaborative engineering environment within the satellite industry, INCOSE International Symposium, vol.12, issue.1, pp.648-655, 2002. ,
URL : https://hal.archives-ouvertes.fr/hal-00632284
Adaptable platform-based engineering: Key enablers and outlook for the future, Systems Engineering, vol.15, issue.1, p.2012 ,
Helping undergraduate students of any engineering discipline develop a systems perspective, INCOSE International Symposium, vol.26, issue.1, pp.495-511, 2016. ,
Model based self-learning system engineering approach, INCOSE International Symposium, vol.26, pp.219-233, 2016. ,
Mbse for engineering students, INCOSE International Symposium, vol.26, pp.1231-1245, 2016. ,
Specifying some key se training arti-facts, Fourth International Conference on Complex Systems Design and Management, CSDM, pp.207-218, 2013. ,
A systems framework for distance learning in engineering graduate programs, Systems Engineering, vol.15, issue.2, p.2012 ,
A pedagogical model to educate tomorrow?s engineers through a cloud-based design and manufacturing infrastructure ? motivation, infrastructure, pedagogy, and applications, ASEE 2013 Annual Conference and Exposition, 2013. ,
Introducing the fundamentals of systems engineering to freshman through various interactive group activities, ASEE Annual Conference, 2014. ,
Hugues Malgouyres, and Daniel Esteve. 1.1.3 propositionofa formal frameto facilitatethe applicationof processesin systems engineering, INCOSE International Symposium, vol.18, pp.31-45, 2008. ,
1.3.1 information flow, team coordination, and shared knowledge in integrated concurrent engineering, INCOSE International Symposium, vol.24, pp.41-57, 2014. ,
6.3.2 testing knowledge of systems engineering process fundamentals, INCOSE International Symposium, vol.5, issue.1, pp.76-83, 1995. ,
, Video tutorial: A process-centred and project-based learning solution for teaching systems engineering, p.1, 2017.
Systems Engineering Handbook, a guide for system life cycle processes and activities, 2012. ,
A review of systems engineering standards and processes, Journal of Biomechatronics Engineering, pp.71-85, 2008. ,
, Iso/iec/ieee international standard -systems and software engineering -system life cycle processes. ISO/IEC/IEEE 15288 First edition 2015-05-15, pp.1-118, 2015.
Systems engineering: A new approach to engineering education in india, Engineering Education: Innovative Practices and Future Trends (AICERA), 2012 IEEE International Conference on, pp.1-3, 2012. ,
Virtual reality for manufacturing engineering in the factories of the future, Applied Mechanics & Materials, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01213459
Didactic recommendations for education in systems engineering, 2010. ,
Design, systems, and engineering education, International Journal of Engineering Education, vol.20, issue.3, pp.305-312, 2004. ,
Toward a unified systems engineering education. Systems, Man, and Cybernetics, Part C: Applications and Reviews, IEEE Transactions on, vol.30, issue.2, pp.175-182, 2000. ,
Systems engineering education. Systems, Man, and Cybernetics, Part C: Applications and Reviews, IEEE Transactions on, vol.30, issue.2, pp.164-174, 2000. ,
, Systems engineering capability model interim standard, eai/is 731, 1999.
, Engineering education for a changing world, 1994.
Engineering design thinking, teaching, and learning, Journal of Engineering Education, vol.94, issue.1, pp.103-120, 2005. ,
Authentic learning supported by technology: Ten suggestions and cases of integration in classrooms, Educational Media International, vol.44, issue.3, pp.219-236, 2007. ,
Policy on se education, pp.2016-2018, 2016. ,
Findings from a web-based survey of degree programs in engineering systems ,
Multidisciplinary engineering systems graduate education: Master of engineering in mechatronics, Transforming Engineering Education: Creating Interdisciplinary Skills for Complex Global Environments, 2010. ,
, IEEE, pp.1-14, 2010.
Academic perspectives of systems engineering, JOHNS HOPKINS APL TECHNICAL DIGEST, vol.29, issue.4, 2011. ,
Placis: Collaborative platform for systems engineering, pp.2016-2021, 2016. ,
A student challenge in systems engineering: RobAFIS 2010, INSIGHT -International Council on Systems Engineering (INCOSE), vol.14, issue.4, pp.9-11, 2011. ,
URL : https://hal.archives-ouvertes.fr/hal-00653908
Introducing systems engineering to industrial design engineering students with hands-on experience, Systems Engineering, 2005. ICSEng 2005. 18th International Conference on, pp.408-413, 2005. ,
Systems Engineering and Analysis ,
Introduction to Systems Engineering ,
Teaching systems thinking to industrial engineering students ,
A student laboratory for systems engineering: Teaching systems engineering to students without previous se-knowledeg based on an industry-oriented example, Systems Conference (SysCon), pp.1-6, 2012. ,
Active learning via lego mindstorms in systems engineering education, IEEE International Symposium on, pp.489-495, 2015. ,
Using legos to interest high school students and imtrove k12 stem education, Frontiers in Education, 2003. FIE 2003 33rd Annual, vol.2, 2003. ,
Underwater lego robotics as the vehicle to engage students in stem: The build it project's first year of classroom implementation, American Society for Engineering Education MidAtlantic, 2008. ,
A freshman 'introduction to ece design' course based on the lego mindstorms nxt, Digital Signal Processing Workshop and 5th IEEE Signal, pp.435-439, 2009. ,
Engineering design education: Where, when and how, Journal of American Education, 2013. ,
A pedagogical model to educate tomorrow?s engineers through a cloud-based design and manufacturing infrastructure ? motivation, infrastructure, pedagogy, and applications, ASEE 2013 ,
, Annual Conference and Exposition, 2013.
