...
along with their main properties forwirelesssensor
network.
TABLE 1
SUMMARY OF VARIOUS SECURITY SCHEMES FORWIRELESSSENSORNETWORKS
Security Schemes Attacks ...
Pinkston, WirelessSensorNetworks , an edited book, Kluwer
Publications, ISBN: 1-4020-7883-8
23. M. Sharifnejad, M. Shari, M. Ghiasabadi and S. Beheshti, “A Survey
on WirelessSensorNetworks ... Service forSensorNetworks , 24th IEEE Real-Time
Systems Symposium, (RTSS), 2003, pp. 286-297.
35. M. Cagalj, S. Capkun, and J.P. Hubaux, “Wormhole-based Anti-
Jamming Techniques in SensorNetworks ...
... algorithm for highly uniform cluster formation,” in
European Workshop on Wireless SensorNetworks (EWSN 2004), Jan. 2004.
[30] S. Soro and W. B. Heinzelman, “Cluster head election techniquesfor coverage ... algorithm
for wirelesssensor networks, ” International Journal of Wireless & Mobile Networks (IJWMN),
vol.2, no.3, August 2010.
International Journal of Wireless & Mobile Networks (IJWMN) ... Zamanifar, and S. Dulman, “DEC: Diversity based energy
aware clustering for heterogeneous sensornetworks,” Ad Hoc and SensorWirelessNetworks
(Accepted).
[26] H. TabatabaeeMalazi, K. Zamanifar, A....
... specific design has also been causing the loss of
architectural modularity in wirelesssensor networks.
In the following, we first review the need for application specific design in wirelesssensor ... implementation.
Emerging Communications forWirelessSensor Networks8
An implementation of the EWI architecture forwirelesssensor networks, including
hardware platform and SDK (Software Development ... Modular Design 1
Wireless Sensor Networks: from Application Specic to Modular Design
Liang Song, and Dimitrios Hatzinakos
X
Wireless Sensor Networks: from
Application Specific to Modular Design...
... of sensor node with different transmission rate in the single cell and multi cell
HAP-WSN scenario
Emerging Communications forWirelessSensor Networks3 2
Fig. 3. Design and view of sensor ... Communications forWirelessSensor Networks2 4
Mohammed, A., Arnon, S., Grace, D., Mondin, M., & Miura, R. (2008). Advanced
Communications Techniques and Applications for High-Altitude Platforms. ... Protocols forWirelessSensor Networks: A
Survey. IEEE Communications Magazine
Elabdin, Z., Elshaikh, O., Islam, R., Ismail, A. P., & Khalifa, O. O. (2006). High Altitude
Platform for Wireless...
... the sensor. A circuit forpower conversion and energy
storage should be added. The device for storage can be a secondary battery or a capacitor
Emerging Communications forWirelessSensor Networks5 0
...
• Sensor node 4 starts waiting.
• Sensor node 4 received the awaited data packet.
• Sensor node 4 leaves the range of sensor node 3.
• Sensor node 4 enters the range of sensor node 2.
• Sensor ... forWirelessSensor Networks4 6
to start waiting for a specific event, e.g. to wait for the reception of a data packet on the
radio channel. All actions which will be executed on the same sensor...
... Communications forWirelessSensor Networks6 8
A Survey of Low Duty Cycle MAC Protocols in WirelessSensorNetworks 69
A Survey of Low Duty Cycle MAC Protocols in WirelessSensor Networks
M. Riduan ... that not all sensor nodes in a sensor network also have the same
sensors on board. A test case therefore, which simulates sensor measurements, may only
simulate sensor measurements on sensor nodes ... that not all sensor nodes in a sensor network also have the same
sensors on board. A test case therefore, which simulates sensor measurements, may only
simulate sensor measurements on sensor nodes...
... (2002). WirelessSensor
Networks for Habitat Monitoring, Proceedings of ACM International Workshop on
Wireless SensorNetworks and Applications, 2002.
Pei, G. & Chien, C. (2001). LowPower ... with sample data, E
sensor
is given as:
VcTE
rTT
sensordsensor
ssensord
(3)
Emerging Communications forWirelessSensor Networks8 4
MIMO-LEACH protocol is designed with multi-hop ... associated with sample data, E
sensor
is given as:
VcTE
rTT
sensordsensor
ssensord
(3)
A Survey of Low Duty Cycle MAC Protocols in WirelessSensorNetworks 89
Algorithm 1: Cooperative...
...
balanced
boundary
forward forward forward
critical
excessive
forward forward forward
substantial
excessive
forward forward forward
balanced
excessive
forward forward forward
critical ...
balanced
boundary
forward forward forward
critical
excessive
forward forward forward
substantial
excessive
forward forward forward
balanced
excessive
forward forward forward
critical ... body sensors in the BSN in each simulation.
