M. Ali's research while affiliated with Institute of Management Sciences and other places
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Publications (2)
We propose forwarding-function (íµí°¹ íµí°¹) based routing protocol for underwater sensor networks (UWSNs): improved adaptive mobility of courier nodes in threshold-optimized depth-based-routing (iAMCTD). Unlike existing depth-based acoustic protocols, the proposed protocol exploits network density for time-critical applications. In order to tackle...
Citations
... The usable bandwidth for audio communication is under 100 kHz. While most sensors in UWSNs are stationary, they can still move at a speed of 1 to 3 m/sec [16,[26][27][28][29]. Figure 1 shows the UWSNs architecture. The sensor nodes deployed in UWSNs environment are labeled as sensor node A, B . . . . ...
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... In [19] , a Cooperative Localization Particle Filter (CLPF) and an Occupancy Grid Mapping Algorithm (OGMA) based scheme is presented for accurate 3D localization. The authors in [20] present a forwarding-function based routing scheme called improved Adaptive Mobility of Courier nodes in Threshold-optimized Depthbased routing (iAMCTD) for UWSNs. The iAMCTD prolonged the network lifetime of reactive UWSNs through optimized mobility pattern of sink. ...
