1、=. VIL-HDBK-27b -1 VI 9777970 00q77b 2 -45-03- MIL-HDBK-276-1 (MC) 3 FEBRUARY 1984 c MILITARY HANDBOOK LIFE CYCLE COST MODEL FOR DEFENSE MATERIEL SYSTEMS DATA COLLECTION WORKBOOK f , AMSC NO. N3246 THIS DOCUMENT CONTAINS EPAGES i . . - -. . _ _ Provided by IHSNot for ResaleNo reproduction or network
2、ing permitted without license from IHS-,-,-DEPAR“T OF DEFENSE WASHIWJKIN, DC 20360 Life scie Cost Model for Defense Materiel Systems Data Collection Workbook MIL-HDM-276-1 (MC) 1. This handbook was prepared by the Marine Corps to be used for all Marine Corps materiel system procurements. This public
3、ation is not intended to supersede any procurement solicitation requirements. It is intended to be used estimates for Marine Corps procurements. 2. inclusion in the military standardization handbook series. J y; by both Government and industry analysts in developing life cycle cost -% b This publica
4、tion was approved on 3 February 1984 for printing and 3. This handbook describes the elements to be considered in determining the lie cycle cost of a materiel system. These cost elements and cost factors form the input and output structure of the Life Cycle Cost Model for Defense Materiel Systems. T
5、he handbook is meant to be a workbook for determining life cycle costs. Normally, a subset of the cost structure contained in this handbook and the Model will be prescribed for any given procurement. “he emphasis is on what costs should be considered in developing life cycle cost estimates for contr
6、olling and reducing total costs. The handbook and the Model are specifically designed to give the analyst and the program manager complete control over the subset of the Models cost elements which is applicable to the system being costed and to select the most appropriate cost estimating methodology
7、 for each cost element. 4. Beneficial comments (recommendations, additions, deletions) and any per- tinent data which may be use in improving this handbook should be addressed to: Cumnandant of the Marine Corps code m-1 Washington, DC 20380 by using the self -addressed Standardization Document Impro
8、vement Proposal (DD Form 1426) appearing at the end of this handbook or by letter. M ii o Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-HDBK-276 -1 NI m 9979970 0049988 b m MIL-HDBK-276-1 (MC) 1, The Marine Corps Life scie Cost Model for Defens
9、e Materiel Systems is the fifth in a series of engineering cost models developed in response to a Marine Corps requirement for a life cycle cost model which can be used in joint Service acquisition programs to insure that each Services life cycle costs be considered. The current model described by t
10、his handbook reflects continuing participation by analysts from all Services and industry to develop a model which is equally appropriate and convenient for all analysts and decision makers who must prepare or use life cycle cost estimates. 2, The Models basic cost element structure is derived from
11、MIL-STD-881, CXCD Cost Analysis Improvement Group (CAG) Osts Cost Development Guides, the Army 11 series pamphlets on life cycle cost, and the Tri-Tac Cost Effectiveness Program Plan. The model addresses all seven major types of Defense materiel systems: surface vehicle, electronic, aircraft, ship,
12、missile, ordnance and space. 3. The report structuresatisfie sthe requirementcofDDI5000.2, Major Systems Acquisitions Procedures, the DD CAIG, Department of the Army 11 series Pamphlets and the Fiscal Director of the Marine Corps. The cost reports, with supporting documentation, are appropriate for
13、presentation to all Services system acquisition review councils and the Defense System Acquisition Review Council (DSARC). 4. The model and this handbook are specifically designed to let the cost analysis community concentrate on the problem of developing cost estimates and determining the economic
14、impact of the many engineering and management decisions which must be made during system acquisition by freeing them from the problem of developing new cost element structures and models for each program. 5. The Model is available to all users through a commercial time sharing arrangement to elimina
15、te conversion problems, minimize software maintenance costs, maintain configuration control of the Model and its Government cost factors and to facilitate the sharing of data between Government and industry by electronic transfer of data bases between users. iii Provided by IHSNot for ResaleNo repro
16、duction or networking permitted without license from IHS-,-,-page SCYIPE . 1 General . 1 Canplicating factors 1 Divide and conquer 1 Provide structure. not method . 1 Fit the level of detail to the decision requirement . 2 Produce comparable results 2 Model data bases 3 System.(R logistics engineers
