| Yeterlilik Kodu | TR0030004247 | |
| Yeterlilik Adı | Endüstri Mühendisliği Tezli Yüksek Lisans Diploması | |
| Sorumlu Kurum | Ankara Yıldırım Beyazıt Üniversitesi | |
| Sorumlu Kurum İletişim Bilgisi | Ankara Yıldırım Beyazıt Üniversitesi Esenboğa Külliyesi, Esenboğa/ANKARA | |
| Sorumlu Kurum URL | http://www.aybu.edu.tr | |
| Yönelim | - | |
| AYÇ Seviyesi | 7 | Yeterlilik TYÇ’ye yerleştirilmemiştir. |
| TYÇ Seviyesi | 7 | |
| Sınıflandırma (Tematik Alan) | Yönetim ve idare | |
| Sınıflandırma (Meslek Kodu) | - | |
| Kategori | - | |
| Kredi Değeri | - | |
| Programın Normal Süresi | - | |
| Program Profili (Amaç) | - | |
| Öğrenme Ortamları | - | |
| Öğrenme Kazanımları (Tanım) |
| |
| Anahtar Yetkinlikler | - | |
| Ölçme ve Değerlendirme Yöntemleri | Bu program İngilizce olarak sunulmaktadır. Her dönem en az bir vize sınavı uygulanır. Vizelerin yanı sıra, her dönemin başında verilen dönem içeriğinde tarihleri belirtilen proje ve ödevler verilir. Her dönemin sonunda, öğrencinin final sınavına girmek zorundadır. Kriterler (ara sınav, proje, ödev ve final gibi) ve dönem sonu notuna etki oranları dönem başında dağıtılan ve/veya web sitesinde yayınlanan ders içerikleri açık biçimde belirtilir. | |
| Kalite Güvencesi | - | |
| Giriş Şartı | Programa başvuran adayların, ALES sayısal puanlarının en az 70 olması ve KPDS/ÜDS/YDS puanlarının en az 55 olması gerekmektedir.Lisans not ortalamasının 4 üzerinden en az 2.50 olması gerekmektedir.Bu koşulları sağlayan adaylar mülakat yoluyla değerlendirilmektedir. | |
| Başarma Şartları | Yüksek lisans programı, toplam 21 krediden (52,5 AKTS) az olmamak koşuluyla en az yedi ders, seminer ve tez çalışmasından oluşur. | |
| İlerleme Yolları (İlişki Türü) | Endüstri mühendisinin görevi; endüstri kavramını bir arada düşünmek ve bu sistemlerin tasarımını yapmak, bu sistemleri planlamak ve yönetmektir. Bir sistemde kaynakları en iyi şekilde kullanmak “Endüstri Mühendisi”nin görevidir. Endüstri Mühendislerinin en çok çalıştıkları faaliyetler; Üretim Planlama, ve Kontrol, İş Etüdü, Yatırım Planlaması, İnsan gücü Planlaması, İş Yeri Düzenleme, Proje Yönetimi, İş Değerlendirme ve Ücret Sistemleri ve Yönetim Bilişim Sistemleridir. | |
| Yasal Dayanağı | - | |
| Geçerlilik Süresi (Varsa) | Yeterlilik sürekli geçerlidir. | |
| Yeterliliğe Erişim için İnternet Adresi | Adresi Aç | |
TR0030004247
- Matematik, fen bilimleri ve Endüstri Mühendisliği ile ilgili konularda yeterli bilgi birikimi; bu alanlardaki kuramsal ve uygulamalı bilgileri, mühendislik problemlerini modelleme ve çözme için uygulayabilme becerisi.
- Karmaşık mühendislik problemlerini saptama, tanımlama, formüle etme ve çözme becerisi; bu amaçla uygun analiz ve modelleme yöntemlerini seçme ve uygulama becerisi.
- Karmaşık bir sistemi, süreci veya ürünü gerçekçi kısıtlar ve koşullar altında, belirli gereksinimleri karşılayacak şekilde tasarlama becerisi; bu amaçla modern tasarım yöntemlerini uygulama becerisi. ( Gerçekçi kısıtlar ve koşullar tasarımın niteliğine göre, ekonomi, çevre sorunları, sürdürülebilirlik, üretilebilirlik, etik, sağlık, güvenlik, sosyal ve politik sorunlar gibi öğeleri içerirler.)
