Wing et al., 2014 - Google Patents
A low-cost unmanned aerial system for remote sensing of forested landscapesWing et al., 2014
View PDF- Document ID
- 11277363594350116405
- Author
- Wing M
- Burnett J
- Johnson S
- Akay A
- Sessions J
- Publication year
- Publication venue
- International Journal of Remote Sensing Applications
External Links
Snippet
We developed a low-cost unmanned aerial system (UAS) for less than $1400 that is capable of capturing high-resolution imagery of landscapes. We accomplished this feat by making use of advances in open-source technology that are propelling small UAS applications for …
- 230000010006 flight 0 abstract description 46
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Alam et al. | A survey of safe landing zone detection techniques for autonomous unmanned aerial vehicles (UAVs) | |
| US11933613B2 (en) | Ground control point assignment and determination system | |
| Singhal et al. | Unmanned aerial vehicle classification, applications and challenges: A review | |
| Chen et al. | State of technology review of civilian UAVs | |
| US11373539B2 (en) | Unmanned aerial vehicle management | |
| US20220357753A1 (en) | Drop-off location planning for delivery vehicle | |
| Alghamdi et al. | Architecture, classification, and applications of contemporary unmanned aerial vehicles | |
| Wing et al. | A low-cost unmanned aerial system for remote sensing of forested landscapes | |
| Anderson et al. | Lightweight unmanned aerial vehicles will revolutionize spatial ecology | |
| Hardin et al. | Small‐scale remotely piloted vehicles in environmental research | |
| Hogan et al. | Unmanned aerial systems for agriculture and natural resources | |
| Mitka et al. | Classification of drones | |
| KR20140076484A (en) | Tree metrology system | |
| Garg | Unmanned aerial vehicles: An introduction | |
| Heaphy et al. | UAVs for data collection-plugging the gap | |
| Kuhnert et al. | Light-weight sensor package for precision 3D measurement with micro UAVs eg power-line monitoring | |
| Themistocleous | The use of UAVs for monitoring land degradation | |
| Satyarthi et al. | Drone Technologies: Aviation Strategies, Challenges, and Applications | |
| Zmarz | UAV–a useful tool for monitoring woodlands | |
| Awange et al. | Unmanned aircraft vehicles | |
| Tiansawat et al. | Unmanned aerial vehicles for automated forest restoration | |
| Green et al. | From radio-controlled model aircraft to drones | |
| Danko et al. | Robotic rotorcraft and perch-and-stare: Sensing landing zones and handling obscurants | |
| Carlier et al. | Deployment of unmanned aircraft systems as part of precision agriculture in Finland | |
| Cotten et al. | Current UAS Capabilities for Geospatial Spectral Solutions |