Human System Integration in .NET

Use Code128 in .NET Human System Integration
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Human System Integration
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Table 44.3 continued HSI element Manpower 1. 2. 3. 4. 5. 6. 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 1. 2. 3. 4. 5. 6. 7. 1. 2. 3. 4. Example Areas of Concern Manpower requirements Deployment considerations Team and organizational structure Operating strength Manning concepts Manpower policies Personnel selection and classi cation Demographics Accession rates Attrition rates Career progression and retention rates Promotion ow Personnel training and pipeline Quali ed personnel where and when needed Projected user population/recruiting Cognitive, physical, and educational pro les Training concepts and strategy Training tasks and training development methods Media, equipment, and facilities Simulation Operational tempo Training system suitability, effectiveness, ef ciency, and costs Concurrency of system with trainers Safety of design and procedures under deployed conditions Human error Total system reliability and fault reduction Total system risk reduction
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Personnel
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Training
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Health hazards
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1. Health hazards induced by systems, environment, or task requirements 2. Areas of special interest include (but not limited to): a. Acoustics b. Biological and chemical substances c. Radiation d. Oxygen de ciency and air pressure e. Temperature extremes f. Shock and vibration g. Laser protection 1. 2. 3. 4. 5. 6. 7. Threat environment Identi cation friend or foe Potential damage to crew compartment and personnel Camou age/concealment Protective equipment Medical injury Fatigue and stress
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Source: MIL-HDBK-46855A, Table 1: HSI Elements and the Areas of Concern for Each, p. 20.
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44.5 Human Factors Engineering (HFE)
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1. Compared to EQUIPMENT, what tasks can the PERSONNEL element perform best 2. Compared to PERSONNEL, what tasks can the EQUIPMENT element such as machines perform best 3. What controls should be allocated for humans to perform versus EQUIPMENT for examples, automated versus manual controls 4. What work task ergonomic factors should be considered in human-system interface designs. 5. 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 public Answers to these questions require specialty skills referred to as Human Factors Engineering (HFE). DOD 5000.2-R (Section C5.2.3.5.9.1) describes HFE as established to develop effective human machine interfaces, and minimize or eliminate system characteristics that require extensive cognitive, physical, or sensory skills; require excessive training or workload for intensive tasks; or result in frequent or critical errors or safety/health hazards. This leads to the question: WHAT do HFEs investigate The answer resides in understanding our next topic, HFE analyses.
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HFE performs various analyses such as manpower, personnel, training, and safety/health hazards to ensure that System Performance Speci cation (SPS) requirements are met. Human Factors (HF) engineers employ various tools and methods to perform operational sequence evaluations, timeline and task analyses, and error analyses. Since these decisions have an impact on the SPS and item development speci cation requirements, HFE should be an integral part of system and speci cation development activities beginning during the proposal phase. Failure to do so may have a major impact on contract technical, cost, and schedule delivery performance as well as severe consequences if catastrophic failures occur after deployment of the system, product, or service. The DoD Human Factors Engineering Critical Process Assessment Tool (CPAT) (Section 1.1.3) identi es three analytical HFE techniques for application to human system interface design decision making: Operational Sequence Evaluations [D]escribe the ow of information and processes from mission initiation through mission completion. The results of these evaluations are then used to determine how decision action sequences should be supported by the human system interfaces. Task Analysis [T]he study of task and activity ows and human characteristics that may be anticipated in a particular task. Task analysis is used to detect design risks associated with human capabilities, such as skill levels and skill types. Task analysis also provides data for man machine trade-off studies. The results of a task analysis allow the system designer to make informed decisions about the optimal mix of automation and manual tasking. Error Analysis [I]s used to identify possible system failure modes. Error analysis is often conducted as part of human machine trade-off studies to reveal and reduce (or eliminate) human error during operation and maintenance of the system. The error analysis results eventually are integrated into reliability failure analyses to determine the system level effects of any failures.
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