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Web of Things Gateway: a Performance Evaluation

Authors:

Nailton Vieira de Andrade Jr,

Jeferson Lima de Almeida,

Ramon Dias Costa,

Leandro José Silva Andrade,

Geroge Pacheco Pinto,

Cassio Vinicius Serafim PrazeresAuthors Info & Claims

WebMedia '15: Proceedings of the 21st Brazilian Symposium on Multimedia and the Web

Pages 25 - 32

https://doi.org/10.1145/2820426.2820440

Published: 27 October 2015 Publication History

Abstract

The Web of Things is a proposal to make physical and connected devices available to be used as resources in the development of Web applications through the Web protocols and standards. On the one hand, the current Web has virtual content, which is accessed by client applications that are hosted on Web servers, but on the other hand, the physical devices are real objects that are geographically distributed and have several different ways of communication. As a result of these two before-mentioned characteristics, the physical devices would demand a larger number of Web servers. In this context, this work proposes that devices with limited memory capacity and processing power can be used as Web of Things gateways through Web protocols. Then, performance evaluation of such limited device is presented in this paper with two evaluation objectives: to evaluate the feasibility of a limited device as a Web of Things gateway; to establish the capacity of the gateway in management the access to the physical devices.

References

[1]

K. Ashton. That 'internet of things' thing. http://www.rfidjournal.com/articles/view?4986, June 2009.

[2]

C. Beckel, W. Kleiminger, T. Staake, and S. Santini. Improving device-level electricity consumption breakdowns in private households using on/off events. SIGBED, 9(3):32--38, 2012.

Digital Library

[3]

G. Bovet and J. Hennebert. A web-of-things gateway for knx networks. In Smart Objects, Systems and Technologies (SmartSysTech), Proceedings of 2013 European Conference on, pages 1--8, June 2013.

[4]

A. Dohr, R. Modre-Opsrian, M. Drobics, D. Hayn, and G. Schreier. The internet of things for ambient assisted living. In Seventh International Conference on Information Technology: New Generations, pages 804--809, April 2010.

Digital Library

[5]

A. D'Ausilio. Arduino: A low-cost multipurpose lab equipment. Behavior research methods, 44(2):305--313, 2012.

[6]

M. H. et al. Vital project: Virtualized programmable interfaces for smart, secure and cost-effective iot deployments in smart cities. http://vital-project.eu/, March 2014.

[7]

R. T. Fielding. Architectural Styles and the Design of Network-based Software Architectures. PhD thesis, University of California, 2000. AAI9980887.

Digital Library

[8]

R. Gimenez, D. Fuentes, E. Martin, D. Gimenez, J. Pertejo, S. Tsekeridou, R. Gavazzi, M. Carabaño, and S. Virgos. The safety transformation in the future internet domain. In F. Álvarez, F. Cleary, P. Daras, J. Domingue, and A. Galis, editors, The Future Internet, pages 190--200. Springer-Verlag, Berlin, Heidelberg, 2012.

Digital Library

[9]

D. Guinard. A Web of Things Application Architecture -- Integrating the Real-World into the Web. Ph.d., ETH Zurich, 2011.

[10]

D. Guinard, V. Trifa, and E. Wilde. A resource oriented architecture for the web of things. In First International Conference on the Internet of Things, pages 1--8, Nov 2010.

[11]

M. Lianguang. Study on supply-chain of agricultural products based on iot. In Measuring Technology and Mechatronics Automation (ICMTMA), 2014 Sixth International Conference on, pages 627--631, Jan 2014.

Digital Library

[12]

D. Locke. Mq telemetry transport (mqtt) v3. 1 protocol specification, 2010.

[13]

M. Maksimovic, V. Vujovic, N. Davidovic, V. Milosevic, and B. Perisic. Raspberry pi as internet of things hardware performances and constraints. In IcETRAN: First International Conference on Electrical, Electronic and Computing Engineering, pages 1--6, June 2014.

[14]

L. Nunes, L. Nakamura, H. Vieira, R. Libardi, E. Oliveira, L. Adami, J. Estrella, and S. Reiff-Marganiec. A study case of restful frameworks in raspberry pi: A performance and energy overview. In Web Services (ICWS), 2014 IEEE International Conference on, pages 722--724, June 2014.

Digital Library

[15]

M. Richardson and S. Wallace. Getting started with raspberry PI. "O'Reilly Media, Inc.", 2012.

[16]

I. G. Smith, editor. The Internet of Things 2012 -- New Horizons. Platinum, Halifax, UK, 2012.

[17]

H. Sundmaeker, P. Guillemin, P. Friess, and S. Woelffle, editors. Vision and Challenges for Realising the Internet of Things. European Commission, March 2010.

[18]

V. Tasic, T. Staake, T. Stiefmeier, V. Tiefenbeck, E. Fleisch, and G. Troster. Self-powered water meter for direct feedback. In Internet of Things (IOT), 2012 3rd International Conference on the, pages 24--30, Oct 2012.

