A LOCATION-AWARE CALL FORWARDING MANAGER SYSTEM FOR A SMART TELEPHONY NETWORK OF THE SMART SPACE

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International Journal on Smart Sensing and Intelligent Systems

Professor Subhas Chandra Mukhopadhyay

Exeley Inc. (New York)

Subject: Computational Science & Engineering, Engineering, Electrical & Electronic

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VOLUME 2 , ISSUE 1 (March 2009) > List of articles

A LOCATION-AWARE CALL FORWARDING MANAGER SYSTEM FOR A SMART TELEPHONY NETWORK OF THE SMART SPACE

Heng-Chih Huang * / Yueh-Min Huang / Kuan-Chieh Chiu

Keywords : Location-aware, Sensor Network, Smart Space, Smart Sensor Rooms, Real World Interaction, Call Forwarding, IP phone.

Citation Information : International Journal on Smart Sensing and Intelligent Systems. Volume 2, Issue 1, Pages 15-29, DOI: https://doi.org/10.21307/ijssis-2017-336

License : (CC BY-NC-ND 4.0)

Published Online: 02-November-2017

ARTICLE

ABSTRACT

A smart space, such as smart sensor rooms, an office, or simply an area, requires a smart telephony network for an effective voice communication between users. Nowadays, modern Private Branch Exchange (PBX) system does not only provide telephone exchange, but also supports many heterogeneous telephony networks and provides many other useful functions as well. Despite its powerfulness, PBX still cannot achieve a basic requirement for a smart space: It cannot adapt its surroundings automatically, i.e. people still need to make the call forwarding setting manually. In this paper, we propose a system with an algorithm named “2D location-aware” for tracking a person in a smart space. According to the ever-changing environment, the system performs an on-the-fly configuration to provide a dynamic telephony network. In other words, we aim to make all the telephones in the network available to every user in the smart space for receiving his phone calls without any manual call forwarding settings.

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REFERENCES

[1] Gu, H.-L., Shi, Y.-C., Xu, G.-Y., He, W.-S., Zhang, B.-P., “SLAP: a Location-aware Software Infrastructure for Smart Space”, SEUS 2005. Third IEEE Workshop on (2005), 25-38
[2] Liyanage C De Silva, “Audiovisual Sensing Of Human Movements For Home-Care And Security In A Smart Environment”, International Journal On Smart Sensing and Intelligent Systems, Volume. 1, Issue 1, (2008), 220-245
[3] Du, A.T., “Private PBX networks: Cost effective communications solutions,” 3rd AFRICON Conference (1992). 637–640.
[4] Choi, S.-H., Kim, B.-K., Park, J., Kang, C.-H., Eom, D.-S., “An implementation of wireless sensor network”, Consumer Electronics, IEEE Transactions on, Volume 50, Issue 1 (2004), 236– 244.
[5] Lee, R.-G., Lai, C.-C., Hsiao, C.-C., “Implementation of a Cable Access Point Device for Ubiquitous Network Applications”, Consumer Electronics, IEEE Transactions on, Volume 52, Issue 2 (2006), 402–406
[6] ITU-T E.164 : The international public telecommunication numbering plan, ITU (2005)
[7] Douglas B.West, Introduction to Graph Theory, 2nd Edition, Prentice-Hill, Inc (2001), 97-100
[8] IEEE 802 Part 15.4: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low-Rate Wireless Personal Area Networks, IEEE Computer Society, (2003)
[9] Lee, B.-H., Chen, J.-M., ”VoIP services with embedded CAC over cable modem systems”, Consumer Electronics, IEEE Transactions on, Volume 51, Issue 3 (2005), 815–823
[10] Aimeur, E., Salehian, B., “A multimedia training system applied to telephony”, Advanced Learning Technologies, 2003. Proceedings. The 3rd IEEE International Conference (2003), 272–273

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