![Electronics | Free Full-Text | Methodology for Indoor Positioning and Landing of an Unmanned Aerial Vehicle in a Smart Manufacturing Plant for Light Part Delivery Electronics | Free Full-Text | Methodology for Indoor Positioning and Landing of an Unmanned Aerial Vehicle in a Smart Manufacturing Plant for Light Part Delivery](https://www.mdpi.com/electronics/electronics-09-01680/article_deploy/html/images/electronics-09-01680-g022.png)
Electronics | Free Full-Text | Methodology for Indoor Positioning and Landing of an Unmanned Aerial Vehicle in a Smart Manufacturing Plant for Light Part Delivery
![Vision-based pose estimation of craniocervical region: experimental setup and saw bone-based study | Robotica | Cambridge Core Vision-based pose estimation of craniocervical region: experimental setup and saw bone-based study | Robotica | Cambridge Core](https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20220507042423255-0852:S0263574721001508:S0263574721001508_fig3.png?pub-status=live)
Vision-based pose estimation of craniocervical region: experimental setup and saw bone-based study | Robotica | Cambridge Core
![Sky High Bull's-Eye (3"x3") AprilTags 16-bit (4x4 Array) 3M Stickers for Auto-Detection (30 Pack) | Visual Fiducial Marker | Augmented Reality, Robotics, and Calibration | RealityCapture Compatible: Amazon.com: Industrial & Scientific Sky High Bull's-Eye (3"x3") AprilTags 16-bit (4x4 Array) 3M Stickers for Auto-Detection (30 Pack) | Visual Fiducial Marker | Augmented Reality, Robotics, and Calibration | RealityCapture Compatible: Amazon.com: Industrial & Scientific](https://m.media-amazon.com/images/I/81cohgZlj1L.jpg)
Sky High Bull's-Eye (3"x3") AprilTags 16-bit (4x4 Array) 3M Stickers for Auto-Detection (30 Pack) | Visual Fiducial Marker | Augmented Reality, Robotics, and Calibration | RealityCapture Compatible: Amazon.com: Industrial & Scientific
ARUCO markers: basics — Scientific Python: a collection of science oriented python examples documentation
![Vision-based pose estimation of craniocervical region: experimental setup and saw bone-based study | Robotica | Cambridge Core Vision-based pose estimation of craniocervical region: experimental setup and saw bone-based study | Robotica | Cambridge Core](https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20220507042423255-0852:S0263574721001508:S0263574721001508_fig6.png?pub-status=live)