Results 111 to 120 of about 1,847 (222)
A hybrid underwater glider for underwater docking
Underwater gliders have the advantage of high endurance and long range. However, these buoyancy-driven gliders do not have horizontal flight capabilities and have the shortage of low maneuverability.
Chen, Y (15515402) +6 more
core
Observer Design For Underwater Glider [PDF]
Underwater gliders have numerous advantages over the conventional underwater vehicles in oceanographic applications. Gliders offered long duration and long range missions with low energy consumption.
Oo, Fhong Hao
core
There have been a lot of research results on the characteristics of ambient noise distribution with depth, but the correlation between the two is rarely reported.
Chao Wang, Meng Yuan
doaj +1 more source
Shape optimization of a blended-wing-body underwater glider using surrogate-based global optimization method IESGO-HSR. [PDF]
Ye P, Pan G.
europepmc +1 more source
Hybrid underwater glider for underwater docking: modeling and performance evaluation
The development of a novel type of hybrid underwater glider that combines the advantages of buoyancy-driven gliders and propeller-driven autonomous underwater vehicles has recently received considerable interest.
Yang, C (15615587) +4 more
core
Design and fabrication of a body for an underwater glider
This paper describes a design development of an underwater glider which includes the body design, controller design and the sensor integration. The underwater glider is used for deep water to observe large areas with minimal use of energy and move ...
Fazril Zayadi
core
Acoustic analysis of an underwater glider
Su altı ve su üstü verisi toplama sistemleri teknolojinin ilerlemesi ile birlikte insana bağlı olmaktan kurtulup insansız ve otonom sistemlere yönelmektedir. Bu şekilde zorlu çevre şartları ve ulaşması zor derinliklerin üstesinden gelinebilmektedir.
openaire +1 more source
Buoyancy Driven Underwater Glider
My senior design project was to design, construct, and test an underwater glider. A glider operates by changing its buoyancy to descend and ascend, and then converts this vertical motion into horizontal motion by the addition of wings.
Kowalyshyn, Daniel
core
Ocean sound levels in the northeast Pacific recorded from an autonomous underwater glider. [PDF]
Haxel JH +6 more
europepmc +1 more source