17、 on reliability and maintainability objectives; managers on such issues as schedule and cash 3 flow; proponents on operational use and manning requirements; and logisticians on level of repair, training, repairability and supply support. This lets individual analysts concentrate on the subsets of ea
18、ch life cycle cost data set which fall within their area of expertise while the Model keeps track of interdependencies with inputs made by other analysts. 1.4.2. -structure. The Model and this handbook provide a structure for cost analysis which accommodates both simple and complex 1 Provided by IHS
19、Not for ResaleNo reproduction or networking permitted without license from IHS-,-,-_- - - -_1_ _- -. NIL-HDBK-276 -1 NI 7979770 OOLi7979 O - MIGHDBK-276-1 (MC) systems developed in either simple or complex acquisition environments. As noted above, the Model allows the program manager total freedom t
20、o select those costs which should be developed in any given estimate. The Model allows the analyst the same freedom to select any mixture of cost estimating methodologies appropriate to the analysis, schedule and available data: parametric, analogy, engineering, expert opinion or market price. There
21、 are several major advantages to this approach: a. Independent estimates can be made using the same set of assumptions, thus allowing analysts to focus on estimating methods rather than on structure. b. The analyst is not forced to use dated or inappropriate parametric cost estimating relationships
22、(CERS) or procedures. C. Data entry is simplified since only data needed for the analysis is required, Dummy data to make inappropriate CERS work is never required. d. Competitive sensitive methodologies (Government or industry) are protected e. The most relevant cost estimating methodology, at the
23、time of the estimate, can be selected for various parts of the many estimates made during the various phases of the acquisition cycle, allowing the analyst to use a mixture of high and low resolution estimating procedures. f. Model maintenance costs are minimized. g. The Model can be used for any ty
24、pe of system during all phases of development, including product improvement programs. h. The Model is easy to use since the cost estimating methodology is selected by the analyst, not the Model. i. The Model does not require revalidation before each new application since parametrics, if used, are s
25、elected and validated by the analyst and not within the context of the Model. . The decisions 1.4.3. Pite level of detail to which use life cycle cost estimates are as disparate as they are complex. For example, engineering trades generally require a focused level of detail which is sensitive to the
26、 variables being examined, generally at the sub- system or component level. Program management decisions are generally concerned with broader, less this allows inflation factors to be applied to each production run to insure that changes in schedule and individual Service procurements are properly c
27、osted when presented in then-year (inflated) dollars. 1.5.5 UfUtbn . The inflation data base, covered in 5.11, contains password-protected DoD TOA and outlay deflators for the following budget categories: R for example, a ship, an air vehicle, a tracked vehicle, or aggregations of services, (e.g., s
28、ystems test and evaluation); and data. Level. Level3 elementsareelements subordinate to level2 major 6 elements; for example, an electric plant, an airframe, the power package/drive train, or type of service, (e.g., development test and evalua- tion); or item of data (e.g., technical publications).
29、3.2,4 m CU. An aggregation of hardware/computer programs or any of of its discrete portions, which satisfies an end-use function and is designated by the Government for configuration management. CIS may vary widely in complexity, size and type, from an aircraft, electronic or ship system to a test m
30、eter or round of ammunition. During development and manufacture of the initial (prototype) production configuration, CIS are those specification items whose functions and per- formance parameters must be defined (specified) and controlled to achieve the overall end-use function and performance. Any
31、item required for logis- tic support and designated for separate procurement is a CI. I . The following definitions are taken from MIL-881 33 and are provided to classify system compnents for the WBS data base. The WBS numbers for the WBS elements are shown in front of the element name headings,e.g.
