Project Management of Creation and Certification of Aviation Information Systems and Complexes

Major: Aviation Information Systems and Complexes
Code of subject: 7.173.01.O.009
Credits: 3.00
Department: Electronics and Information Technology
Lecturer: Hlinenko Larysa
Semester: 2 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of studying the course and the main learning outcome is to acquire knowledge and practical skills in the field of project management of aviation information systems and complexes at all stages of design, from initiation and planning to validation, verification and certification of these systems in compliance with the requirements of the current regulatory framework.
Завдання: The study of the academic course involves the development of student competences: general competences: - INT. Ability to solve complex research and / or innovation problems arising in the process of research, design, manufacturing and operation of avionics systems - GC 1. Ability to search, process and analyse information from various sources; - GC 5. Ability to develop and manage projects; professional competences: - PC 2. Ability to design and certify avionics systems and information systems of aircraft and ground systems; - PC 5. Ability to assess technical, economic, environmental, safety and other risks in the design and implementation of avionics systems and information systems of aircraft and ground systems; - PC 10. Ability to manage operational or educational processes in the field of avionics that are complex, unpredictable and require new strategic approaches.
Learning outcomes: As a result of studying the discipline, the student must be able to demonstrate the following learning outcomes: - understanding of the basic principles of project management for the creation of aviation information systems and complexes and knowledge of the basic project management procedures at all stages of design; - ability to develop the structure of the project management plan for the development of an aviation information system, be able to create a project schedule, identify, allocate and optimise resources; - knowledge of the sequence of actions of the aviation information system development process and the ability to determine the procedure for conducting technical expertise at each stage; - knowledge of the basic requirements for data in aviation, requirements, features and approaches to the development of databases in aviation information systems; - understanding of the procedure for assessing the functional hazards of aviation complexes, the ability to determine and take into account the security levels of systems in the organisation and conduct of testing, verification and certification of aviation complexes; - knowledge of the basic requirements for the process of developing multifunctional software for onboard and ground-based aviation information systems and complexes in accordance with current DO-178C and DO-278A standards; - knowledge of the content and regulatory requirements for the processes of verification and certification of hardware and software of aviation information systems; - knowledge and ability to apply basic regulatory documents related to the processes of creating aviation information systems and complexes; - knowledge of the composition and requirements for the documentation of the project for the creation of aviation information systems and complexes; - ability to present design results and justify them in a discussion with other students. As a result of studying the course, the student must be able to demonstrate the following programme learning outcomes: PLO 1. KN1. Knowledge of methods and tools for project management of creation and certification of aviation information systems and complexes PLO 2. SC 1. Search for the necessary data in scientific and technical literature, databases and other sources, analyse scientific and technical literature in domestic and foreign sources to determine the state and search for modern and promising developments in professional activities PLO 3. SC 3. To develop and implement engineering and business projects in the field of avionics, taking into account the goals, resource constraints, technical, economic, legal and security aspects
Required prior and related subjects: • Informatics in avionics • Design of avionics equipment and systems • Airborne and ground-based flight and navigation systems • Aerospace systems information technologies
Summary of the subject: The course examines the basic processes and procedures for managing projects of creating aviation information systems and complexes of various types, organised in accordance with the regulations governing these processes. The course covers the management of the development planning processes, the development itself, validation, verification and certification of hardware and software of AISC in accordance with the current legislation of Ukraine and international standards. The acquired knowledge will be implemented to gain skills and abilities in the process of performing practical tasks
Опис: 1. Fundamentals of project management. Basic concepts of project management. Specifics of project management for the creation and operation of aviation information systems and complexes (AISC). Aviation information systems and complexes (AISC) as an object of design. Initiation and planning processes in the development of a project management plan. Work breakdown structure (WBS) of the project. The main documents of the IT project. Project management of the creation of an onboard equipment complex (OEC). 2. Management of the planning processes for the development of hardware and software of AISC (according to DO-254, DO-178C and DO-278A). Project management plan for the creation of IS. Development and structure of the project management plan. Formation of the project WBS. Formation of a list of project activities (operations). Task/responsibility matrix. Managing the formation of requirements for IS. Planning the process of AISC software development. 3. Management of project schedule and cost planning. Determination of the logical sequence of AISC development work and critical success factors. Estimation of labour intensity and duration of the operation, resource requirements. Identification of connecting and key events (control points). Planning and organisation of project schedule management. Methods and tools for developing and managing the schedule: network schedule, Gantt chart. Conceptual project cost estimation and development of a basic project cost plan. 4. Planning and management of project quality assurance. Development of a quality assurance plan and procedures. Project risk analysis and management. Quality assurance of AICS on the example of the KBA. Safety analysis of onboard AICS. 5. Project management at the design stage. Detailing and refinement of plans. Key tasks and procedures for quality management at the design stage. Project risk control. Integrated management of the changes. Change coordination matrix. Project change log. Ensuring the integrity of configuration elements. 6. Project schedule, resource and cost management. Organisation of project execution and control. Schedule compression. Project resource management. Resource scheduling. Smoothing the need for resources. Project cost management. The method of mastered volume. 7. Project management at the stages of validation, verification and certification of AISC. Planning, methods, processes and activities of IS validation and verification processes. Validation of AISC as part of airborne or ground equipment in accordance with DO-254, DO-178C and DO-278A. Organisation and control of the results of software verification of on-board equipment. Organisation of software testing. Management of AISC certification. Regulatory regulation of AISC certification. Development, maintenance and control of documents required for the certification of on-board avionics software. Certification of onboard equipment complex (OEC).
