Summary + Thesis + Support 2

 Summary

The JOUAV CW-007 drone is changing the civil engineering industry by providing efficiency, safety, and data accuracy when performing important tasks (JOUAV, n.d.). The JOUAV CW-007 drone has a 3.5m wingspan, 180-minute flight time, and a 100km range. It is powered by a high-capacity lithium battery and features GNSS positioning and high-resolution payload options for data collection (JOUAV, n.d.). According to JOUAV’s website, drone surveying is more cost-effective and up to 5 times faster than land surveys compared to traditional methods of air surveying like planes and helicopters. Additionally, the CW-007 drone provides high data accuracy, with aerial mapping capabilities achieving centimeter-level precision and a mapping accuracy of 1:1000 (JOUAV, n.d.). A key aspect of the usage of the CW-007 drone is that it can survey hard-to-reach or hazardous areas safely, capturing extensive and accurate data from steep slopes and dangerous terrain, improving safety and efficiency for both engineers and surveyors (JOUAV, n.d.). Studies have shown that drones can significantly reduce surveying time and improve accuracy, making them a valuable tool in infrastructure planning and construction (Liang et al., 2023). Additionally, their ability to generate high-resolution 3D models and topographical maps improves project planning and decision-making processes (Colomina & Molina, 2014).

Thesis

With the CW-007 drone developed by JOUAV, surveyors and civil engineers can attain cost-efficient, high-accuracy and safe data collection, transforming traditional surveying methods into a faster and safer process in modern civil engineering.

Support

Support 1:

Firstly, usage of the CW - 007 drone can be a cost effective way to collect data for surveying

Support 2:

Adding on, the drone also provides data with high accuracy and precision while surveying.

Support 3: 

The CW - 007 drone also provides safety while surveying in hard to reach or inaccessible areas. 

Counterargument: 

Regulatory and Air space Restrictions can be a factor in slowing down or even preventing drone usage. 

References

Colomina, I., & Molina, P. (2014). Unmanned aerial systems for photogrammetry and remote sensing: A review. ISPRS Journal of Photogrammetry and Remote Sensing, 92, 79–97.
https://www.sciencedirect.com/science/article/pii/S0924271614000501?via%3Dihub

JOUAV. (n.d.). CW-007 drone specifications and applications. JOUAV.
https://www.jouav.com/products/cw-007.html

Liang, X., Wang, Y., Xu, Y., & Chen, H. (2023). Drone-based remote sensing for construction monitoring: Advances and future directions. Drones, 7(3), Article 202.
https://www.mdpi.com/2504-446X/7/3/202