Mobile Wireless Sensor Networks (MWSN) has potential applications in the diverse areas such as wildlife monitoring, monitoring for pollutant levels, remote health care monitoring etc. MWSN are very similar to Mobile Ad-hoc NETworks (MANETs), but resource constraint attributes of MWSN demand performance analysis of effects caused by various node mobility patterns. Random Waypoint model is widely used in studies of MWSN, which does not give a true random node movement as expected in many MWSN applications. In this paper, we have evaluated the performance of Random Waypoint, Random Direction, Random Walk and Gauss Markov mobility models for four node density scenarios. Each node density scenario is simulated for three node movement speeds. A s...
Abstract: Simulation is an indispensable tool in protocol design and evaluation. Typically, simulat...
In this paper, we investigate how the sensor network performs in the case when the event moves with ...
The mobility models are used to represent the unpredictable movement pattern of the nodes in Mobile ...
Wireless sensor networks (WSN) is an emerging technology, finds variety of applications in military,...
Abstract––A mobile ad-hoc sensor network usually consists of large number of sensor nodes (stationar...
are a very popular and emerging technology in the world. MANETs helps mobile nodes to communicate wi...
Wireless Sensor Network is Multihop Self configuring Wireless Network consisting of sensor nodes. T...
With current advances in technology, wireless networks are increasing in popularity. Wireless networ...
The performance of any mobile network is highly influenced by the mobility patterns of nodes in the ...
Wireless Sensor Network (WSN) consists of large number of sensor nodes that are capable of communica...
Nodes in wireless networks can be static or dynamic. Static nodes are stationary and their positions...
Most of MANET simulations based on random mobility models, e.g. random waypoint model, models insuf...
Wireless sensor networks (WSN) is an important future technology, in several applications in militar...
Wireless sensor networks (WSN) is an important future technology, in several applications in militar...
Mobile wireless sensor networks are not widely implemented in the real world, even after years of re...
Abstract: Simulation is an indispensable tool in protocol design and evaluation. Typically, simulat...
In this paper, we investigate how the sensor network performs in the case when the event moves with ...
The mobility models are used to represent the unpredictable movement pattern of the nodes in Mobile ...
Wireless sensor networks (WSN) is an emerging technology, finds variety of applications in military,...
Abstract––A mobile ad-hoc sensor network usually consists of large number of sensor nodes (stationar...
are a very popular and emerging technology in the world. MANETs helps mobile nodes to communicate wi...
Wireless Sensor Network is Multihop Self configuring Wireless Network consisting of sensor nodes. T...
With current advances in technology, wireless networks are increasing in popularity. Wireless networ...
The performance of any mobile network is highly influenced by the mobility patterns of nodes in the ...
Wireless Sensor Network (WSN) consists of large number of sensor nodes that are capable of communica...
Nodes in wireless networks can be static or dynamic. Static nodes are stationary and their positions...
Most of MANET simulations based on random mobility models, e.g. random waypoint model, models insuf...
Wireless sensor networks (WSN) is an important future technology, in several applications in militar...
Wireless sensor networks (WSN) is an important future technology, in several applications in militar...
Mobile wireless sensor networks are not widely implemented in the real world, even after years of re...
Abstract: Simulation is an indispensable tool in protocol design and evaluation. Typically, simulat...
In this paper, we investigate how the sensor network performs in the case when the event moves with ...
The mobility models are used to represent the unpredictable movement pattern of the nodes in Mobile ...