Riverine Sustainment 2012
Abstract
This technical report analyzed the Navy's proposed Riverine Force (RF) structure and capabilities for 2012. The Riverine Sustainment 2012 Team (RST) examined the cost and performance of systems of systems which increased RF sustainment in logistically barren environments. RF sustainment was decomposed into its functional areas of supply, repair, and force protection. The functional and physical architectures were developed in parallel and were used to construct an operational architecture for the RF. The RST used mathematical, agent-based and queuing models to analyze various supply, repair and force protection system alternatives. Extraction of modeling data revealed several key insights. Waterborne heavy lift connectors such as the LCU-2000 are vital in the re-supply of the RF when it is operating up river in a non-permissive environment. Airborne heavy lift connectors such as the MV-22 were ineffective and dominated by the waterborne variants in the same environment. Increase in manpower and facilities did appreciably add to the operational availability of the RF. Mean supply response time was the biggest factor affecting operational availability and should be kept below 24 hours to maintain operational availability rates above 80%. Current mortar defenses proposed by the RF are insufficient.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 01, 2007
- Accession Number
- ADA469560
Entities
People
- Cheng H. Kiat
- Everett C. Williams
- Gil Nachmani
- James M. Turner
- Kristopher A. Olson
- Matthew C. Mangaran
- Michael F. Galli
- Michael G. Mortensen
- Neil D. Wharton
- Thomas F. Schmitz
Organizations
- Naval Postgraduate School