Andere Kunden interessierten sich auch für
![Time Delayed Phased Array Antenna System and Its Application]( "Time Delayed Phased Array Antenna System and Its Application")
Time Delayed Phased Array Antenna System and Its Application44,99 €![Low Power Ultrasonic Phased Array Antenna Using ZYNQ-SoC]( "Low Power Ultrasonic Phased Array Antenna Using ZYNQ-SoC")
Low Power Ultrasonic Phased Array Antenna Using ZYNQ-SoC28,99 €![A framework for adaptive weather sensing using phased-array radar]( "A framework for adaptive weather sensing using phased-array radar")
A framework for adaptive weather sensing using phased-array radar35,99 €![Resource Allocation in All-Optical Networks]( "Resource Allocation in All-Optical Networks")
Resource Allocation in All-Optical Networks48,99 €![Optimized Resource Allocation for Physical Layer of Mobile WiMAX]( "Optimized Resource Allocation for Physical Layer of Mobile WiMAX")
Optimized Resource Allocation for Physical Layer of Mobile WiMAX30,99 €![Resource Allocation in Wireless Networks]( "Resource Allocation in Wireless Networks")
Resource Allocation in Wireless Networks56,99 €![Phased-Array Radar Design]( "Phased-Array Radar Design")
Phased-Array Radar Design140,99 €
In this study, the problem of optimal resource allocation in real-time systems is studied. A recently proposed resource allocation approach called Q-RAM (Quality of Service based Resource Allocation Model) is investigated in detail. The goal of the Q-RAM based approaches is to minimize the execution speed in real-time systems while meeting resource constraints and maximizing total utility. Phased array radar system is an example of a system. In this system, multiple targets are tracked by the radar system simultaneously requiring processor and energy resources of the radar system. In the present study, first, the Q-RAM solution approach to the radar resource allocation problem with single resource type is extended to give a global optimal solution in all possible termination cases. For the case of multiple resource types, the Q-RAM approach can only generate near-optimal results. In this study, for the formulated radar resource allocation problem with multiple resource types, theMethods of Feasible Directions are considered as an alternative solution approach.