Guidelines for a graduate curriculum on embedded software and systems

P. Caspi; A. Sangiovanni-Vincentelli; L. Almeida; A. Benveniste; B. Bouyssounouse; G.C. Buttazo; I. Crnkovic; W. Damm; J. Engblom; G. Fohler; M. Garcia-Valls; H. Kopetz; Y. Lakhnech; F. Laroussinie; L. Lavagno; G. Lipari; F. Maraninchi; P. Peti; J.A. Puente, de la; N. Scaife; J. Sifakis; R. Simone, de; M. Törngen; P. Verissimo; A.J. Wellings; R. Wilhelm; T.A.C. Willemse; W. Yi

doi:10.1145/1086519.1086526

Guidelines for a graduate curriculum on embedded software and systems

P. Caspi
, A. Sangiovanni-Vincentelli
, L. Almeida
, A. Benveniste
, B. Bouyssounouse
, G.C. Buttazo
, I. Crnkovic
, W. Damm
, J. Engblom
, G. Fohler
, M. Garcia-Valls
, H. Kopetz
, Y. Lakhnech
, F. Laroussinie
, L. Lavagno
, G. Lipari
, F. Maraninchi
, P. Peti
, J.A. Puente, de la
, N. Scaife

J. Sifakis, R. Simone, de, M. Törngen, P. Verissimo, A.J. Wellings, R. Wilhelm, T.A.C. Willemse, W. Yi

Formal System Analysis

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The design of embedded real-time systems requires skills from multiple specific disciplines, including, but not limited to, control, computer science, and electronics. This often involves experts from differing backgrounds, who do not recognize that they address similar, if not identical, issues from complementary angles. Design methodologies are lacking in rigor and discipline so that demonstrating correctness of an embedded design, if at all possible, is a very expensive proposition that may delay significantly the introduction of a critical product. While the economic importance of embedded systems is widely acknowledged, academia has not paid enough attention to the education of a community of high-quality embedded system designers, an obvious difficulty being the need of interdisciplinarity in a period where specialization has been the target of most education systems. This paper presents the reflections that took place in the European Network of Excellence Artist leading us to propose principles and structured contents for building curricula on embedded software and systems.

Originele taal-2	Engels
Pagina's (van-tot)	587-611
Tijdschrift	ACM Transactions on Embedded Computing Systems
Volume	4
Nummer van het tijdschrift	3
DOI's	https://doi.org/10.1145/1086519.1086526
Status	Gepubliceerd - 2005

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Caspi, P., Sangiovanni-Vincentelli, A., Almeida, L., Benveniste, A., Bouyssounouse, B., Buttazo, G. C., Crnkovic, I., Damm, W., Engblom, J., Fohler, G., Garcia-Valls, M., Kopetz, H., Lakhnech, Y., Laroussinie, F., Lavagno, L., Lipari, G., Maraninchi, F., Peti, P., Puente, de la, J. A., ... Yi, W. (2005). Guidelines for a graduate curriculum on embedded software and systems. ACM Transactions on Embedded Computing Systems, 4(3), 587-611. https://doi.org/10.1145/1086519.1086526

@article{48dea130d8e44499a6b2b8bfa8738286,

title = "Guidelines for a graduate curriculum on embedded software and systems",

abstract = "The design of embedded real-time systems requires skills from multiple specific disciplines, including, but not limited to, control, computer science, and electronics. This often involves experts from differing backgrounds, who do not recognize that they address similar, if not identical, issues from complementary angles. Design methodologies are lacking in rigor and discipline so that demonstrating correctness of an embedded design, if at all possible, is a very expensive proposition that may delay significantly the introduction of a critical product. While the economic importance of embedded systems is widely acknowledged, academia has not paid enough attention to the education of a community of high-quality embedded system designers, an obvious difficulty being the need of interdisciplinarity in a period where specialization has been the target of most education systems. This paper presents the reflections that took place in the European Network of Excellence Artist leading us to propose principles and structured contents for building curricula on embedded software and systems.",

