Standard
A concurrent data collection environment for wasteful communication satellite system. / Skovsgaard, Tor; Sørensen, Patrick Dyhrberg; Dickson, Lawrence J.; Quarrie, Lindsay O.Brien; Vinter, Brian.
Communicating Process Architectures 2017 and 2018, WoTUG-39 and WoTUG-40 - Proceedings of CPA 2017 (WoTUG-39) and Proceedings of CPA 2018 (WoTUG-40). red. / Jan Baekgaard Pedersen; Kevin Chalmers; Jan F. Broenink; Brian Vinter; Kevin Vella; Peter H. Welch; Marc L. Smith; Kenneth Skovhede. IMIA and IOS Press, 2019. s. 189-197 (Concurrent Systems Engineering Series, Bind 70).
Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › fagfællebedømt
Harvard
Skovsgaard, T, Sørensen, PD, Dickson, LJ, Quarrie, LOB & Vinter, B 2019,
A concurrent data collection environment for wasteful communication satellite system. i JB Pedersen, K Chalmers, JF Broenink, B Vinter, K Vella, PH Welch, ML Smith & K Skovhede (red),
Communicating Process Architectures 2017 and 2018, WoTUG-39 and WoTUG-40 - Proceedings of CPA 2017 (WoTUG-39) and Proceedings of CPA 2018 (WoTUG-40). IMIA and IOS Press, Concurrent Systems Engineering Series, bind 70, s. 189-197, 39th WoTUG Conference on Communicating Process Architectures, CPA 2017 and 40th WoTUG Conference on Communicating Process Architectures, CPA 2018, Dresden, Tyskland,
19/08/2018.
https://doi.org/10.3233/978-1-61499-949-2-189
APA
Skovsgaard, T., Sørensen, P. D., Dickson, L. J., Quarrie, L. O. B., & Vinter, B. (2019).
A concurrent data collection environment for wasteful communication satellite system. I J. B. Pedersen, K. Chalmers, J. F. Broenink, B. Vinter, K. Vella, P. H. Welch, M. L. Smith, & K. Skovhede (red.),
Communicating Process Architectures 2017 and 2018, WoTUG-39 and WoTUG-40 - Proceedings of CPA 2017 (WoTUG-39) and Proceedings of CPA 2018 (WoTUG-40) (s. 189-197). IMIA and IOS Press. Concurrent Systems Engineering Series Bind 70
https://doi.org/10.3233/978-1-61499-949-2-189
Vancouver
Skovsgaard T, Sørensen PD, Dickson LJ, Quarrie LOB, Vinter B.
A concurrent data collection environment for wasteful communication satellite system. I Pedersen JB, Chalmers K, Broenink JF, Vinter B, Vella K, Welch PH, Smith ML, Skovhede K, red., Communicating Process Architectures 2017 and 2018, WoTUG-39 and WoTUG-40 - Proceedings of CPA 2017 (WoTUG-39) and Proceedings of CPA 2018 (WoTUG-40). IMIA and IOS Press. 2019. s. 189-197. (Concurrent Systems Engineering Series, Bind 70).
https://doi.org/10.3233/978-1-61499-949-2-189
Author
Skovsgaard, Tor ; Sørensen, Patrick Dyhrberg ; Dickson, Lawrence J. ; Quarrie, Lindsay O.Brien ; Vinter, Brian. / A concurrent data collection environment for wasteful communication satellite system. Communicating Process Architectures 2017 and 2018, WoTUG-39 and WoTUG-40 - Proceedings of CPA 2017 (WoTUG-39) and Proceedings of CPA 2018 (WoTUG-40). red. / Jan Baekgaard Pedersen ; Kevin Chalmers ; Jan F. Broenink ; Brian Vinter ; Kevin Vella ; Peter H. Welch ; Marc L. Smith ; Kenneth Skovhede. IMIA and IOS Press, 2019. s. 189-197 (Concurrent Systems Engineering Series, Bind 70).
