Juntang Yang scite author profile

Unmanned aerial vehicles (UAVs) have been used for increasing research applications in atmospheric measurements. However, most current solutions for these applications are based on a single UAV with limited payload capacity. In order to address the limitations of the single UAV-based approach, this paper proposes a new concept of measurements using tandem flying multicopters as a distributed sensor platform. Key challenges of the proposed concept are identified including the relative position estimation and control in wind-perturbed outdoor environment and the precise alignment of payloads. In the proposed concept, sliding mode control is chosen as the relative position controller and a gimbal stabilization system is introduced to achieve fine payload alignment. The characterization of the position estimation sensors (including global navigation satellite system and real-time kinematics) and flight controller is carried out using different UAVs (a DJI Matrice M600 Pro Hexacopter and Tarot X4 frame based Quadcopter) under different wind levels. Based on the experimental data, the performance of the sliding mode controller and the performance of the gimbal stabilization system are evaluated in a hardware-in-the-loop simulation environment (called ELISSA). Preliminary achievable control accuracies of the relative position and attitude of subsystems in the proposed concept are estimated based on experimental results.

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A constitutive model for concrete subjected to extreme dynamic loadings

Bai

Liu

Yang

et al. 2020

International Journal of Impact Engineering

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Exploring the dynamic response and energy dissipation capacity of functionally graded EPS concrete

Bai

Liu

Yang

et al. 2019

Construction and Building Materials

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Juntang Yang

Adaptive Sliding Mode Control for Spacecraft Proximity Operations Based on Dual Quaternions

Potential Field-Based Sliding Surface Design and Its Application in Spacecraft Constrained Reorientation

Concept and Feasibility Evaluation of Distributed Sensor-Based Measurement Systems Using Formation Flying Multicopters

A constitutive model for concrete subjected to extreme dynamic loadings

Exploring the dynamic response and energy dissipation capacity of functionally graded EPS concrete

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