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Wireless outdoor personal area network using adaptive inquiry scanning for location-based services

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Abstract

The Infopoint Explorer is an outdoor personal area network for location-based services that allows users to access locality information interactively using mobile computing devices such as PDAs and smartphones. The Infopoint explorer was used to study the limitations imposed by inexpensive and popular wireless technologies such as Bluetooth for outdoor location-based services. The Infopoint Explorer functioned as a multimedia guidebook that allowed access to location-specific information using wireless Infopoints. The Infopoints detect and attempt to transfer multimedia content to nearby mobile computing devices using Bluetooth connectivity. An adaptive Bluetooth Inquiry Access Code algorithm was developed to reduce the time taken for the Infopoint to detect nearby devices. The Infopoint was powered with solar panels and was deployed for a four-month trial. During the trial, over 8,000 Bluetooth connections were attempted, with 300 successful transfers.

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Notes

  1. In this paper, we use the term mobiles to refer to personal mobile computing devices in general, covering both smartphones and personal digital assistants.

References

  1. Kelvin Grove Urban Village, http://www.kgurbanvillage.com.au/. Accessed Dec 2011

  2. Haneef AM, Ganz A (2002) Mobile agent based network access for mobile electronic guidebooks. Presented at mobility and wireless access workshop

  3. Hsi S (2002) The electronic guidebook: a study of user experiences using mobile web content in a museum setting. Presented at IEEE international workshop on wireless and mobile technologies in education

  4. Abowd GD, Atkeson CG, Hong J, Long S, Kooper R, Pinkerton M (1997) Cyberguide: a mobile context-aware tour guide. Wirel Netw 3:421–433

    Article  Google Scholar 

  5. Nguyen T, Loke SW, Torabi T, Lu H (2009) PlaceSense: a tool for sensing communities. In: 4th International symposium on wireless pervasive computing, 2009 (ISWPC 2009)

  6. Benford S, Crabtree A, Flintham M, Drozd A, Anastasi R, Paxton M, Tandavanitj N, Adams M, Row-Farr J (2006) Can you see me now? ACM Trans Comput Hum Interact 13(1):100–133

    Article  Google Scholar 

  7. Polson D, Morgan C (2007) ‘Now everything looks like a game’: mobile phones and location-based games. In: Proceedings of the 4th international conference on mobile technology, applications, and systems and the 1st international symposium on computer human interaction in mobile technology. ACM, Singapore

  8. Rashid O, Coulton P, Edwards R, Bamford W (2006) Utilising RFID for mixed reality mobile games. Presented at International conference on consumer electronics, 2006 (ICCE’06). 2006 Digest of Technical Papers

  9. Baker N (2005) ZigBee and Bluetooth strengths and weaknesses for industrial applications. Comput Control Eng J 16:20–25

    Article  Google Scholar 

  10. Kindberg T, Jones T (2007) Merolyn the phone: a study of Bluetooth naming practices. In: Proceedings of the 9th international conference on ubiquitous computing (Innsbruck, Austria, 16–19 Sept, 2007) (UbiComp 2007)

  11. Davies N, Friday A, Newman P, Rutlidge S, Storz O (2009) Using Bluetooth device names to support interaction in smart environments. In: Proceedings of the 7th international conference on mobile systems, applications, and services (Kraków, Poland, 22–25 June, 2009) (MobiSys’09)

  12. Infrared Data Association, IrDA library of specifications and technical papers, http://www.irda.org/. Accessed Dec 2011

  13. McCarthy M (1987) The Ocean Jetty: the colonial beergarden? Aust Archaeol 24:32–35

    Google Scholar 

  14. Google Maps, http://maps.google.com/. Accessed Dec 2011

  15. Bluetooth SIG, Bluetooth specification documents. http://www.bluetooth.org/Technical/Specifications/adopted.htm. Accessed Dec 2011

  16. Lin T, Liu Y, Tseng Y (2004) An improved packet collision analysis for multi-Bluetooth piconets considering frequency-hopping guard time effect. IEEE J Sel Areas Commun 22(10):2087–2094

    Article  Google Scholar 

  17. BlueZ-Project, BlueZ—Official Linux Bluetooth Protocol Stack. http://www.bluez.org/. Accessed Dec 2011

  18. Brisbane Festival 2009, http://www.brisbanefestival.com.au/. Accessed Dec 2011

  19. Bluetooth SIG, Bluetooth 3.0 + HS specification, vol 0, 21 Apr 2009

  20. Geocaching—The Official Global GPS Cache Hunt Site, http://www.geocaching.com/. Accessed Dec 2011

  21. O’Hara K (2008) Understanding geocaching practices and motivations. In: Proceeding of the 26th annual SIGCHI conference on Human factors in computing systems. ACM, Florence

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Acknowledgments

We would like to acknowledge the support of this project by the ACID Urban Interfaces Research Group. We would like to thank Ingrid Richardson, John McMullan, Ian Clough, Mark Billinghurst and Gang Wang for their assistance in supporting the infopoint Explorer trial. We also thank the Fremantle City Council for allowing us to trial the infopoint Explorer in a public space in Fremantle, Australia.

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Authors and Affiliations

  1. School of ECTE, University of Wollongong, Wollongong, Australia

    Montserrat Ros

  2. CSIRO ICT Centre, Brisbane, Australia

    Matthew D’Souza

  3. School of ITEE, The University of Queensland, Brisbane, Australia

    Adam Postula

  4. Faculty of Science and Technology, Queensland University of Technology, Brisbane, Australia

    Ian MacColl

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  1. Montserrat Ros
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  2. Matthew D’Souza
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  3. Adam Postula
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  4. Ian MacColl
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Correspondence to Montserrat Ros.

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Ros, M., D’Souza, M., Postula, A. et al. Wireless outdoor personal area network using adaptive inquiry scanning for location-based services. Pers Ubiquit Comput 17, 387–398 (2013). https://doi.org/10.1007/s00779-011-0501-2

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  • DOI: https://doi.org/10.1007/s00779-011-0501-2

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