Operations Domain Solution Dependencies in .NET

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Operations Domain Solution Dependencies
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The multi-level Operations Domain Solution is highly iterative and requires close collaboration and coordination with the development of the Requirements, Behavioral, and Physical Domain Solutions as shown in Figure 26.3. Iterations are also required to ensure that the SYSTEM OF INTEREST (SOI) is properly balanced that is, optimal from an overall development and life cycle perspective in terms of technical, cost, schedule, support, and risks.
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Operations Domain Solution Development Sequencing
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The Operations Domain Solution evolves slightly behind but concurrently with the Requirements Domain Solution and ahead of the Behavioral and Physical Domain Solutions as shown in Figure 23.2.
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Operations Domain Solution Development Responsibility
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Responsibility for the Operations Domain Solution resides with the program s Technical Director or Project Engineer and is usually delegated to a Lead SE for the program. The Lead SE facilitates the development of the Operations Domain Solution by ensuring that all operational and disciplinary stakeholder interests are represented in the operational architecture and System Concept of Operations (ConOps). As key elements of the Operations Domain Solution are approved and released, Con guration Management (CM) administers formal change management in accordance with direction from a Con guration Control Board (CCB) or Software Con guration Control Board (SCCB) of SYSTEM or entity stakeholders.
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The Operations Domain Solution is structured around a framework referred to as the operational architecture. The operational architecture identi es the entities that interact during all phases of the mission. These entities include persons, places, roles, or things that is, objects. The Uni ed Modeling Language (UMLTM) refers to these as actors. Whereas Figure 17.2 symbolizes actors as analytical stick gures, the operational architecture typically employs clip art objects such as
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38.3 Operations Domain Solution Development Methodology
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13 Geophysical & Natural Communications Threats 14 System of Interest System of Interest (SOI) (SOI)
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10 External External Human-Made Human-Made Systems Systems
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Figure 38.1 Mobile Transportation System Operational Architecture Example
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buildings, trucks, and computers that more closely resemble the real world. Figure 38.1 provides an illustration of a Car-Driver System and how it communicates with other systems. While operational architectures can be developed for any entity within a system, most are developed for the upper system levels of abstraction SYSTEM, PRODUCT, or SUBSYSTEM from a User s perspective. Consider the following example:
An operational architecture of a printed circuit board in a desktop computer system may be of limited interest to most computer Users. In contrast, NASA s JPL Mars Exploration Program users are very interested in various aspects of the operational architectures for landing systems and deployment of their rovers including HOW events during those phases may impact the designs of their EQUIPMENT.
The key elements of an operational architecture originate and are derived using the System Element Architecture template shown in Figure 10.1. In general, the intent of the operational architecture is to EXPOSE the actors, relationships, and interactions of the MISSION SYSTEM, SUPPORT SYSTEM, and their OPERATING ENVIRONMENT. Typically, two or more interoperable, organizational assets such as the MISSION SYSTEM and SUPPORT SYSTEM are operationally con gured and integrated to conduct missions to achieve outcome-based results.
The Operations Domain Solution is developed as a key element of the SE Process Model as shown in Figure 26.1. The highly collaborative and iterative integration of the Operations Domain Solution with the Requirements, Behavioral, and Physical Domain Solutions is often very chaotic and confusing.
Developing an Entity s Operations Domain Solution
We can minimize the chaos and confusion by applying an iterative methodology that enables us to create the Operations Domain Solution. The methodology represents one of many approaches for developing the Operations Domain Solution. View these steps as an example and tailor them to suit your business domain and systems applications. Step 1: Step 2: Step 3: Step 4: Step 5: Step 6: Step 7: Step 8: Step 9: Step 10: Step 11: Step 12: Step 13: Conduct a mission analysis. Identify system elements and actors. Develop actor-based operational architecture. Develop system operations work ow sequences. Allocate mission operations to phases of operation. Establish the Mission Event Timeline (MET). Translate mission operations into system use cases and scenarios. Identify the system modes and states of operation. Derive system capabilities from use cases and scenarios. Develop the system Concept of Operations (ConOps). Resolve critical operational and technical issues (COIs/CTIs) and risks. Verify and validate operational solution. Establish and maintain the Baseline Concept Description (BCD).