Accession Number:

ADA499986

Title:

Assessing Capabilities of the High Energy Liquid Laser Area Defense System through Combat Simulations

Descriptive Note:

Master's thesis

Corporate Author:

AIR FORCE INST OF TECH WRIGHT-PATTERSON AFB OH GRADUATE SCHOOL OF ENGINEERING AND MANAGEMENT

Personal Author(s):

Report Date:

2008-03-01

Pagination or Media Count:

104.0

Abstract:

High Energy Laser HEL technology continues to improve and its place in the battlefield is ever evolving. By combining the high energy delivery of solid state laser technology with the efficient thermal management of liquid laser technology, HELLADS has two main advantages over any HEL predecessors. One, the configuration is small and light enough to be carried on more tactical aircraft such as fighters. Two, the thermal management greatly increases HEL fire power by increasing dwell time on target. To assess HELLADS operational capabilities, the test community has been challenged with how to effectively examine the advantages and limitations through a cost-effective manner. Modeling and simulation supports this assessment as it yields itself easily to relatively low cost and robust testing methodologies. The challenge comes with building credible models through validation and verification of test parameters and scenarios. An Air Force Standard Analysis Toolkit model, the Extended Air Defense Simulation Model EADSIM, is used in this study to meet these challenges. This research effort focuses on the assessment of the HELLADS operational capabilities through EADSIM. Of particular interest is the investigation of the envisioned HELLADS operational envelope and the potential advantages it offers over other HEL systems. Scenarios are applied to represent the Homeland Defense arena in which HELLADS is proposed to operate. Specifically, this study explores what factors impact HELLADS effectiveness and suitability in the Homeland Defense scenarios examined.

Subject Categories:

  • Lasers and Masers
  • Computer Programming and Software
  • Defense Systems

Distribution Statement:

APPROVED FOR PUBLIC RELEASE