Phased array radar resource management using continuous double auction


This paper addresses the matter of allocating resource and selecting operational parameters for multiple tasks for an electronically steered phased array radar system. The continuous double auction parameter choice (CDAPS) algorithm is presented, that controls the operational parameters such that a resource constraint is glad. The algorithm optimises the whole multiple task parameter selection drawback, in contrast to the common approach of optimising the parameter selection for every single task separately. It's shown that CDAPS produces a near-optimal solution for the single resource discrete parameter choice drawback. Simulated situations verify that this near-optimum solution considerably improves upon conventional rule based strategies. The extra desirable characteristics of the CDAPS algorithm: computational potency, scalability, and speedy reaction, also are highlighted.

Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here

PROJECT TITLE :Dynamic Polarization Control of Two-Dimensional Integrated Phased ArraysABSTRACT:Simultaneous 2-dimensional (2-D) beam steering and dynamic polarization management (DPC) of the radiated electrical field in 2-D phased
PROJECT TITLE :Ultrasonic phased array detection of internal defects in composite insulatorsABSTRACT:To cut back the danger imposed by use of defected composite insulators on the operation of power grids, this paper introduces
PROJECT TITLE :Design of Phased Arrays of Series-Fed Patch Antennas With Reduced Number of the Controllers for 28-GHz mm-Wave ApplicationsABSTRACT:New changed and series-fed patch antenna arrays with beam-steering capability
PROJECT TITLE :EMF Exposure Study Concerning mmWave Phased Array in Mobile Devices for 5G CommunicationABSTRACT:The electromagnetic field (EMF) exposure to millimeter-wave (mmWave) phased arrays in mobile devices for 5G communication
PROJECT TITLE :A 2.45 GHz Phased Array Antenna Unit Cell Fabricated Using 3-D Multi-Layer Direct Digital ManufacturingABSTRACT:This paper reports on the look, fabrication and characterization of a 3-D printed RF front finish for

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry