Sample on Requirements Practice

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Introduction to Requirement Practice

In this Research, it will describes the requirement strategy of Tasmanian Mining Industry. This industry was developed in 1834 at Plunkett point (Souag, Mazo and Comyn-Wattiau, 2016). Tasmania mining operates in various sites such as Rosebery Mine: silver, lead, zinc mining and Rension mining: tin mining etc. In this research it also describes the corporate structure of Tasmania mining that it will be divided into General manger,production planning, mining operations, administration, quality, safety , risk. In this research,to being a project manager, it is the role to support for the design of the Mobile Medical Health Screening System (MHHSS). It also describes that to be a project manager, they give advice from Tasmanian operations element and general managers at the various sites.

It also describe that system of interest diagram, with the help of this diagram project will show the operational view, acquisition view and support view. It also identify the boundary of system and describe its functional and physical term which make an impact on system design. It also describe the importance of system-level trade. It also focus in RBS depending on the performance statement for each functional statement.

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System-level in System-of-Interest

System is refers to a combination which interact with the elements which are organized so that it will help to achieve one or more determined purpose. In this way, system collects various resources together related with the organization to achieve certain level of performance (Fricker, Schneider and Thuemmler, 2016).

Operational context diagram in system of interest is refers the task and activities, operational elements, information which exchanges are required to conduct the operations. This view defines that what should be needed in a solution-free way. It divided into various categories such as acquirers, which oversee the procurement of the system or products. Another are assessors who oversee the system's conformance to standards and legal regulation. Another person is communicators, who explain the system to other stakeholders in documentation and training materials.

Developers is a person who play a role to construct the system from having specification techniques. In operational activity, mainters are the person who manage the involvement of the system which are in operational manner. Suppliers also play an important role to build the hardware, software or infrastructure on which system will run. Supporting staff also give support to the users relating to product or system when it was running or starting (Souag, Mazo and Comyn-Wattiau, 2016). System administrators also help to start the system when it was deployed. Testers and users both are refers to such person who can test or define the function of the systems. The operational viewpoint provides graphic idea which is related to the architecture which include such idea which is related to the players and operation. This shows a specified point within the enterprise's timeline. As per operational viewpoint it will provide all the specialized equipment. It also provide a climate which controlled the environment. It also capture all the data which appropriate in nature.

There are different types of systems which includes as follows:

  • Closed and open system: Closed system of Mining Tasmania is isolated in form of external environment. They are only interested with useful system which open as per the business requirement.
  • Natural/human made and human modified system: Natural and human made system is classified to conduct with different human. In this aspect, human is modified with effective system which demonstrate for ascertain the natural environment.
  • Physical/conceptual system: The company is also focusing on physical system which carry to make effective results and performances (Fricker, Schneider and Thuemmler, 2016).
  • Precedented and Unprecedented: In this aspect, the cited firm is also determines their performance with focusing on largely precedented elements. Other system and products are also classified in synonymous.

Operation view

Operation view is the basic element which defines as the enterprise architecture of the department of defence framework. Other enterprise architecture framework is determines in Mining Tasmania with different operational view (Souag, Mazo and Comyn-Wattiau, 2016). Different sub views are also carrying elements for defining the requirement in term of boundary definition.

Acquisition view

Acquisition view is determines with effective process which acquire by human for considering and obtaining in different way. There are different types of acquisition process which including system with predominant the phase. There are different types of activities can be taken which perceive to the business needs and finishes upon retirement and disposal. In addition to this, acquisition phase is also differentiate the clearly between problem domain and contains logical description.

Support and sustainable view

In addition to this, project cost management is also considering with project management area which is responsible for ensuring the activities. In this aspect, the company can make better view of sustainable community. A view of the community is determining in three aspects which creates through circle that includes economy, society and environment (Fricker, Schneider and Thuemmler, 2016).