Bibtex
@inproceedings{0246ffbc3a2445f8a4a1e788e202a7b1,
title = "A concurrent data collection environment for wasteful communication satellite system",
abstract = "WACOMSAS (WAsteful COMmunication SAtellite System) uses the Transterpreter to demonstrate a finite, static occam-based design for a ground station that communicates with at most four passing satellites at a time. There may be an indefinite number of satellites, each of which may never return. The satellites are not coded in occam, and external channels with mobile channel ends are used to communicate with them according to a switchboard analogy applicable both to hardware and software interfaces. The occam solution is compared to similar implementations in Go and Python/PyCSP, and environment that simulates satelites with Arduinos is set up and used for eksperiments.",
keywords = "Communication, Language-choice, Low-level-interfacing",
author = "Tor Skovsgaard and S{\o}rensen, {Patrick Dyhrberg} and Dickson, {Lawrence J.} and Quarrie, {Lindsay O.Brien} and Brian Vinter",
year = "2019",
doi = "10.3233/978-1-61499-949-2-189",
language = "English",
series = "Concurrent Systems Engineering Series",
publisher = "IMIA and IOS Press",
pages = "189--197",
editor = "Pedersen, {Jan Baekgaard} and Kevin Chalmers and Broenink, {Jan F.} and Brian Vinter and Kevin Vella and Welch, {Peter H.} and Smith, {Marc L.} and Kenneth Skovhede",
booktitle = "Communicating Process Architectures 2017 and 2018, WoTUG-39 and WoTUG-40 - Proceedings of CPA 2017 (WoTUG-39) and Proceedings of CPA 2018 (WoTUG-40)",
note = "39th WoTUG Conference on Communicating Process Architectures, CPA 2017 and 40th WoTUG Conference on Communicating Process Architectures, CPA 2018 ; Conference date: 19-08-2018 Through 22-08-2018",
}
RIS
TY - GEN
T1 - A concurrent data collection environment for wasteful communication satellite system
AU - Skovsgaard, Tor
AU - Sørensen, Patrick Dyhrberg
AU - Dickson, Lawrence J.
AU - Quarrie, Lindsay O.Brien
AU - Vinter, Brian
PY - 2019
Y1 - 2019
N2 - WACOMSAS (WAsteful COMmunication SAtellite System) uses the Transterpreter to demonstrate a finite, static occam-based design for a ground station that communicates with at most four passing satellites at a time. There may be an indefinite number of satellites, each of which may never return. The satellites are not coded in occam, and external channels with mobile channel ends are used to communicate with them according to a switchboard analogy applicable both to hardware and software interfaces. The occam solution is compared to similar implementations in Go and Python/PyCSP, and environment that simulates satelites with Arduinos is set up and used for eksperiments.
AB - WACOMSAS (WAsteful COMmunication SAtellite System) uses the Transterpreter to demonstrate a finite, static occam-based design for a ground station that communicates with at most four passing satellites at a time. There may be an indefinite number of satellites, each of which may never return. The satellites are not coded in occam, and external channels with mobile channel ends are used to communicate with them according to a switchboard analogy applicable both to hardware and software interfaces. The occam solution is compared to similar implementations in Go and Python/PyCSP, and environment that simulates satelites with Arduinos is set up and used for eksperiments.
KW - Communication
KW - Language-choice
KW - Low-level-interfacing
UR - http://www.scopus.com/inward/record.url?scp=85082398262&partnerID=8YFLogxK
U2 - 10.3233/978-1-61499-949-2-189
DO - 10.3233/978-1-61499-949-2-189
M3 - Article in proceedings
AN - SCOPUS:85082398262
T3 - Concurrent Systems Engineering Series
SP - 189
EP - 197
BT - Communicating Process Architectures 2017 and 2018, WoTUG-39 and WoTUG-40 - Proceedings of CPA 2017 (WoTUG-39) and Proceedings of CPA 2018 (WoTUG-40)
A2 - Pedersen, Jan Baekgaard
A2 - Chalmers, Kevin
A2 - Broenink, Jan F.
A2 - Vinter, Brian
A2 - Vella, Kevin
A2 - Welch, Peter H.
A2 - Smith, Marc L.
A2 - Skovhede, Kenneth
PB - IMIA and IOS Press
T2 - 39th WoTUG Conference on Communicating Process Architectures, CPA 2017 and 40th WoTUG Conference on Communicating Process Architectures, CPA 2018
Y2 - 19 August 2018 through 22 August 2018
ER -