[19]

V. Trifa, S. Wieland, D. Guinard, and T. M. Bohnert. Design and implementation of a gateway for web-based interaction and management of embedded devices. In Proceedings of the 2nd International Workshop on Sensor Network Engineering (IWSNE'09), Marina del Rey, CA, USA, June 2009.

[20]

V. Vujovic and M. Maksimovic. Raspberry pi as a sensor web node for home automation. Computers & Electrical Engineering, 0(0):1--19, 2015.

Digital Library

[21]

M. Weiss, A. Helfenstein, F. Mattern, and T. Staake. Leveraging smart meter data to recognize home appliances. In IEEE International Conference on Pervasive Computing and Communications, pages 190--197, March 2012.

[22]

X. Yu, F. Sun, and X. Cheng. Intelligent urban traffic management system based on cloud computing and internet of things. In Computer Science Service System (CSSS), 2012 International Conference on, pages 2169--2172, Aug 2012.

Digital Library

Cited By

Muniz MDavid JBraga RCampos FStroele Vdos Santos JMuchaluat Saade Dda Graça C. Pimentel MMacedo A(2019)Pragmatic interoperability in IoTProceedings of the 25th Brazillian Symposium on Multimedia and the Web10.1145/3323503.3349561(73-80)Online publication date: 29-Oct-2019
https://dl.acm.org/doi/10.1145/3323503.3349561
Prazeres CBarbosa JAndrade LSerrano MShin SShin DLencastre M(2017)Design and implementation of a message-service oriented middleware for fog of things platformsProceedings of the Symposium on Applied Computing10.1145/3019612.3019820(1814-1819)Online publication date: 3-Apr-2017
https://dl.acm.org/doi/10.1145/3019612.3019820
Prazeres CSerrano M(2016)SOFT-IoT: Self-Organizing FOG of Things2016 30th International Conference on Advanced Information Networking and Applications Workshops (WAINA)10.1109/WAINA.2016.153(803-808)Online publication date: Mar-2016
https://doi.org/10.1109/WAINA.2016.153

Index Terms

Web of Things Gateway: a Performance Evaluation
1. Information systems
  1. World Wide Web
    1. Web applications
    2. Web services

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Information & Contributors

Information

Published In

cover image ACM Other conferences

WebMedia '15: Proceedings of the 21st Brazilian Symposium on Multimedia and the Web

October 2015

266 pages

ISBN:9781450339599

DOI:10.1145/2820426

General Chairs:
Marco Antônio Pinheiro de Cristo
UFAM, Brazil
,
David Fernandes de Oliveira
UFAM, Brazil
,
Program Chairs:
Adriano C. Machado Pereira
UFMG, Brazil
,
Fabricio Benevenuto
UFMG, Brazil
,
Marcelo Moreno
UFJF, Brazil
,
Valter Roesler
UFRGS, Brazil

Copyright © 2015 ACM.

Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

Sponsors

CYTED: Ciência Y Tecnologia Para El Desarrollo
SBC: Brazilian Computer Society
FAPEAM: Fundacao de Amparo a Pesquisa do Estado do Amazonas
CNPq: Conselho Nacional de Desenvolvimento Cientifico e Tecn
CGIBR: Comite Gestor da Internet no Brazil
CAPES: Brazilian Higher Education Funding Council

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Association for Computing Machinery

New York, NY, United States

Publication History

Published: 27 October 2015

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Webmedia '15

Sponsor:

CYTED
SBC
FAPEAM
CNPq
CGIBR
CAPES

Webmedia '15: 21st Brazilian Symposium on Multimedia and the Web

October 27 - 30, 2015

Manaus, Brazil

Acceptance Rates

WebMedia '15 Paper Acceptance Rate 21 of 61 submissions, 34%;

Overall Acceptance Rate 270 of 873 submissions, 31%

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Cited By

Muniz MDavid JBraga RCampos FStroele Vdos Santos JMuchaluat Saade Dda Graça C. Pimentel MMacedo A(2019)Pragmatic interoperability in IoTProceedings of the 25th Brazillian Symposium on Multimedia and the Web10.1145/3323503.3349561(73-80)Online publication date: 29-Oct-2019
https://dl.acm.org/doi/10.1145/3323503.3349561
Prazeres CBarbosa JAndrade LSerrano MShin SShin DLencastre M(2017)Design and implementation of a message-service oriented middleware for fog of things platformsProceedings of the Symposium on Applied Computing10.1145/3019612.3019820(1814-1819)Online publication date: 3-Apr-2017
https://dl.acm.org/doi/10.1145/3019612.3019820
Prazeres CSerrano M(2016)SOFT-IoT: Self-Organizing FOG of Things2016 30th International Conference on Advanced Information Networking and Applications Workshops (WAINA)10.1109/WAINA.2016.153(803-808)Online publication date: Mar-2016
https://doi.org/10.1109/WAINA.2016.153

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