32、 ,“U2 Sensors.“ 33.1 Electronics svstuwel Communications - 4904 Tactical Radios; Sensor Systems - SONUS; Navigation/Guidance Systems - ILAAS; Electronic Warfare Systems AN/QFC-54 Jammer; Support Systems - Multi- mtem Test Equipment. *. 3.3.1.1 eve1 cables, conduits, connectors; and other devices ass
33、ociated with the operational system to provide the complete electronics mission equipment. Ail effort directly related toother level3 elements is excluded. It also excludes all effort associated with system assembly, installation and checkout on site. 3.3.1.3 U Sensors. The sensors element refers to
34、 those equipments which are used to extend mans natural senses and equipment which detects and indicates terrain configuration, the presence of military targets, and other natural and man-made objects and activities by means of energy emitted or reflected by such targets or objects. The energy may b
35、e nuclear, electromagnetic-magnetic, including the visible and invisible portions of the spectrum; chemical, biological, thermal or mechanical; including sound, blast, and earth violence. This element includes, for example, radome, antenna, structural facilities, transmitter, receiver, information p
36、rocessor, exciter, and power supply. 3.3.1.4 U Communications . The communications element refers to those equipments used to receive and transmit messages of data from one person or place to another. This element includes, for example radome, antennae, transmitter, receiver, terminal equipment, int
37、ernal facility trunking, modem, cryptographic equipment, power supply, and interface equipment. It also includes internal communications such as public address, intercom, and radio used to transmit and receive the messages within the vehicle structure or complex, and leased-lines used for communicat
38、ion purposes. 3.3.1.5 J . The automatic data processing equipment element refers to a machine or group of interconnected machines consisting of input, storage, computing, control, and output devices which use electronic circuitry in the main computing element to automatically perform arithmetic and
39、other logical operations by means of internally stored or externally controlled programmed instructions. This element includes: central processors, large capacity storage data channels, input/output, peripheral equipment in operational support of data processing equipment and devices that are design
40、ed to convey data from its original state to a data-processing media. These equipments can be mechanical, electromechanical, electrical, or optical in nature, and are generally at the terminal ends of data ccmununication lines. (For example, transmission devices, image transmission and reception sys
41、tems, and data interface equipnent . 1 3.3.1.6 ll.5 -gg. The computer programs element refers to those programs and routines consisting of a deck of punched cards, magnetic or paper tapes, read-only memory (ROM) units (plug in type), or other physical medium containing a sequence of instructions and
42、 data in a form suitable for insertion into the computer and used to direct the computer to perform a desired operation or sequence of operations. These involve among other things, the analysis of the problem, preparationof flowdiagrams, preparing details, eveloping subroutines, allocation o storage
43、 locations, specification of input and output formats, testing, and producing the physical medium (i. chassis-mounted accessories such as the winch and power takeoff, tools and equipment; and on-vehicle materials. When not otherwise provided for, it includes crew accommodations. 3.3.2.1.6 w. The tur
44、ret assembly element refers to the structure and equipment installations required to provide the fighting- compartment element of combatant vehicles. This element includes, for example, armor and radiological shielding, attachments and appendages such as hatches and cupolas, the turret electrical sy
45、stem, and accommodations for personnel, weapons, and cmmand and control. The fire control stabilization system is excluded. 3.3.2.1.7 ll.1.7 Fire cm . The fire control element refers to that equipment installed in the vehicles which provides intelligence necessary for weapons delivery such as launch
46、ing and firing. This element includes, for example, radars and other sensors necessary for search, rendezvous and tracking, displays, sights or scopes, computer, computer programs, etc. 33.2.l.8 The armament element refers to the means for combatant vehicles to deliver fire on hostile targets and fo
47、r logistics, and other vehicles to exercise self-defense. This element includes, for example, the main gun, launchers, and secondary armament. Fire control systems are excluded. 3.3.2,1.9. . The body/cab element refers to the major component to be mated to a chassis to provide a complete vehicle hav
48、irig a defined mission capability. This element includes accommodations for personnel, cargo and such subsystems as need to be placed in proximity to operators . 3.3.2.1.10 11.1.18 S- . The special equipment element refers to that special equipment to be mated to a chassis or a chassis/body/cab asse
49、mbly to enable the achievement of a specific mission capability. It includes all items required to convert basic vehicle confi- gurations to special-purpose configurations. This element includes, for example, blades, booms, winches, etc., to equip wreckers, recovery vehicles, and other field work units. It also includes the furnishings and equipment for command, shop, medical, and other special-purpose vehicles. d 3.3.2.1.11 11.1.11 ComJ . The communications and navigation e