AEROSPACE REPORT NUMBER: TOR-2007(8546)-6018 (REV. B), MISSION ASSURANCE GUIDE (01-JUN-2012
AEROSPACE REPORT NUMBER: TOR-2007(8546)-6018 (REV. B), MISSION ASSURANCE GUIDE (01-JUN-2012)., The primary purpose of the Mission Assurance Guide (MAG) is to provide
practical guidance to personnel of The Aerospace Corporation1 (Aerospace) and,
in general, National Security Space (NSS) program office personnel, who are
responsible for executing mission assurance (MA) functions that are key to
achieving program and mission success.
The Aerospace program office, engineering and laboratory personnel routinely
carry out MA functions within the scope of the General Systems Engineering
and Integration (GSE&I) role that Aerospace fulfills in support and on behalf of
its customers. Although the initial motivation for the guide was to directly
address such Aerospace MA functions, its content has been produced and
assembled with the intent that it be generally suitable for use by personnel
belonging to any organization that has GSE&I and MA responsibilities. The
main limitation of scope of the guide is determined by the underlying
assumption of separation between acquisition authority functions, i.e.,
�government-side� acquisition management functions, and prime contractor
system design and production functions, as normally defined in standard NSS
space program contractual stipulations. Thus, the guide addresses MA functions
and tasks that are to be carried out by an NSS acquisition-authority government
organization, or by a GSE&I-support entity that carries out these functions and
tasks on behalf of the acquisition entity. It does not concern itself with MA
functions that are typically carried out by the production entity, i.e. the prime
contractor that is responsible for developing and executing the NSS system
design and production activities. Certain prime contractor tasks and products,
however, are addressed and identified as �enabling tasks and products� in those
frequent cases in which their execution and completion constitutes a necessary
prerequisite and point of departure for the execution of acquisition-entity MA
tasks. The above distinction is key to understanding the assumptions underlying the
MAG concept and content. The first assumption is that all NSS system acquisitions are based on the same basic duality between a government
acquisition entity with its supporting organizations, and a prime contractor entity
with its subcontractor and supplier organizations. A parallel and related
assumption is that the acquisition authority is usually responsible for defining
system concept and user requirements, whereas the prime contractor is
responsible for interpreting and decomposing requirements into system design
specifications, and for executing the design onto the production of a functioning
system that is delivered to the acquisition entity and one or more end-users. The
final basic assumption follows from recognition of the above principle of
contractually stipulated acquisition duality and is the most directly relevant to
understanding the way the guide is conceived and organized: in the realm of
acquisition entity responsibility, it holds that it is always possible to identify and
define sets of tasks that have the primary purpose of validating and verifying
program and system development activities carried out by the prime contractor
entity. In essential simplified terms, the guide assumes that the prime
contractor�s fundamental responsibility is to design and produce a system that
performs functions defined according to user needs and acquisition entity
requirements. In addition, it assumes that, besides tending to other basic
management acquisition responsibilities, the acquisition entity MA
responsibilities must also focus on validating its own system requirements, on
making sure that the prime contractor applies bona fide processes and practices
in developing the system, and, ultimately, on verifying that the system can
perform at the level specified by the validated requirements. In accordance with the assumptions and concepts introduced above, this guide
describes principles and practices used by informed and authorized MA
participants in the acquisition process. As previously mentioned, this may
include Aerospace and its government customers, as well as GSE&I contractors
and support organizations that have properly executed and implemented the
appropriate and necessary non-disclosure agreements with Aerospace and any
other affected parties. Regardless of the specific case of application, the main
objective of the guide remains that of providing practical guidance for executing
tasks that are directly pertinent to the NSS independent technical assessment
(ITA) function, such as those performed by Aerospace in its Federally Funded
Research and Development Center (FFRDC) charter. Aerospace supports NSS
MA with overall systems engineering assistance as well as detailed technical
engineering and laboratory expertise. Aerospace corporate expertise spans all of
the disciplines involved in space system acquisition and MA support functions.
When applied to MA functions executed by other organizations, the guide may
be tailored, in scope and/or depth of application, as deemed appropriate by the
acquisition organization designated by the NSS acquisition authority as the
organization primarily responsible for MA execution. The MAG defines an overarching MA framework that describes processes,
disciplines, and associated executable tasks which are recommended for and applicable to all NSS programs supported by Aerospace. This MA framework
includes �best practices� guidance that Aerospace program office, engineering,
and laboratory personnel can apply, in the context of the real-life constraints
associated with a specific program. Where necessary, the guide refers to and
complements other reference instruments and documents that provide guidance
for the definition, tailoring, execution, and assessment of MA functions and
tasks performed according to Aerospace-recommended practices. Figure I-1
provides a conceptual framework of the role of the guide�represented by
blocks shaded in red�in relation to these other instruments, such as The
Aerospace Corporation�s Systems Engineering Handbook and Test and
Evaluation Handbook. Tailoring guidance (identified in the figure by the block
shaded in striped pattern) may be available at the individual program level, but
is currently not explicitly organized in generally applicable practices that can be
effectively documented in the guide. When seeking more detailed guidance and
insight for the execution of specific technical tasks, please consult the references
provided as the elements that directly support and complement the purpose and
contents of the guide. In structural terms, the MAG is organized around the definition and discussion
of core MA processes (CMPs) and supporting MA disciplines (SMDs), which
are assigned to specific program contractual acquisition phases and may also be
associated with specific system segments, elements and components that are
defined in the system work breakdown structure (WBS). Chapter 1 introduces
the core MA principles, processes, and disciplines. Chapter 2 is a MA
verification roadmap that provides the structured hierarchy and organization of
tasks, which relates them to the appropriate CMPs, SMDs, program phase, and
WBS. Chapter 3 discusses MA metrics and methods for assessment and
standardized evaluation of MA task plans and executions, which can be carried
out utilizing the assessment tools provided with the prototype Mission
Assurance Verification Matrix (MAVM) task database software that is
referenced in the guide. Chapters 4 through 16 individually cover each of the six
CMPs and seven SMDs. The guide also includes separate appendices for
definitions, acronyms, and a sample of one of the MAVM task database outputs.