| [1] |
Langley J, Costello M. 2016. Ground resonance mitigation of rotorcraft with articulated robotic landing gear: a preliminary investigation. Proceedings of the Vertical Flight Society 72nd Annual Forum. May 17−19, 2016. West Palm Beach, Florida. US: The Vertical Flight Society. pp. 1−15 |
| [2] |
Roderick WRT, Cutkosky MR, Lentink D. 2021. Bird-inspired dynamic grasping and perching in arboreal environments. |
| [3] |
Sarkisov YS, Yashin GA, Tsykunov EV, Tsetserukou D. 2018. DroneGear: a novel robotic landing gear with embedded optical torque sensors for safe multicopter landing on an uneven surface. |
| [4] |
Ikura M, Miyashita L, Ishikawa M. 2021. Stabilization system for UAV landing on rough ground by adaptive 3D sensing and high-speed landing gear adjustment. |
| [5] |
Zufferey R, Tormo-Barbero J, Feliu-Talegón D, Nekoo SR, Acosta JÁ, et al. 2022. How ornithopters can perch autonomously on a branch. |
| [6] |
Boix DM, Goh K, McWhinnie J. 2017. Modelling and control of helicopter robotic landing gear for uneven ground conditions. 2017 Workshop on Research, Education and Development of Unmanned Aerial Systems (RED-UAS), Linköping, Sweden, 3–5 October 2017. USA: IEEE. pp. 60–65 doi: 10.1109/red-uas.2017.8101644 |
| [7] |
Li X, Dunkin F, Dezert J. 2024. Multi-source information fusion: progress and future. |
| [8] |
Kibrete F, Engida Woldemichael D, Shimels Gebremedhen H. 2024. Multi-Sensor data fusion in intelligent fault diagnosis of rotating machines: a comprehensive review. |
| [9] |
Yang Z, Li G, Xue G, He B, Song Y, et al. 2025. A novel multi-sensor local and global feature fusion architecture based on multi-sensor sparse Transformer for intelligent fault diagnosis. |
| [10] |
Xu Z, Chen X, Xu J. 2025. Multi-modal multi-sensor feature fusion spiking neural network algorithm for early bearing weak fault diagnosis. |
| [11] |
Parsons T, Hanafi Sheikhha F, Seo J, Lee H. 2024. RGB-LiDAR sensor fusion for dust de-filtering in autonomous excavation applications. |
| [12] |
Lv J, Kim BG, Parameshachari BD, Slowik A, Li K. 2025. Large model-driven hyperscale healthcare data fusion analysis in complex multi-sensors. |
| [13] |
Sun C, Lin Y, Meng Q, Li L. 2025. Adaptive output feedback fault-tolerant control for a class of nonlinear systems based on a sensor fusion mechanism. |
| [14] |
Wu D, Qiao B, Du C, Zhu Y, Yan F, et al. 2024. Multi-objective dynamic coordinated Adaptive Cruise Control for intelligent electric vehicle with sensors fusion. |
| [15] |
Hussain KF, El-Din Safwat N, Thangavel K, Sabatini R. 2025. Space-based debris trajectory estimation using vision sensors and track-based data fusion techniques. |
| [16] |
Wang P, Ji H, Zhang Y, Zhu Z. 2025. Consistent fusion for distributed multi-rate multi-sensor linear systems with unknown correlated measurement noises. |
| [17] |
Xu L, Shi C, Yu H, Hou L. 2024. Fusion estimation for state-saturated multi-rate systems with integral measurement and sensor resolution. |
| [18] |
Ban C, Wang L, Chi R, Su T, Ma Y. 2024. A Camera-LiDAR-IMU fusion method for real-time extraction of navigation line between maize field rows. |
| [19] |
Sestras P, Badea G, Badea AC, Salagean T, Oniga VE, et al. 2025. A novel method for landslide deformation monitoring by fusing UAV photogrammetry and LiDAR data based on each sensor's mapping advantage in regards to terrain feature. |
| [20] |
Liu H, Xu G, Liu B, Li Y, Yang S, et al. 2025. A real time LiDAR-Visual-Inertial object level semantic SLAM for forest environments. |
| [21] |
Saldiran E, Hasanzade M, Cetin A, Inalhan G. 2025. Ensuring operation time safety of VTOL UAV: autonomous emergency landings in unknown terrain. |
| [22] |
Chen K, Sun Q, Sun H, Liu Q, Chen Z. 2025. Tightly coupled lidar-inertial-GPS environment detection and landing area selection based on powered parafoil UAV. |
| [23] |
Jiao J, Geng R, Li Y, Xin R, Yang B, et al. 2025. Real-time metric-semantic mapping for autonomous navigation in outdoor environments. |
| [24] |
Saleem O, Kazim M, Iqbal J. 2025. Robust position control of VTOL UAVs using a linear quadratic rate-varying integral tracker: design and validation. |
| [25] |
Miranda-Villatoro FA, Brogliato B, Castaños F. 2017. Set-valued discrete-time sliding-mode control of uncertain linear systems. |
| [26] |
Fan X, Wang Z. 2020. Event-triggered integral sliding mode control for linear systems with disturbance. |
| [27] |
Labbadi M, Muñoz-Vázquez AJ, Djemai M, Boukal Y, Zerrougui M, et al. 2022. Fractional-order nonsingular terminal sliding mode controller for a quadrotor with disturbances. |
| [28] |
Qu Y, Zhang B, Chu H, Shen H, Zhang J, et al. 2023. Sliding-mode anti-disturbance speed control of permanent magnet synchronous motor based on an advanced reaching law. |
| [29] |
Cao G, Jia Z, Wu D, Li Z, Zhang W. 2024. Trajectory tracking control for marine vessels with error constraints: a barrier function sliding mode approach. |
| [30] |
Irfan S, Zhao L, Ullah S, Javaid U, Iqbal J. 2024. Differentiator- and observer-based feedback linearized advanced nonlinear control strategies for an unmanned aerial vehicle system. |
| [31] |
Rakhtala SM, Ahmadi M. 2017. Twisting control algorithm for the yaw and pitch tracking of a twin rotor UAV. |
| [32] |
Ebrahimpour M, Lungu M, Kakavand M. 2024. Antisaturation fixed-time backstepping fuzzy integral sliding mode control for automatic landing of fixed-wing unmanned aerial vehicles. |
| [33] |
Ali K, Ullah S, Mehmood A, Mostafa H, Marey M, et al. 2022. Adaptive FIT-SMC approach for an anthropomorphic manipulator with robust exact differentiator and neural network-based friction compensation. |
| [34] |
Ott C, Albu-Schaffer A, Kugi A, Hirzinger G. 2008. On the Passivity-Based Impedance Control of Flexible Joint Robots. |