- Endüstri Mühendisliği uygulamaları için gerekli olan modern teknik ve araçları seçme ve kullanma becerisi; bilişim teknolojilerini etkin bir şekilde kullanma becerisi.
- Endüstri Mühendisliği problemlerinin incelenmesi için deney tasarlama, deney yapma, veri toplama, sonuçları analiz etme ve yorumlama becerisi.
- Disiplin içi ve çok disiplinli takımlarda etkin biçimde çalışabilme becerisi; bireysel çalışma becerisi.
- Türkçe sözlü ve yazılı etkin iletişim kurma becerisi; en az bir yabancı dil belgesi.
- Yaşam boyu öğrenmenin gerekliliği bilinci; bilgiye erişebilme, bilim ve teknolojideki gelişmeleri izleme ve kendini sürekli yenileme becerisi.
- Mesleki ve etik sorumluluk bilinci.
- Proje yönetimi ile risk yönetimi ve değişiklik yönetimi gibi iş hayatındaki uygulamalar hakkında bilgi; girişimcilik; yenilikçilik ve sürdürebilir kalkınma hakkında farkındalık.
- Endüstri Mühendisliği uygulamalarının evrensel ve toplumsal boyutlarda sağlık, çevre ve güvenlik üzerindeki etkileri ile çağın sorunları hakkında bilgi; mühendislik çözümlerinin hukuksal sonuçları konusunda farkındalık.
Bu program İngilizce olarak sunulmaktadır. Her dönem en az bir vize sınavı uygulanır. Vizelerin yanı sıra, her dönemin başında verilen dönem içeriğinde tarihleri belirtilen proje ve ödevler verilir. Her dönemin sonunda, öğrencinin final sınavına girmek zorundadır. Kriterler (ara sınav, proje, ödev ve final gibi) ve dönem sonu notuna etki oranları dönem başında dağıtılan ve/veya web sitesinde yayınlanan ders içerikleri açık biçimde belirtilir.
Programa başvuran adayların, ALES sayısal puanlarının en az 70 olması ve KPDS/ÜDS/YDS puanlarının en az 55 olması gerekmektedir.Lisans not ortalamasının 4 üzerinden en az 2.50 olması gerekmektedir.Bu koşulları sağlayan adaylar mülakat yoluyla değerlendirilmektedir.
Endüstri mühendisinin görevi; endüstri kavramını bir arada düşünmek ve bu sistemlerin tasarımını yapmak, bu sistemleri planlamak ve yönetmektir. Bir sistemde kaynakları en iyi şekilde kullanmak “Endüstri Mühendisi”nin görevidir. Endüstri Mühendislerinin en çok çalıştıkları faaliyetler; Üretim Planlama, ve Kontrol, İş Etüdü, Yatırım Planlaması, İnsan gücü Planlaması, İş Yeri Düzenleme, Proje Yönetimi, İş Değerlendirme ve Ücret Sistemleri ve Yönetim Bilişim Sistemleridir.
Yeterlilik sürekli geçerlidir.
| Qualification Code | TR0030004247 | |
| Qualification Title | ENDÜSTRİ MÜHENDİSLİĞİ TEZLİ YL(İNG) Masters Degree | |
| Awarding Body | ANKARA YILDIRIM BEYAZIT UNIVERSITY | |
| Awarding Body Contact | Ankara Yıldırım Beyazıt University Esenboğa Campus Esenboğa /ANKARA | |
| Awarding Body Url | www.aybu.edu.tr | |
| Orientation | - | |
| EQF Level | 7 | The Qualification hasn't been included in TQF. |
| TQF Level | 7 | |
| Thematic Areas | Management and administration | |
| National Occupation Classification | - | |
| Category | - | |
| Credit Value | - | |
| Program Duration | - | |
| Program Profile | - | |
| Learning Environments | - | |
| Description | Adequate knowledge on Mathematics, Science and Industrial Engineering; Theoretical and practical knowledge in these areas, the ability to apply and model engineering problemsAbility to identify, define, formulate and solve complex engineering problems; Selecting and applying appropriate analysis and modeling methods for this purpose.The ability to design a complex system, process or product under realistic constraints and conditions to meet specific requirements; The ability to apply modern design methods for this purpose. (Realistic constraints and conditions include things like economy, environmental issues, sustainability, manufacturability, ethics, health, safety, social and political issues, depending on the nature of the design.)The ability to select and use modern techniques and tools necessary for Industrial Engineering applications; The ability to use information technologies effectively.Ability to design experiments, conduct experiments, collect data, analyze and interpret results for the examination of industrial engineering problems.The ability to work effectively in disciplinary and multidisciplinary teams; Individual work skill.Effective communication skills in Turkish verbal and written communication; At least one foreign language document.Awareness of the necessity of life-long learning; Access to knowledge, ability to follow developments in science and technology, and constant self-renewal.Awareness of professional and ethical responsibilityInformation on project management and practices in business life such as risk management and change management; entrepreneurship; Awareness of innovation and sustainable development.Information on the effects of industrial engineering applications on health, environment and safety in the universal and societal dimensions and the problems of the times; Awareness of the legal consequences of engineering solutions. | |
