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business
organization theory and design

Questions and Answers of Organization Theory and Design

Research your organization’s command media for guidance and direction concerning the implementation of analytical decision support practices.(a) What requirements are levied on programs and SEs
HOW is the decision is to be documented and delivered?
WHAT accuracy and precision is required for the decision?
WHAT assumptions must be made to accomplish the decision?
WHAT criteria are to be used in making the decision?
HOW will the decision be used?
WHO is the user of the decision?
Is the timing of the decision crucial?
What is the degree of flexibility in the constraints?
WHAT are the boundary constraints for the solution set?
WHAT is the scope of the task to be performed?
WHAT is the central issue or problem to be addressed?
What are SE design and development rules for analytical decision making?
What format should be used for documenting engineering analyses?
What types of engineering analyses are performed?
What is system performance evaluation and analysis?
Contact a small, a medium, and a large organization.(a) What types of deliverable documentation does each of the contracts require?(b) When are these documents to be delivered?(c) Are there document
Research your organization’s command media.(a) What types of program documentation do the command media require for programs of all sizes?(b) What does the command media say about the level of
Why is it important to be sensitive to Export Control?
How should data exchanges between organizations be performed?
What mechanisms are used to officially release SE documentation?
What is the difference between approved data and released data?
What are product support data?
What are product design data?
What are product description data?
What are product data?
What is a Data Criteria List (DCL)?
What is a Data Accession List (DAL)?
What is a Data Item Description (DID)?
What is a Subcontract Data Requirements List (SDRL)?
What is the nominal sequencing and release of SE documentation?
What is a Contract Data Requirements List (CDRL)?
For Item 2 above, identify historical instances where the lack of engineering standards and conventions or the misapplication contributed to system or product failures.
Research the library or Internet for examples of other frame of reference systems that are used and identify the MISSION SYSTEM where used.
Investigate several contract programs within your organization.(a) Identify the engineering standards and conventions required by contract and others used voluntarily.(b) Identify what types of
How do we express movements relative to the observer’s X-, Y-, or Z-axes?
How are integrated EQUIPMENT Element component displacements and relationships characterized in terms of a 3-axis frame of reference?
What are some examples of local standards and conventions?
What are local standards and conventions?
Who establishes engineering standards?
What are some common standards and conventions issues?
What are some types of standards?
What is a convention?
Contact two contract programs within your organization.(a) What human factors requirements were levied on the system design?(b) Who are the Users/Operators of the system?(c) What critical
Research your organization’s command media for guidance and direction in implementing the human–system interface practices from an SE perspective.(a) What requirements are levied on SE
What are the performance effects of human-system interactions and outputs—such as PRODUCTS, BY-PRODUCTS, and SERVICES—on the environment, safety, and health of SUPPORT SYSTEMs and the general
What work task ergonomic factors should be considered in human-system interface designs.
What controls should be allocated for humans to perform versus EQUIPMENT—for examples, automated versus manual controls?
Compared to PERSONNEL, what tasks can the EQUIPMENT element—such as machines—perform best?
Compared to EQUIPMENT, what tasks can the PERSONNEL element perform best?
What are the key areas of interest related to HFE and their areas of concern?
What are the key analytical techniques for analyzing human–system interfaces?
What are the common types of human characteristics associated with human factors?
What are the five types of human factors?
What are areas of concern related to each HSI element?
What are the seven elements of Human–System Integration (HSI)?
What is Human Factors Engineering (HFE)?
What types of input/output (I/O) devices are available for human–system interfaces?
What are the classes of human–system interfaces?
What are ergonomics?
Contact a small, a medium, and a large program in your organization.(a) What IRS, ICD, or IDD requirements did their Contract Data Requirements List (CDRL) impose on the program?(b) Did the contract
Research your organization’s command media.(a) What minimum requirements does the media impose on interface identification, ownership, and control.(b) Are programs required to use a standard IRS,
Identified common challenges and issues in interface definition and control.
Provided common examples of interface standards.
Discussed HOW ICWGs control system interfaces.
Established a methodology for identifying and defining system interfaces.
Described HOW interfaces are identified and documented in an IRS, ICD, and IDD.
WHAT other systems experienced and discovered when interfacing to this source.
HOW the external system implements power and signal ground.
WHAT types of external grounding systems are available.
If a decision is made that the item requires hardware and software interfaces, decide if all hardware or software interfaces should be documented in a one or several ICDs/IDDs.
Address the utility of standalone versus integrated ICDs and IDDs.
Collaborate with the stakeholders, preferably as an Integrated Product Team (IPT).
Identify all of an item’s internal interfaces.
Under WHAT conditions is the interface to be employed?
HOW will the interface be controlled, security and privacy methods?
WHERE is the interface to be employed?
WHEN and HOW frequently is the interface to be employed—continuous or intermittent connectivity?
WHAT is to be exchanged across the interface—content, forces, and directional flow?
WHO are the interface stakeholders?
What are some rules for analyzing, designing, and controlling SYSTEM or entity interfaces?
Who chairs the ICWG?
What is an Interface Control Working Group (ICWG)?
How do you decide to develop and IRS, ICD, and/or IDD?
What is an Interface Design Description (IDD)?
What is an Interface Control Document (ICD)?
What is an Interface Requirements Specification (IRS)?
Who owns and controls SYSTEM and item interfaces at various levels of abstraction?
What is the methodology for designing interfaces?
How is the System Capability Construct applied to interface design?
How do you analyze interface interactions?
How are interfaces identified for and within a SYSTEM?
Consider a central composite design for an experiment with five input variables. Show that with a 1/2 fraction of resolution V of the 25 as the factorial part of the design all linear, quadratic and
Consider a simplex design with k = 4 input variables. (i) Write out explicitly the design-model matrix D. (ii) Outline the ANOVA table with r = 2 replications for each design point.
Consider an experiment with 5 input variables. (i) Obtain an appropriate 1/2 fraction of the 25 factorial to fit a first-order model. (ii) For the design chosen in (i) sketch the ANOVA table assuming
What are the Experimental Strategies for Increasing Knowledge
8. Consider the data for the product array design for the elastometric connec-tor shown in Figure 12.4.(a) Calculate the mean pull-o force and log variance of the pull-o force across the noise array
2. Reconsider the cake mix experiment described in exercise 9 of Chapter 8.The control factors that can be selected by the manufacturer are F: the amount of our; S: the amount of shortening; and E:
11. Steiner et al. (2007) describe a mixture-process variable (MPV) experiment conducted by students to nd an optimal homemade bubble solution for use in a battery operated bubble-blowing toy. The
8. If all three components in a mixture design have the same lower and upper constraints (L=0.20, U=0.80), use Table 11.6 to create an orthogonally blocked mixture design, for tting the Schee

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