Review Article
Airborne Wireless Sensor Networks for Airplane Monitoring System
Table 7
Comparison of the characteristics features for airborne wireless prototypes.
| Study (-) | Throughput (Kbps) | Max. sample rate (Hz) | Synchronization accuracy (us) | Target application (-) |
| Wu et al. [39] | 250 | 32 | - | Strain monitoring for aircraft carbon fiber reinforced plastic wing box | Wu et al. [40, 63] | 250 | 32 | - | Liu et al. [38], Yuan et al. [62] | 250 | - | - | Impact monitoring for aircraft wing box | Delebarre et al. [64] | - | - | - | Impact monitoring for aircraft wing box | Gao et al. [45] | 909 | 32 | 50 | Strain monitoring for aircraft wing box and an UAV composite wing | Gao et al. [46] | 2000 | 10000 | - | Aircraft aluminum plate | Loo et al. [65] | 250 | - | - | Aircraft corrosion monitoring | Pook et al. [35] Kiepert et al. [36, 37] | 250 | - | - | Becker et al. [41] | - | 40000 | - | Laboratory environment | Zhao et al. [66, 67] | 250 | 15000 | - | Ultrasound monitoring for aircraft wing inspection | Demo et al. [34] Samson et al. [52] | 250 | 1000 | - | Aircraft corrosion monitoring | Hall et al. [60, 61] | 250 | 50000 | - | Aircraft corrosion monitoring | Arms et al. [42ā44] | 250 | 512 | 39000 | Strain and vibration monitoring Bell Model 412 helicopter | Blanckenstein et al. [68] | 250 | - | - | RSSI and BER for Airbus A330-300 | Lu et al. [53] | - | 5300 | - | Lab environment |
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