Add to ORKGFor a design of a bio-inspired fish like robot with caudal fin a Fluid Structure Interaction (FSI) analysis has been conducted to investigate the influence of material properties and undulation kinematic on the hydrodynamic performance and efficiency. This supports the design process with focus on practical prototype build up
The following paper presents the integration between the computational fluid dynamics (CFD) analysis...
In the last two decades, bio-inspired solutions have been thoroughly investigated as a source of eff...
A biologically inspired underwater vehicle (BIUV) was built using multiple lightweight bio-inspired ...
For the design of a bio-inspired, fish-like robot with caudal fin, a Fluid Structure Interaction (FS...
In this paper, the propulsive performance of a caudal peduncle-fin swimmer mimicking a bio-inspired ...
In this paper, the propulsion performance of a bio-inspired underwater robot with a pair of ray-supp...
The technology of Autonomous Underwater Vehicles (AUVs) is developing in two main directions focusin...
This article presents the analysis of fin drag force in a Biomimetic Underwater Vehicle (BUV). To ca...
The technology of Autonomous Underwater Vehicles (AUVs) is developing in two main directions focusin...
In this paper, the CFD technology widely used in biomimetic applications is firstly reviewed in a br...
In this paper, the propulsive performance of a caudal peduncle-fin swimmer mimicking a bio-inspired ...
In this paper, the CFD technology widely used in biomimetic applications is firstly reviewed in a br...
Abstract—Fish are remarkable in their ability to maneuver and to control their body position. This a...
Despite serving analogous functions, the mechanical designs conceived by human engineering and those...
Over the past decade, engineers have designed Autonomous Underwater Vehicles (AUVs) inspired by the ...
The following paper presents the integration between the computational fluid dynamics (CFD) analysis...
In the last two decades, bio-inspired solutions have been thoroughly investigated as a source of eff...
A biologically inspired underwater vehicle (BIUV) was built using multiple lightweight bio-inspired ...
For the design of a bio-inspired, fish-like robot with caudal fin, a Fluid Structure Interaction (FS...
In this paper, the propulsive performance of a caudal peduncle-fin swimmer mimicking a bio-inspired ...
In this paper, the propulsion performance of a bio-inspired underwater robot with a pair of ray-supp...
The technology of Autonomous Underwater Vehicles (AUVs) is developing in two main directions focusin...
This article presents the analysis of fin drag force in a Biomimetic Underwater Vehicle (BUV). To ca...
The technology of Autonomous Underwater Vehicles (AUVs) is developing in two main directions focusin...
In this paper, the CFD technology widely used in biomimetic applications is firstly reviewed in a br...
In this paper, the propulsive performance of a caudal peduncle-fin swimmer mimicking a bio-inspired ...
In this paper, the CFD technology widely used in biomimetic applications is firstly reviewed in a br...
Abstract—Fish are remarkable in their ability to maneuver and to control their body position. This a...
Despite serving analogous functions, the mechanical designs conceived by human engineering and those...
Over the past decade, engineers have designed Autonomous Underwater Vehicles (AUVs) inspired by the ...
The following paper presents the integration between the computational fluid dynamics (CFD) analysis...
In the last two decades, bio-inspired solutions have been thoroughly investigated as a source of eff...
A biologically inspired underwater vehicle (BIUV) was built using multiple lightweight bio-inspired ...