research-article

Framework designs to enhance reliable and timely services of disaster management systems

Authors:

Chi-Sheng Shih,

Pi-Cheng Hsiu,

Yuan-Hao Chang,

Tei-Wei KuoAuthors Info & Claims

2016 IEEE/ACM International Conference on Computer-Aided Design (ICCAD)

Pages 1 - 8

https://doi.org/10.1145/2966986.2980090

Published: 07 November 2016 Publication History

Abstract

How to tolerate fault is a fundamental requirement to the designs of many cyber-physical systems. Devices or sensors might have different requirements on their levels of reliability and/or timely services in the composition of a cyber-physical system. In this work, a system framework is explored to virtualize devices/sensors and service migration is considered during run time, so that faults are masked and the timeliness in services is enhanced. In particular, a disaster messaging system supporting seamlessly service recovery in small and large scale network is developed and evaluated, where an acceptable level of connectivity in the face of numerous faults for responsive deliveries of information critical to the success of emergency response and rescue operations. The framework also takes into account the energy consumption and reliability of sensing services, while using different types of memory components. Last but not least, augmented sensing using smart phones allows users to receive the sensed information nearby; this is critical when communication infrastructures are damaged.

References

[1]

Wikipedia. Hurricane Katrina-Wikipedia, The Free Encyclopedia. http://en.wikipedia.org/w/index.php?title=Hurricane_Katrina&oldid=588764319. [Online; accessed 9-January-2014]. 2014.

Google Scholar

[2]

Wikipedia. 2013 Pacific typhoon season-Wikipedia, The Free Encyclopedia. http://en.wikipedia.org/w/index.php?title=2013_Pacific_typhoon_season&oldid=589583572. [Online; accessed 9-January-2014]. 2014.

Google Scholar

[3]

Zengpei Xuan and Hyeun-Suk Rhee. ICT for Disaster Risk Reduction. Incheon City, Repulic of Korea: United Nations Asian, Pacific Training Centre for Information, and Communication Technology for Development (UN-APCICT/ESCAP), 2010, p. 78. ISBN: 978-89-93892-09-3 [93560].

Google Scholar

[4]

Jane W.S. Liu, Chi-Sheng Shih, and Edward T.-H. Chu. “Cy-berphysical Elements of Disaster-Prepared Smart Environments”. In: Computer 46. 2 (2013), pp. 69–75. ISSN: 0018–9162. http://doi.ieeecomputersociety.org/10.1109/MC.2012.149.

Google Scholar

[5]

Kevin Murthy. Without Basements, Joplin Had Scant Refuge from Tornado. http://www.reuterscom/article/us-tornado-basements-idUSTRE74U6HT20110531. May 2011.

Google Scholar

[6]

K. Vättö, I. Cutress, and R. Smith. Analyzing Intel-Micron 3D XPoint: The Next Generation Non-Volatile Memory@ON-LINE. http://www.anandtech.com/show/9470/intel-and-micron-announce-3d-xpoint-nonvolatile-memory-technology-1000x-higher-performance-endurance-than-nand.

Google Scholar

[7]

Jose Manuel Mendes. The Risk Observatory-OSIRIS. http://www.ces.uc.pt/osiris/pages/en/about-osiris/objectives.php?lang=EN. Feb. 2009.

Google Scholar

[8]

Lixia Zhang et al. “Named data networking (NDN) project”. In: Relatório Técnico NDN-0001, Xerox Palo Alto ResearchCenter-PARC (2010).

Google Scholar

[9]

Shimin Chen, Phillip B. Gibbons, and Suman Nath. “Re-thinking Database Algorithms for Phase Change Memory”. In: Proc. of the CIDR. 2011.

Google Scholar

[10]

S. Eilert and et al. “Phase Change Memory: A new memory enables new memory usage models”. In: Proc. of the IEEE IMW. 2009.

Google Scholar

[11]

J.-Y. Jung and S. Cho. “Memorage: emerging persistent RAM based malleable main memory and storage architecture”. In: Proceedings of the 27th internationalACM conference on International conference on supercomputing (2013), pp. 115–126.

Google Scholar

[12]

Ardalan Amiri Sani et al. “Rio: A System Solution for Sharing I/O Between Mobile Systems”. In: Proc. of ACM MohiSys. 2014, pp. 259–272.

Google Scholar

[13]

Y.-W. Jong et al. “A semantics-aware design for mounting remote sensors on mobile systems”. In: Proceedings of IEEE/ACM Design Automation Conference (DAC). June 2016, 140:1–140:6.

Google Scholar

[14]

Leslie Lamport. “The Part-time Parliament”. In: ACM Transactions on ComputerSystems 16. 2 (1998), pp. 133–169.