Introducing the fundamentals of systems engineering to freshman through various interactive group activities, 2014 ASEE Annual Conference, 2014. ,
Project-based learning in engineering design education: Sharing best practices, ASEE Annual Conference, 2014. ,
Systems & Design Thinking: A Conceptual Framework for Their Integration, Proceedings of the 55th Annual Meeting of the ISSS-2011, vol.55, 2011. ,
Inductive teaching and learning methods: Definitions, comparisons, and research bases, Journal of Engineering Education, vol.95, issue.2, pp.123-138, 2006. ,
Systems Engineering Guidebook: A Process for Developing Systems and Products ,
, The Treaty of Virtual Reality: Foundations and Behavioral Interface, 2006.
3d interaction in virtual environments for systems engineering, International Journal of Computer Theory and Engineering, vol.8, issue.6, p.458, 2016. ,
URL : https://hal.archives-ouvertes.fr/hal-01213441
Virtual reality in engineering education: The future of creative learning, Global Engineering Education Conference (EDUCON), pp.751-757, 2011. ,
Engineering design thinking, teaching, and learning, Journal of Engineering Education, vol.94, issue.1, pp.103-120, 2005. ,
INCOSE Systems Engineering Handbook: A Guide for System Life Cycle Processes and Activities, 2015. ,
Ac 2012-3389: System engineering competency: The missing course in engineering education, INCOSE International Symposium Journal, vol.20, issue.1, pp.21-36, 2010. ,
A review of systems engineering standards and processes, Journal of Biomechatronics Engineering, pp.71-85, 2008. ,
, Systems and software engineering -lifecycle profiles for very small entities (vses) -part 5-6-1: Systems engineering -management and engineering guide: Generic profile group: Entry profile, pp.1-50, 2015.
, Guide to the systems engineering body of knowledge (sebok), BKCASE, vol.Accessed, p.7, 2017.
Development of a system engineering competency career model: verification of the model using opm method, vol.Accessed, p.7, 2017. ,
Incose systems engineering competency framework, international council on systems engineering (incose) united kingdom (uk), p.7, 2017. ,
, Defense acquisition university (dau) eng competency model, p.7, 2017.
, Nasa project management and systems engineering competency model, academy of program / project engineering leadership (appel), vol.Accessed, p.7, 2017.
, Mitre systems engineering competency model, The Mitre Institute, 2007.
multi-level professional sep certification program, p.7, 2017. ,
, Iso/iec/ieee international standard -systems and software engineering -system life cycle processes, pp.1-118, 2015.
Engineering design education: Where, when and how, Journal of American Education, 2013. ,
Systems & Design Thinking: A Conceptual Framework for Their Integration, Proceedings of the 55th Annual Meeting of the ISSS-2011, vol.55, 2011. ,
A survey of current practice in systems engineering education, 44th SEFI Annual Conference, 2016. ,
Multidisciplinary engineering systems graduate education: Master of engineering in mechatronics, Transforming Engineering Education: Creating Interdisciplinary Skills for Complex Global Environments, pp.1-14, 2010. ,
Academic perspectives of systems engineering, JOHNS HOPKINS APL TECHNICAL DIGEST, vol.29, issue.4, 2011. ,
, Placis: Collaborative platform for systems engineering, vol.Accessed, p.1, 2017.
A student challenge in systems engineering: RobAFIS, INSIGHT -International Council on Systems Engineering (INCOSE), vol.14, pp.9-11, 2010. ,
URL : https://hal.archives-ouvertes.fr/hal-00653908
Introducing systems engineering to industrial design engineering students with hands-on experience, Systems Engineering, 2005. ICSEng 2005. 18th International Conference on, pp.408-413, 2005. ,
Teaching systems thinking to industrial engineering students ,
A student laboratory for systems engineering: Teaching systems engineering to students without previous se-knowledeg based on an industry-oriented example, Systems Conference (SysCon), pp.1-6, 2012. ,
Active learning via lego mindstorms in systems engineering education, IEEE International Symposium on, pp.489-495, 2015. ,
Using legos to interest high school students and imtrove k12 stem education, Annual, vol.2, p.33, 2003. ,
Underwater lego robotics as the vehicle to engage students in stem: The build it project's first year of classroom implementation, American Society for Engineering Education Mid-Atlantic, 2008. ,
A freshman 'introduction to ece design' course based on the lego mindstorms nxt, Digital Signal Processing Workshop and 5th IEEE Signal Processing Education Workshop, pp.435-439, 2009. ,
A pedagogical model to educate tomorrow?s engineers through a cloud-based design and manufacturing infrastructure ? motivation, infrastructure, pedagogy, and applications, ASEE 2013 Annual Conference and Exposition, 2013. ,
Introducing the fundamentals of systems engineering to freshman through various interactive group activities, 2014 ASEE Annual Conference, 2014. ,
Worldwide directory of se and ie academic programs, p.7, 2017. ,
Standard-based adaptive path to teach systems engineering: 15288 and 29110 use cases, Accepted-for-Publication at the 11th Annual IEEE International Systems Conference, 2017. ,
, Video tutorial: A process-centred and project-based learning solution for teaching systems engineering, p.1, 2017.