In this aspect, different system assist to make effective results with functional and physical term. It makes proper and effective relationship with each element to demonstrate system design. External design is creative which assess the performances as per the significance system. Capability system is also considering comprising effective results as per the requirement (Gadd, Williamson and Turner, 2016). In this context, following diagram shows effective relationship in different element which need to be make in proper way:

The above diagram shows that there is effective relationship between different element which need to be undertake to develop relations in positive aspect. Whole system is design with assess the system, sub system, assembly and component. It describes to attain the relevant results which undertake as integration and development phase. In addition to this, both part create their relation with each other element which need to be assure that profitability can be maintains as per the business results. With the help of proper resulting and view, it has been seen that there is positive relationship in different aspect. Operational plan would be develops with capability system which need to be modified as each level consistent. Requirements are formal statements are structural view which creating validation of the needs process that assist to analysis mission and objectives (Fricker, Schneider and Thuemmler, 2016).

In addition to this, acquisition concept is developing through description which assess the functions' system that includes different aspect such as stakeholders engagement, requirement definition and contracting issue. Design, production and verification is needed to perform different element for deployment concept. It is also includes a way for deploying the operations that determines through desire report. Further, retirement concept is describes the way which include system to remove operation and retired. There are various hazards are also takes place which need to be solve for create positive results in the process.

Requirement also creating impact on system design which make condition with effective quality attributes. In respect to make constraints under which it is operating is also taking as the performances, verification and rational statements which can be support to each requirement. Further, information which applicable in domain can be also operated in BRS and StRS for same rules and regulations. In addition to this, it is also creating balance issue to latitude the system specification. It makes proper level towards latitude which demonstrate details in each stakeholders' requirement. System specification is also creating matter for judgement in baseline documents forms. It is the starting point which included for effective outcomes and performances. In each line, details is also frames which include amount for different aspect (Huang and Luo, 2014).

Further, validating and requirement set is also frames in different number of ways which includes good top down requirement set. It includes engineering process that signifies the measurement of validation program. It is also incorporating for developing needs to ascertain the single statement and complete goal in effective manner. This is also creating analysis of the relevant elements which assist to frame for significance measurement (Souag, Mazo and Comyn-Wattiau, 2016). However, there are different types of roles are also played by the system engineering that are defines as follows:

Top down approach

In respect to make effective results, traditional engineering design method is frames with method on the bottom approach in which it is also known as the components that are combined with constructive elements. Assemble system is also redesigned with implementing desired properties and design is also modifying in iterative manner. It is creating impact until system cannot meet with desire criteria. This approach is also valid and extremely useful for relatively straightforward problems. In addition to this, complex problems cannot be easily solves so that it is important to make bottom approach for make effective system which begins through addressing the different elements (Fricker, Schneider and Thuemmler, 2016).

With development of the design, top down system is conducted with implementation of using illustration in simple tier system. Aim of the system is also providing with rigorous, reproductive process through complex system can be reduce in effective way. In this way, relation in different elements also helpful to make series that are requires for performing simple system in fact. Second principle facet with the system that creating process by which components, assemblies and sub system can be develops in effective way. For undertake these components, desire system can be achieve which make purpose for profitable results (Fisher, 2016).

Focus on life cycle

System engineering is also focusing on the entire system of life cycle which includes to make effective program in bottom line integration. With the help of business needs, logical, physical and detailed design can be implemented that assist to pertain construction, production and utilization. Further, significant role can also develop with each phase which need to be undertake to analysis the proper system. There are different types of phases are included in the accounts at all times. Within the past elements, it has been ensures that too common considering the design is also makes options for solving different issues (Jolly, Hyatt and Summerhill, 2017). With ascertain the acquisition phase, little attention can make life support aspect in proper manner. However, lack of consideration is making leading larger than the expected costs. With ascertain the utilization, budget is another significant element which assist to ensure requirement of each work practices. In this way, risk element can be assess with determining the consideration for developing the performances. In this way, it is important to creates insufficient system and services as per the requirement. Further, life cycle is also focusing on the requirement which ascertain with effective capability system for understand the product and services quality (Rahman, Haron and Harun, 2014).

