A survey of technologies supporting design of a multimodal interactive robot for military communication

Paul, Sheuli

doi:10.1108/jdal-11-2022-0010

Cited by 4 publications

(2 citation statements)

References 123 publications

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“…It can include activities like increasing image quality, reducing noise, and applying lters. While image processing is a key approach in computer vision, it goes beyond mere modi cation by allowing computers to extract actual meaning from images[28] [29].…”

Section: B Open CVmentioning

confidence: 99%

Quadcopter-Centric Crack Detection: YAML Algorithm Integration

Ganduri,

Pathri,

Reddy

et al. 2024

Preprint

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The primary objective of this project is to design and create a wall crack detecting system that uses the Yet Another Markup Language (YOLO) v81 model and an aerial drone. Wall fissures present serious maintenance and safety issues for power plants, buildings, and infrastructure. The YOLOv3 model, which is renowned for its real-time object detection abilities, is a major component of the project. By incorporating this model into an aerial drone platform, the system's mobility and accessibility are increased, making it possible for it to inspect areas of buildings and structures that are difficult to reach. The general perspective offered by the drone's aerial perspective makes it possible to identify fractures early on that could otherwise go undetected. The training process is guided by the YAML configuration, which includes important parameters for the best model performance, like epochs, batch size, picture size (imgsz), and pretraining. The computing core for onboard deployment is one example of how the system is designed for integration. Important factors to consider are labour assignments, device management, and project-specific information specified in the YAML file. The objective of this project is to address real-time processing and remote monitoring challenges in infrastructure inspection situations and to develop a scalable and reliable system for automated wall crack recognition.

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Section: B Open CVmentioning

confidence: 99%

Quadcopter-Centric Crack Detection: YAML Algorithm Integration

Ganduri,

Pathri,

Reddy

et al. 2024

Preprint

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“…However, the cost of 3D lidar in laser SLAM is very high, so two-dimensional lidar is usually used, and two-dimensional lidar cannot provide complete obstacle information, which will affect the subsequent path planning [3] . In order to solve the problem of the limitation of a single sensor, researchers have equipped other sensors on the robot to complement each other, so sensor fusion technology has become a hot research topic [4] . Ji et al used a bayesian method to fuse local maps of 2D lidar and depth camera [5] .…”

Section: Introductionmentioning

confidence: 99%

Synchronous localization and map construction of indoor mobile robot based on the fusion of depth camera and 2D lidar

Wei,

Chen,

Huang

et al. 2024

Fourth International Conference on Digital Signal and Computer Communications (DSCC 2024)

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In the research of synchronous location and map construction of indoor mobile robots, lidar is often used to build maps. However, three-dimensional lidar is expensive, two-dimensional lidar can only detect information above the plane, and the map constructed by depth camera is poor, so this paper proposes a low-cost map construction method based on the fusion of depth camera and lidar. First, the joint calibration method is used to make the two sensors in the same coordinate system, then the depth image is converted into laser data, and then the data is fused by selecting the minimum value method with error processing under the same Angle. Finally, the fusion data is released to the Gmapping mapping algorithm for the construction of two-dimensional maps. The effectiveness of the proposed method is verified by setting up gazebo simulation environment, and the experiment shows that the fusion method can build a complete map.

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