Systems Engineering Handbook, a guide for system life cycle processes and activities, 2012. ,
A review of systems engineering standards and processes, Journal of Biomechatronics Engineering, pp.71-85, 2008. ,
A survey of current practice in systems engineering education, 44th SEFI Annual Conference, 2016. ,
Systems engineering: A new approach to engineering education in india, Engineering Education: Innovative Practices and Future Trends (AICERA), 2012 IEEE International Conference on, pp.1-3, 2012. ,
standard processes centered and project based framework for teaching systems engineering, 124th ASEE Annual Conference, 2017. ,
Didactic recommendations for education in systems engineering, 2010. ,
Design, systems, and engineering education, International Journal of Engineering Education, vol.20, issue.3, pp.305-312, 2004. ,
Engineering design thinking, teaching, and learning, Journal of Engineering Education, vol.94, issue.1, pp.103-120, 2005. ,
Authentic learning supported by technology: Ten suggestions and cases of integration in classrooms, Educational Media International, vol.44, issue.3, pp.219-236, 2007. ,
ANSI/EIA-632 Standard, Processes for Engineering a System, EIA, 1998. ,
, Ieee trial-use standard for application and management of the system engineering process, IEEE Std, 1220.
, Ieee standard for application and management of the systems engineering process, IEEE Std, 1220.
, Iso/iec/ieee international standard -systems engineering -system life cycle processes. ISO/IEC 15288, pp.1-70, 2002.
, Ieee standard for application and management of the systems engineering process, Revision of IEEE Std 1220-1998), pp.1-87, 2005.
, Iso/iec/ieee systems and software engineering -system life cycle processes, IEEE STD 15288-2008, pp.1-84, 2008.
, Iso/iec/ieee international standard -systems and software engineeringsystem life cycle processes. ISO/IEC/IEEE 15288 First edition 2015-05-15, pp.1-118, 2015.
, Adoption of iso/iec 15288:2002 systems engineering-system life cycle processes, Adoption of ISO/IEC Std 15288:2002), pp.1-67, 2005.
INCOSE Systems Engineering Handbook: A Guide for System Life Cycle Processes and Activities, 2015. ,
Systems engineering international standards and support tools for very small enterprises, INCOSE International Symposium, vol.24, pp.551-569, 2014. ,
Systems engineering standards, pp.2605-2017, 2017. ,
The evolution of the iso/iec 29110 set of standards and guides, International Journal of Information Technologies and Systems Approach (IJITSA), vol.10, issue.1, pp.1-21, 2017. ,
Tan innovative approach to the development of an international software process lifecycle standard for very small entities, International Journal of Information Technologies and Systems Approach (IJITSA), vol.7, issue.1, pp.1-22, 2014. ,
Systems and software engineering standards for very small entities: Accomplishments and overview, Computer, vol.49, issue.8, pp.84-87, 2016. ,
, Systems and software engineering -lifecycle profiles for very small entities (vses) -part 5-6-1: Systems engineering -management and engineering guide: Generic profile group: Entry profile, pp.1-50, 2015.
, Automotive Systems Engineering, pp.3-35, 2013.
Interaction with a Virtual Environment, Virtual Reality Technology and Applications, pp.205-212, 2014. ,
, Systems Engineering Handbook, a guide for system life cycle processes and activities, pp.7-8, 2011.
Multidisciplinary aerospace system design: principles, issues and onera experience, Onera, AerospaceLab Journal, issue.4, p.11, 2012. ,
URL : https://hal.archives-ouvertes.fr/hal-01184311
, Automotive Systems Engineering, issue.1, pp.3-35, 2013.
, Systems Engineering Handbook, a Guide for System Life Cycle processes and Activities, v. 3.2.2, INCOSE, pp.7-8, 2011.
An overview of the systems modeling language for products and systems development, Journal of Object Technology (JOT), vol.6, issue.6, pp.149-177, 2007. ,
, Lifecycle Modeling Language (LML) specification, 2013.
, Systems and Software Engineering -System Life Cycle Processes-, ISO/IEC International Standard, ISO/IEC 15288, vol.2, 2008.
, EIA-632-1998, Approved, 1999.
, Standard for Application and Management of the Systems Engineering Process, IEEE Standard, 1220.
Virtual reality in engineering education-the future of creative learning, 2011. ,