System optimization and balance

It is not sure that following of all combination are optimized in systematic way. With applying different elements, it has been sure that elements can be leads with optimization system. The system is also architecture which can be represent in term of balancing the large number of elements (Food and Drug Administration, HHS, 2016). There are different types of factors which creating issue such as economic, human, moral, ethical and cultural elements. There are various future advantages which make top down approaches in system engineering that make system optimization. There are different elements which cannot make guarantee in a bottom up design method. Further, balance must is also strutted across the whole life cycle. Metrics is also determines with cost effectiveness which must be ensure that all phases for just acquisition (Smialek and Nowakowski, 2015).

Integration of discipline and specialities

With the help of focusing on system engineering, the company can ascertain their outcomes and performance. It makes effective relationship with strong interdisciplinary approach. In the figure, it has been shows that project management determines effective results and performances through maintenance of engineering, quality assurance and integrated logistics system (Hughes, Van Dam and Feiner, 2014). It possesses aim in which profitability can be develops in special aspect. With ascertain the business results, it has been shown that technical discipline is also mentioned with different components. With ascertain the different aims and objectives, system engineering functions is break up with the different task and components which would be develops in business needs and requirement. In addition to this, task into different components can be develops with disparate the discipline and specialities (Peissner, Schuller and Zimmermann, 2014). It can be provides to the management which integrates the efforts to produce the system in effective way.

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List the system external interfaces and label them in the context of diagram for operational view

In respect to considering the operational view, there are different elements which signifies to the context of label and diagram (Knauss, Damian and Borici, 2014). In this aspect, it has been ensures that there are different types of external interface which create label to the different elements. It makes creative results and performances to take various advantages. It includes following elements which considering with technical role and providing of different essential aspect which need to be taken at workplace. With technical issues, project management is responsible to makes proper budget that assure targets and trade off elements within the environment. There are different types of products systems take place which need to be taken for assess the business review. There are also different types of results ascertain with redefines the activities. Life cycle begin different types of system which taken for development of the business (Niu, Da Xu and Niu, 2014). The business needs for the system is providing the input for acquisition. It assists to make focuses on bringing the system into different services. There are some effective outcomes can be manage funds and operations.

References

  • Niu, N., Da Xu, L. and Niu, Z., 2014. Analysis of architecturally significant requirements for enterprise systems. IEEE Systems Journal, 8(3), pp.850-857.
  • Knauss, E., Damian, D. and Borici, A., 2014, August. Openness and requirements: opportunities and tradeoffs in software ecosystems. In Requirements Engineering Conference (RE), 2014 IEEE 22nd International (pp. 213-222). IEEE.
  • Peissner, M., Schuller, A. and Zimmermann, G., 2014. Requirements for the Successful Market Adoption of Adaptive User Interfaces for Accessibility. Universal Access in Human-Computer Interaction. Design for All and Accessibility Practice. 8516, pp. 431-442.
  • Hughes, J.F., Van Dam, A. and Feiner, S.K., 2014. Computer graphics: principles and practice. Pearson Education.
  • Smialek, M. and Nowakowski, W., 2015. From Requirements to Java in a Snap: Model-Driven Requirements Engineering in Practice. Springer.
  • Food and Drug Administration, HHS, 2016. Medical Gas Containers and Closures; Current Good Manufacturing Practice Requirements. Final rule. Federal register. 81(223). p.81685.
  • Rahman, A.A., Haron, A. and Harun, M., 2014. An Empirical Study of the Software Project Requirements Engineering Practice in Malaysia Public Sector-A Perspective from the Stakeholders' Challenges. International Journal of Computer Theory and Engineering. 6(1). p.52.
 
 
 
 
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