Яндекс.Метрика

Новые поступления

Intelligence Control For An Unmanned Underwater Vehicle intelligence control for an unmanned underwater vehicle
Underwater environment poses a difficult challenge for autonomous underwater navigation. A standard problem of underwater vehicles is to maintain it position at a certain depth in order to perform desired operations. An effective controller is required for this purpose and hence the design of a depth controller for an Unmanned Underwater Vehicle is described in this book. The control algorithm is simulated by using the Marine Guidance Navigation and Control Simulator. The project shows a Radial Basis Function Metamodel can be used to tune the scaling factors of a Fuzzy Logic Controller. By using offline optimization approach, a comparison between Genetic Algorithm and Metamodeling has been done to minimize the Integral Square Error between the set point and the measured depth of the underwater vehicle. The results showed that it is possible to obtain a reasonably good error using Metamodeling approach in much a shorter time compared to the Genetic Algorithm approach.
4839 RUR
AUTOPILOT SYSTEM FOR AN UNMANNED AERIAL VEHICLE (UAV) intelligence control for an unmanned underwater vehicle
AUTOPILOT SYSTEM FOR AN UNMANNED AERIAL VEHICLE (UAV) contains Autonomous Navigation and Control system for a fixed wing plane (Autopilot system). The project includes the Adaptive Neuro Fuzzy Inference Based Control system Development, and programming it into single board computer installed in the model aircraft. The software architecture was developed using C++ language in Linux operating system. All sensors, necessary for the control are interfaced with the system. It also includes Live data transmission with graphical representation in MATLAB (defining all states of the aircraft during flight); live video transmission for surveillance purpose and Intelligent control system for Online System Identification was developed & tested on a real flight.
7790 RUR
The Design, Implementation and Trajectory Generation for Small UAVs intelligence control for an unmanned underwater vehicle
This is a book about building an indoor testbed for the purpose of developing and validating new methodologies for collaboration and cooperation between heterogeneous Unmanned Air Vehicles (UAVs) as well as expandable to air-and-ground vehicle teams. It introduces a mathematical model for simulation and control of quadrotor Small UAVs (SUAVs). The model is subsequently applied to design an autonomous quadrotor control and tracking system.
5890 RUR
4 in 1 Intelligence Smart Home Wireless Control Kit for iOS Android intelligence control for an unmanned underwater vehicle
LifeSmart LS007CH 4 in 1 Intelligence Smart Home Wireless Control Kit for iOS Android
8937.37 RUR
Design,Fabrication & Testing of Underwater Remotely Operated Vehicle intelligence control for an unmanned underwater vehicle
This book throws light on the fundamentals of designing and construction of a simple underwater Remotely Operated Vehicle(ROV). It explains how an economical ROV can be fabricated and used for numerous applications. This book is handy for college-level students to understand and implement basic concepts of underwater vehicles. We have even included pictures, calculations and test results of an actual ROV prototype that we built ourselves, thus providing you with information and guidance required to build an ROV right from scratch.
4839 RUR