Note that all body sensors follow a Poisson traffic distribution, since we consider here a
A new MAC Approach in Wireless Body SensorNetworks for...
... Analysis of WirelessSensorNetworks via
Evaluation of Connectivity and MAC performance 117
Throughput Analysis of WirelessSensorNetworks via Evaluation of
Connectivity and MAC performance
Flavio ... 802.15.4-2003, IEEE Standards for Information Technology Part 15.4: Wireless Medium
Access Control (MAC) and Physical Layer (PHY) Specifications for Low- Rate Wireless
Personal Area Networks (LR-WPANs), ... Beacon-Enabled mode. Below part: The IEEE
802.15.4 Beacon-Enabled mode.
Emerging Communications forWirelessSensor Networks1 22
It is widely accepted that, a WSN is fully-connected in case any sensor node...
... E
1
(x))}
u
(e), (14)
Emerging Communications forWirelessSensor Networks1 42
Throughput Analysis of WirelessSensorNetworks via
Evaluation of Connectivity and MAC performance 141
Chen, Z., Lin, C., Wen, ... enabled
mode.
Emerging Communications forWirelessSensor Networks1 40
Chen, Z., Lin, C., Wen, H. & Yin, H. (2007). An analytical model for evaluating ieee 802.15.4
csma/ca protocol in low rate wireless application, ... Communications forWirelessSensor Networks1 44
forwarding decisions to the traffic importance. This way, a selective forwarding scheme allows
nodes to keep the capacity for managing their own resources...
... Emerging Communications forWirelessSensor Networks1 64
Emerging Communications forWirelessSensor Networks1 68
Input 0
Input 1
Input 2
Input 3
Input 4
Input ... G. & Cid-Sueiro, J. (2008). Energy-efficient Selective For-
warding forSensor Networks, Proc. Workshop on Energy in WirelessSensor Networks
(WEWSN’08), in conjunction with DCOSS’08.
Arroyo-Valles, ... G. & Cid-Sueiro, J. (2008). Energy-efficient Selective For-
warding forSensor Networks, Proc. Workshop on Energy in WirelessSensor Networks
(WEWSN’08), in conjunction with DCOSS’08.
Arroyo-Valles,...
... intelligence forwirelesssensor networks, under review .
Liu, Z. & Elahanany, I. (2006). RL-MAC: A reinforcement learning based MAC protocol for
wirelesssensor networks, International Journal on Sensor ... intelligence forwirelesssensor networks, under review .
Liu, Z. & Elahanany, I. (2006). RL-MAC: A reinforcement learning based MAC protocol for
wirelesssensor networks, International Journal on Sensor ... for ad hoc sensor networks, IEEE Transactions on Mobile Computing 3(4): 366–
379.
Secure Data Aggregation in WirelessSensorNetworks 183
Secure Data Aggregation in WirelessSensor Networks
Hani...
... forWirelessSensor Networks2 02
et al.’s protocol (2006), and Sanli et al.’s protocol (2004). These protocols are discussed in the
following subsections.
4.2.1 Secure Data Aggregation for ... encryption of any message is defined as:
Emerging Communications forWirelessSensor Networks1 96
6 receive from neighbors.
7 if forsensor j then
8 ;
9 ;
10 ;
11 end if;
12 ... data freshness. Each
Emerging Communications forWirelessSensor Networks1 98
Unfortunately, data availability is not considered by the protocol designers due to the
number of bits that travelled...
...
follows:
(6)
Emerging Communications forWirelessSensor Networks2 22
6.2 Second Scenario (Aggregation but No Security)
We analyze and calculate the length in bits for transmitted information ... Szewczyk, R. & Anderson, J. (2002). Wireless
sensor networksfor habitat monitoring, Proceedings of the First ACM International
Workshop on WirelessSensorNetworks and Applications, WSNA’02, ... energy resources of sensor
nodes.
Emerging Communications forWirelessSensor Networks2 26
Alzaid, H., Foo, E. & Nieto, J. G. (2008b). Secure data aggregation in wirelesssensor
network:...
... is forwarded to computer.
Wireless sensor network have substantial processing capability in the aggregate, but not
individually. For most of the low- power mobile device such as wirelesssensor ... Communications forWirelessSensor Networks2 34
where HopSize
i
is the average single hop distance forsensor node i. (x
i
, y
i
) is the location of
the node i and (x
j
, y
j
) is the location for all ... is formed by spatially distributed wirelesssensor motes that are
able to work independently or cooperatively with other sensor motes. Due to the size
Emerging Communications forWireless Sensor...