Wireless Sensor Networks for Swiftlet Farms Monitoring
This paper provides an in-depth study of Wireless
Sensor Network (WSN) application to monitor and control the
swiftlet habitat. A set of system design is designed and developed
that includes the hardware design of the nodes, Graphical User
Interface (GUI) software, sensor network, and interconnectivity for
remote data access and management. System architecture is proposed
to address the requirements for habitat monitoring. Such applicationdriven
design provides and identify important areas of further work
in data sampling, communications and networking. For this
monitoring system, a sensor node (MTS400), IRIS and Micaz radio
transceivers, and a USB interfaced gateway base station of Crossbow
(Xbow) Technology WSN are employed. The GUI of this monitoring
system is written using a Laboratory Virtual Instrumentation
Engineering Workbench (LabVIEW) along with Xbow Technology
drivers provided by National Instrument. As a result, this monitoring
system is capable of collecting data and presents it in both tables and
waveform charts for further analysis. This system is also able to send
notification message by email provided Internet connectivity is
available whenever changes on habitat at remote sites (swiftlet farms)
occur. Other functions that have been implemented in this system
are the database system for record and management purposes; remote
access through the internet using LogMeIn software. Finally, this
research draws a conclusion that a WSN for monitoring swiftlet
habitat can be effectively used to monitor and manage swiftlet
farming industry in Sarawak.
[1] "Swiftlet Farming Grows Quickly in East Coast," Star Publications
(Malaysia) Bhd, 31 March 2008.
[2] W. O. Tang, "Factors to Consider in Swiftlet Farm Construction,"
Trivesco Capital Management, Perak, Malaysia, 27 November 2006.
[3] E. Madi, "Enticing Swiftlets with Man-Made Caves", New Sabah Times,
13 July 2007.
[4] L. N. Ambu, "The Potential of Farming Edible-Nest Swiftlets in Sabah,"
New Sabah Times, 13-14 September 2001.
[5] A. Mainwaring, J. Polastre, R. Szewczyk, and D. Culler, "Wireless
Sensor Networks for Habitat Monitoring," Copyright 2002, Intel
Corporation, June 2002.
[6] Z. Phoon, "Rising Demand for Swiftlet Eco Parks," New Straits Times,
pp. 6-7, February 16 2008.
[7] J. R. Polastre, "Design and Implementation of Wireless Sensor Networks
for Habitat Monitoring," University of California at Berkeley, Spring
2003.
[8] B. West, P. Flikkema, T. Sisk, and G. Koch, "Wireless Sensor Networks
for Dense Spatio-temporal Monitoring of the Environment: A Case for
Integrated Circuit, System, and Network Design," In Proceedings of
IEEE CAS Workshop on Wireless Communications and Networking",
Notre Dame, IN, August 2001.
[9] B. L. Halla, A. Bahai, "Wireless Sensor Network for Monitoring One or
More Selected Environmental Characteristics," United States Patent, US
7299068 B1, November 20 2007.
[10] G H. Wang, D. Estrin, and L. Girod, "Preprocessing in a Tiered Sensor
Network for Habitat Monitoring," In EURASIP JASP Special Issue on
Sensor Networks, 2003.
[11] H. Claussen, "Adapting a Communications Network of Wireless Access
Nodes to a Changing Environment," United States Patent, US 7299069
B2, November 20 2007.
[1] "Swiftlet Farming Grows Quickly in East Coast," Star Publications
(Malaysia) Bhd, 31 March 2008.
[2] W. O. Tang, "Factors to Consider in Swiftlet Farm Construction,"
Trivesco Capital Management, Perak, Malaysia, 27 November 2006.
[3] E. Madi, "Enticing Swiftlets with Man-Made Caves", New Sabah Times,
13 July 2007.
[4] L. N. Ambu, "The Potential of Farming Edible-Nest Swiftlets in Sabah,"
New Sabah Times, 13-14 September 2001.
[5] A. Mainwaring, J. Polastre, R. Szewczyk, and D. Culler, "Wireless
Sensor Networks for Habitat Monitoring," Copyright 2002, Intel
Corporation, June 2002.
[6] Z. Phoon, "Rising Demand for Swiftlet Eco Parks," New Straits Times,
pp. 6-7, February 16 2008.
[7] J. R. Polastre, "Design and Implementation of Wireless Sensor Networks
for Habitat Monitoring," University of California at Berkeley, Spring
2003.
[8] B. West, P. Flikkema, T. Sisk, and G. Koch, "Wireless Sensor Networks
for Dense Spatio-temporal Monitoring of the Environment: A Case for
Integrated Circuit, System, and Network Design," In Proceedings of
IEEE CAS Workshop on Wireless Communications and Networking",
Notre Dame, IN, August 2001.
[9] B. L. Halla, A. Bahai, "Wireless Sensor Network for Monitoring One or
More Selected Environmental Characteristics," United States Patent, US
7299068 B1, November 20 2007.
[10] G H. Wang, D. Estrin, and L. Girod, "Preprocessing in a Tiered Sensor
Network for Habitat Monitoring," In EURASIP JASP Special Issue on
Sensor Networks, 2003.
[11] H. Claussen, "Adapting a Communications Network of Wireless Access
Nodes to a Changing Environment," United States Patent, US 7299069
B2, November 20 2007.
@article{"International Journal of Electrical, Electronic and Communication Sciences:51746", author = "Al-Khalid Othman and Wan A. Wan Zainal Abidin and Kee M. Lee and Hushairi Zen and Tengku. M. A. Zulcaffle and Kuryati Kipli", title = "Wireless Sensor Networks for Swiftlet Farms Monitoring", abstract = "This paper provides an in-depth study of Wireless
Sensor Network (WSN) application to monitor and control the
swiftlet habitat. A set of system design is designed and developed
that includes the hardware design of the nodes, Graphical User
Interface (GUI) software, sensor network, and interconnectivity for
remote data access and management. System architecture is proposed
to address the requirements for habitat monitoring. Such applicationdriven
design provides and identify important areas of further work
in data sampling, communications and networking. For this
monitoring system, a sensor node (MTS400), IRIS and Micaz radio
transceivers, and a USB interfaced gateway base station of Crossbow
(Xbow) Technology WSN are employed. The GUI of this monitoring
system is written using a Laboratory Virtual Instrumentation
Engineering Workbench (LabVIEW) along with Xbow Technology
drivers provided by National Instrument. As a result, this monitoring
system is capable of collecting data and presents it in both tables and
waveform charts for further analysis. This system is also able to send
notification message by email provided Internet connectivity is
available whenever changes on habitat at remote sites (swiftlet farms)
occur. Other functions that have been implemented in this system
are the database system for record and management purposes; remote
access through the internet using LogMeIn software. Finally, this
research draws a conclusion that a WSN for monitoring swiftlet
habitat can be effectively used to monitor and manage swiftlet
farming industry in Sarawak.", keywords = "Swiftlet, WSN, Habitat Monitoring, Networking.", volume = "3", number = "12", pages = "2262-7", }