Assessment methods and criteria: Oral and written interviews in the course of practical work and defence, control work, testing in the VLE
Критерії оцінювання результатів навчання: • Current control: task reports, oral interviewing, current testing – 44 points (44 %): practical works execution and defence - 30 points; tests - 14 points • Final control: control procedure, graded test – control testing, oral interviewing - 56 points Grades for laboratory work are assigned on the basis of determining the correctness, completeness and independence of the solutions obtained for each task: - the results obtained are correct, complete and obtained independently - 100% of the maximum score; - the results are correct, complete and obtained with significant assistance and correction from the teacher - 90% of the maximum score; - the solutions obtained in the work are correct, but incomplete and obtained with significant help and correction from the teacher - 75% of the maximum score; - the results obtained contain errors, but the approach to obtaining a solution and the use of tools for obtaining the solution are correct - 50% of the maximum mark. Current and control testing is conducted in the Virtual Learning Environment and the grade is assigned automatically for all test tasks. For essay type tasks, 100% of the maximum score is assigned in the manual assessment mode for a totally correct and complete solution, 85% for a generally correct solution with minor errors in calculations; 75% for an incomplete solution with some errors with a generally correct approach to the solution; 50% for significant errors and an incomplete solution with a correct approach; 30% for formulating a correct approach without implementing the solution.
Порядок та критерії виставляння балів та оцінок: 100-88 points - ("excellent") is assigned for a high level of knowledge (some inaccuracies are allowed) of the educational material of the component contained in the main and additional recommended literature sources, the ability to analyse the phenomena studied in their interconnection and development, clearly, concisely, logically, consistently answer the questions posed, the ability to apply theoretical provisions in solving practical problems; 87-71 points - ("good") is given for a generally correct understanding of the educational material of the component, including calculations, reasoned answers to the questions posed, which, however, contain certain (insignificant) shortcomings, for the ability to apply theoretical provisions in solving practical problems; 70 - 50 points - ("satisfactory") is assigned for poor knowledge of the educational material of the component, inaccurate or poorly reasoned answers, with a violation of the sequence of presentation, for poor application of theoretical provisions in solving practical problems; 49-26 points - ("not certified" with the possibility of retaking the semester control) is assigned for ignorance of a significant part of the educational material of the component, significant errors in answering questions, inability to apply theoretical provisions in solving practical problems; 25-00 points - ("unsatisfactory" with mandatory re-study) is assigned for ignorance of a significant part of the component's educational material, significant errors in answering questions, inability to navigate when solving practical problems, ignorance of the main fundamental provisions.
Recommended books: 1. Катренко А.В. Управління ІТ-проектами. Книга 1. Стандарти,моделі та методи управління проектами. Підручник / А.В.Катренко — Львів: «Новий світ-2000», 2013. – 550 с. 2. . Зіатдінов Ю. К. Стандартизація та сертифікація інформаційних управляючих систем : навч. посібник / Ю. К. Зіатдінов, І. Е. Райчев, О. Г. Харченко. — К. : НАУ, 2016. — 184 с. 3. Project Management Body of Knowledge (PMBOK® Guide)—Fifth Edition – Project Management Institute – 2013. - 589с. 4. Авіаційні правила України, Частина 21 "Сертифікація ПС, пов'язаних з ними виробів, компонентів та обладнання, а також організацій розробника та виробника" АПУ-21 (Part-21)», затверджено наказом МІУ №27 від 17.01.2014. 5. Павлиш В.А., Гліненко Л.К. Основи інформаційних технологій і систем: навч. посібник / В.А.Павлиш, Л.К. Гліненко. - Львів: Видавництво львівської політехніки, 2013. - 500 с. 6. RTCA DO-178C/ED-12C. Software Considerations in Airborne Systems and Equipment Certification 7. RTCA DO-278A. Software Integrity Assurance Considerations for Communication, Navigation, Surveillance and Air Traffic Management (CNS/ATM) Systems. Галузевий стандарт RTCA // www.rtca.org. 8. Електронний навчально-методичний комплекс «Управління проектами створення та сертифікації інформаційних авіаційних систем та комплексів» //https://vns.lpnu.ua/course/view.php?id=14155
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