author = "P. Caspi and A. Sangiovanni-Vincentelli and L. Almeida and A. Benveniste and B. Bouyssounouse and G.C. Buttazo and I. Crnkovic and W. Damm and J. Engblom and G. Fohler and M. Garcia-Valls and H. Kopetz and Y. Lakhnech and F. Laroussinie and L. Lavagno and G. Lipari and F. Maraninchi and P. Peti and \{Puente, de la\}, J.A. and N. Scaife and J. Sifakis and \{Simone, de\}, R. and M. T{\"o}rngen and P. Verissimo and A.J. Wellings and R. Wilhelm and T.A.C. Willemse and W. Yi",

year = "2005",

doi = "10.1145/1086519.1086526",

language = "English",

volume = "4",

pages = "587--611",

journal = "ACM Transactions on Embedded Computing Systems",

issn = "1539-9087",

publisher = "Association for Computing Machinery, Inc.",

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Caspi, P, Sangiovanni-Vincentelli, A, Almeida, L, Benveniste, A, Bouyssounouse, B, Buttazo, GC, Crnkovic, I, Damm, W, Engblom, J, Fohler, G, Garcia-Valls, M, Kopetz, H, Lakhnech, Y, Laroussinie, F, Lavagno, L, Lipari, G, Maraninchi, F, Peti, P, Puente, de la, JA, Scaife, N, Sifakis, J, Simone, de, R, Törngen, M, Verissimo, P, Wellings, AJ, Wilhelm, R, Willemse, TAC & Yi, W 2005, 'Guidelines for a graduate curriculum on embedded software and systems', ACM Transactions on Embedded Computing Systems, vol. 4, nr. 3, blz. 587-611. https://doi.org/10.1145/1086519.1086526

TY - JOUR

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AU - Caspi, P.

AU - Sangiovanni-Vincentelli, A.

AU - Almeida, L.

AU - Benveniste, A.

AU - Bouyssounouse, B.

AU - Buttazo, G.C.

AU - Crnkovic, I.

AU - Damm, W.

AU - Engblom, J.

AU - Fohler, G.

AU - Garcia-Valls, M.

AU - Kopetz, H.

AU - Lakhnech, Y.

AU - Laroussinie, F.

AU - Lavagno, L.

AU - Lipari, G.

AU - Maraninchi, F.

AU - Peti, P.

AU - Puente, de la, J.A.

AU - Scaife, N.

AU - Sifakis, J.

AU - Simone, de, R.

AU - Törngen, M.

AU - Verissimo, P.

AU - Wellings, A.J.

AU - Wilhelm, R.

AU - Willemse, T.A.C.

AU - Yi, W.

PY - 2005

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N2 - The design of embedded real-time systems requires skills from multiple specific disciplines, including, but not limited to, control, computer science, and electronics. This often involves experts from differing backgrounds, who do not recognize that they address similar, if not identical, issues from complementary angles. Design methodologies are lacking in rigor and discipline so that demonstrating correctness of an embedded design, if at all possible, is a very expensive proposition that may delay significantly the introduction of a critical product. While the economic importance of embedded systems is widely acknowledged, academia has not paid enough attention to the education of a community of high-quality embedded system designers, an obvious difficulty being the need of interdisciplinarity in a period where specialization has been the target of most education systems. This paper presents the reflections that took place in the European Network of Excellence Artist leading us to propose principles and structured contents for building curricula on embedded software and systems.

AB - The design of embedded real-time systems requires skills from multiple specific disciplines, including, but not limited to, control, computer science, and electronics. This often involves experts from differing backgrounds, who do not recognize that they address similar, if not identical, issues from complementary angles. Design methodologies are lacking in rigor and discipline so that demonstrating correctness of an embedded design, if at all possible, is a very expensive proposition that may delay significantly the introduction of a critical product. While the economic importance of embedded systems is widely acknowledged, academia has not paid enough attention to the education of a community of high-quality embedded system designers, an obvious difficulty being the need of interdisciplinarity in a period where specialization has been the target of most education systems. This paper presents the reflections that took place in the European Network of Excellence Artist leading us to propose principles and structured contents for building curricula on embedded software and systems.

UR - http://doi.acm.org/10.1145/1086519.1086526

U2 - 10.1145/1086519.1086526

DO - 10.1145/1086519.1086526

M3 - Article

SN - 1539-9087

VL - 4

SP - 587

EP - 611

JO - ACM Transactions on Embedded Computing Systems

JF - ACM Transactions on Embedded Computing Systems

IS - 3

ER -

Guidelines for a graduate curriculum on embedded software and systems

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