Required knowledge includes: problem solving, implementation and improvement processes, philosophies and techniques including problem solving, brainstorming, decision-tree, trade-off tables, Kaizen, TQM and tools of TQM implementation of specific avionic engineering projects incorporating problem solving, improvement processes, philosophies and techniques, including ILS continuous, mass, batch, jobbing or prototype production processes, sequential and cellular manufacture and assembly, JIT, and competitive (lean) manufacturing implementation of specific avionic engineering projects within continuous, mass, batch, jobbing or prototype production processes, sequential and cellular manufacture and assembly, JIT, competitive (lean) manufacturing, design for reliability, optimum maintenance and computer-managed maintenance significance and characteristics of software, test and analysis equipment, materials, components and systems, support structures, power supply, methods and processes, principles and techniques, control and supervisory systems to the application can be explained functional attributes of resources relationship of essential attributes to application function classification of attributes as essential versus desirable the value of desirable attributes methods of accessing and using alternative information sources appropriate sources of information trade language and descriptions reasons for using particular hardware and software methods of using hardware and software avoidance of electromagnetic interference problems the reasons for using particular scientific principles reasons for using particular calculations and assumptions reasons for providing for particular materials properties in the engineering application reasons for selecting resources with reference to functional or performance specification of system and components of application trade language descriptions used in specification procedural steps for implementation, commissioning and maintenance purposes graphical and documentary options rationale for graphics and documents raised can be explained in the context of application, project and contractual requirements implementation of design, development, installation, commissioning and maintenance procedures in the context of the specific application installation, programming, commissioning and maintenance of computer and control hardware and software in the context of the specific application design implementation review procedures Required skills include: researching, evaluating and implementing f specific avionic engineering projects using ILS processes that may encompass problem solving, implementation and improvement processes, philosophies and techniques including problem solving, brainstorming, decision-tree, trade-off tables, Kaizen, TQM and tools of TQM researching, evaluating and implementing specific avionic engineering projects within continuous, mass, batch, jobbing or prototype production processes, sequential and cellular manufacture and assembly, just in time (JIT), competitive (lean) manufacturing, design for reliability, optimum maintenance and computer-managed maintenance selecting test and analysis equipment, materials, components and systems, support structures, power supply and control systems appropriate to particular engineering applications identifying functional attributes of test and analysis equipment, materials, components and systems, support structures, power supply and control systems identifying essential attributes and desirable attributes in preparation for investigation, research and sourcing establishing provision for control systems from expert advice using computer hardware and software for gathering and analysing information applying scientific principles in the choice of test and analysis equipment, materials, components and systems, support structures, power supply and control systems making assumptions and calculations to justify choice of test and analysis equipment, materials, components and systems, support structures, power supply and control systems selecting materials properties for the engineering application selecting test and analysis equipment, materials, components and systems, support structures, power supply and control systems appropriate for the engineering application using relevant trade language specifying appropriate technical support specifying implementation, installation, commissioning and maintenance documentation and procedures providing for control system requirements using computer hardware and software and effectively in the design and development process of the engineering applications preparing design graphics and documentation to satisfy application and contractual requirements giving feedback on variations ensuring provision for control systems completing reports, records and design documentation |