Digital Library

Google Scholar

Cited By

View all

Batista ADos Santos A(2024)A Survey on Resilience in Information Sharing on Networks: Taxonomy and Applied TechniquesACM Computing Surveys10.1145/365994456:12(1-36)Online publication date: 20-Apr-2024
https://dl.acm.org/doi/10.1145/3659944
Ali ZShah MAlmogren AUd Din IMaple CKhattak H(2020)Named Data Networking for Efficient IoT-based Disaster Management in a Smart CampusSustainability10.3390/su1208308812:8(3088)Online publication date: 12-Apr-2020
https://doi.org/10.3390/su12083088
Lu YChen HKuo CTseng BChou SHung CChen QXie XEsposito CHuang JPark JZhang Q(2019)Container-based load balancing for WebRTC applicationsProceedings of the Conference on Research in Adaptive and Convergent Systems10.1145/3338840.3355655(20-26)Online publication date: 24-Sep-2019
https://dl.acm.org/doi/10.1145/3338840.3355655
Show More Cited By

Index Terms

Framework designs to enhance reliable and timely services of disaster management systems

Index terms have been assigned to the content through auto-classification.

Recommendations

China's Emergency Management Mechanisms for Disaster Prevention and Mitigation
ICEE '10: Proceedings of the 2010 International Conference on E-Business and E-Government

Emergency management mechanisms for disaster prevention and mitigation mainly include three parts: disaster prevention mechanism, disaster guarantee mechanism, and post-disaster relief, rehabilitation, and reconstruction mechanisms. Prevention mechanism ...
Developing an Improved Disaster Management Framework to Enhance Resilience in Kuwait
Improving Disaster Management: The Role of IT in Mitigation, Preparedness, Response, and Recovery

Comments

Please enable JavaScript to view thecomments powered by Disqus.

Information & Contributors

Information

Published In

2016 IEEE/ACM International Conference on Computer-Aided Design (ICCAD)

Nov 2016

946 pages

Publisher

IEEE Press

Publication History

Published: 07 November 2016

Permissions

Request permissions for this article.

Request Permissions

Qualifiers

Research-article

Contributors

Other Metrics

View Article Metrics

Bibliometrics & Citations

Bibliometrics

Article Metrics

4
Total Citations
View Citations
96
Total Downloads

Downloads (Last 12 months)0
Downloads (Last 6 weeks)0

Reflects downloads up to 01 Jan 2025

Other Metrics

View Author Metrics

Citations

Cited By

View all

Batista ADos Santos A(2024)A Survey on Resilience in Information Sharing on Networks: Taxonomy and Applied TechniquesACM Computing Surveys10.1145/365994456:12(1-36)Online publication date: 20-Apr-2024
https://dl.acm.org/doi/10.1145/3659944
Ali ZShah MAlmogren AUd Din IMaple CKhattak H(2020)Named Data Networking for Efficient IoT-based Disaster Management in a Smart CampusSustainability10.3390/su1208308812:8(3088)Online publication date: 12-Apr-2020
https://doi.org/10.3390/su12083088
Lu YChen HKuo CTseng BChou SHung CChen QXie XEsposito CHuang JPark JZhang Q(2019)Container-based load balancing for WebRTC applicationsProceedings of the Conference on Research in Adaptive and Convergent Systems10.1145/3338840.3355655(20-26)Online publication date: 24-Sep-2019
https://dl.acm.org/doi/10.1145/3338840.3355655
Lu YKuo CChen HWang GChou SHung CSaid L(2018)A mutual authentication scheme with user anonymity for cyber-physical and internet of thingsProceedings of the 2018 Conference on Research in Adaptive and Convergent Systems10.1145/3264746.3264762(88-93)Online publication date: 9-Oct-2018
https://dl.acm.org/doi/10.1145/3264746.3264762
Behrens HCandan K(2018)Adversarially-Resistant On-Demand Topic Channels for Wireless Sensor Networks2018 IEEE 37th Symposium on Reliable Distributed Systems (SRDS)10.1109/SRDS.2018.00019(83-92)Online publication date: Oct-2018
https://doi.org/10.1109/SRDS.2018.00019

Abstract

References

Cited By

Index Terms

Recommendations

China's Emergency Management Mechanisms for Disaster Prevention and Mitigation

Developing an Improved Disaster Management Framework to Enhance Resilience in Kuwait

Improving Disaster Management: The Role of IT in Mitigation, Preparedness, Response, and Recovery

Comments

Information

Published In

Publisher

Publication History

Permissions

Qualifiers

Contributors

Other Metrics

Bibliometrics

Article Metrics

Other Metrics

Citations

Cited By

View options

Figures

Other

Share

Share this Publication link

Share on social media

Affiliations