A parafoil delivery system has usually been used in the fields of military and civilian airdrop supply and aircraft recovery in recent years. However, since the altitude of the unpowered parafoil is monotonically decreasing, it is limited by the initial flight altitude. Thus, combining the multiple constraints, such as the ground obstacle avoidance and flight time, it puts forward a more stringent standard for the real-time performance of trajectory planning of the parafoil delivery system. Thus, to enhance the real-time performance, we propose a new parafoil trajectory planning method based on an improved twin delayed deep deterministic policy gradient. In this method, by pre-evaluating the value of the action, a scale of noise will be dyn...
In this paper a Deep Reinforcement Learning algorithm, known as Deep Deterministic Policy Gradient (...
Autonomous precision placement of parafoils is challenging because of their limited control authorit...
In this article, the trajectory planning of the two manipulators of the dual-arm robot is studied to...
Parafoil system is suitable for large-area and longtime surveillance and airdrop missions and has th...
Planetary soft landing has been studied extensively due to its promising application prospects. In t...
Aiming at the problem that the traditional UAV obstacle avoidance algorithm needs to build offline t...
In this study, a novel end-to-end path planning algorithm based on deep reinforcement learning is pr...
Recent research on the Flying V - a flying-wing long-range passenger aircraft - shows that its airfr...
In this study, two different impact-angle-constrained guidance and control strategies using deep rei...
The use of multi-rotor UAVs in industrial and civil applications has been extensively encouraged by ...
© 2020 The Authors Tracking maneuvering target in real time autonomously and accurately in an uncert...
This paper investigates the problem of multi-robot formation control strategies in environments with...
In this paper, we propose a C51-Duel-IP (C51 Dueling DQN with Independent Policy) dynamic destinatio...
This paper presents an adaptive trajectory planning approach for nonlinear dynamical systems based o...
This paper combines Deep Reinforcement Learning (DRL) with Meta-learning and proposes a novel approa...
In this paper a Deep Reinforcement Learning algorithm, known as Deep Deterministic Policy Gradient (...
Autonomous precision placement of parafoils is challenging because of their limited control authorit...
In this article, the trajectory planning of the two manipulators of the dual-arm robot is studied to...
Parafoil system is suitable for large-area and longtime surveillance and airdrop missions and has th...
Planetary soft landing has been studied extensively due to its promising application prospects. In t...
Aiming at the problem that the traditional UAV obstacle avoidance algorithm needs to build offline t...
In this study, a novel end-to-end path planning algorithm based on deep reinforcement learning is pr...
Recent research on the Flying V - a flying-wing long-range passenger aircraft - shows that its airfr...
In this study, two different impact-angle-constrained guidance and control strategies using deep rei...
The use of multi-rotor UAVs in industrial and civil applications has been extensively encouraged by ...
© 2020 The Authors Tracking maneuvering target in real time autonomously and accurately in an uncert...
This paper investigates the problem of multi-robot formation control strategies in environments with...
In this paper, we propose a C51-Duel-IP (C51 Dueling DQN with Independent Policy) dynamic destinatio...
This paper presents an adaptive trajectory planning approach for nonlinear dynamical systems based o...
This paper combines Deep Reinforcement Learning (DRL) with Meta-learning and proposes a novel approa...
In this paper a Deep Reinforcement Learning algorithm, known as Deep Deterministic Policy Gradient (...
Autonomous precision placement of parafoils is challenging because of their limited control authorit...
In this article, the trajectory planning of the two manipulators of the dual-arm robot is studied to...