| Key Competencies | - | |
| Further Info | At least one midterm exam is applied each semester. In addition to the midterms, projects and assignments whose dates are specified in the period given at the beginning of each semester are given. At the end of each semester, the student has to take the final exam. Criteria (such as midterm, project, homework and final) and end-of-term scores are clearly indicated in the course content distributed at the beginning of the semester and / or published on the website. Final examinations according to student regulations and academic background are held on the date and place and time determined and announced by the university. The final grade of the student is given according to the results of midterm, project, homework and final exam by the lecturer.The master program consists of at least seven courses, seminars and dissertations, not less than 21 credits (52.5 ECTS). The graduate student must register to the thesis course of each semester thesis starting from the beginning of the semester following the appointment of the thesis advisor and to the thesis supervisor who is proposed to open for each student to the head of the department of the related thesis. The principles regarding these courses are decided by Institute Institute and implemented by Institute Administrative Board. | |
| Quality Assurance | - | |
| Access Requirements | Candidates applying for graduate programs must have a bachelors degree or must be in the last semester of their undergraduate studies for conditional pre-admission, have a bachelors degree / thesis graduate degree in order to apply to the doctorate program or be in the last semester of undergraduate.Candidates applying for a program must have a minimum ALES numerical score of 70 and a KPDS / ÜDS / YDS score of at least 55. The average of the undergraduate grade must be at least 2.50 out of 4. Candidates who fulfill these conditions must be interviewed. | |
| Conditions for Success | The master program consists of at least seven courses, seminars and dissertations, not less than 21 credits (52.5 ECTS). The graduate student must register to the thesis course of each semester thesis starting from the beginning of the semester following the appointment of the thesis advisor and to the thesis supervisor who is proposed to open for each student to the head of the department of the related thesis. The principles regarding these courses are decided by Institute Institute and implemented by Institute Administrative Board.The master program consists of at least seven courses, seminars and dissertations, not less than 21 credits (52.5 ECTS). The graduate student must register to the thesis course of each semester thesis starting from the beginning of the semester following the appointment of the thesis advisor and to the thesis supervisor who is proposed to open for each student to the head of the department of the related thesis. The principles regarding these courses are decided by Institute Institute and implemented by Institute Administrative Board.Graduate students can take courses from the undergraduate program with the condition that they have not taken before. Graduate courses may be selected from courses offered by other higher education institutions with the recommendation of the advisor and the related institute head of the department of education, and the approval of the Graduate School Board. The credits of the courses taken in this course can not exceed 50% of the total credits. Undergraduate courses can not be counted towards course load and graduate credit. | |
| Progression Paths (Relationship Type) | The task of the industrial engineer; Thinking about the concept of industry and designing these systems, planning and managing these systems. It is the job of the Industrial Engineer to use resources in the best possible way in a system. The activities that industrial engineers work most are; Production Planning and Control, Business Survey, Investment Planning, Human Power Planning, Business Place Management, Project Management, Job Evaluation and Remuneration Systems and Management Information Systems | |
| Legal Basis | - | |
| Validity Period (If Any) | Qualification is continuous | |
| Url | Open Address | |
TR0030004247
Adequate knowledge on Mathematics, Science and Industrial Engineering; Theoretical and practical knowledge in these areas, the ability to apply and model engineering problemsAbility to identify, define, formulate and solve complex engineering problems; Selecting and applying appropriate analysis and modeling methods for this purpose.The ability to design a complex system, process or product under realistic constraints and conditions to meet specific requirements; The ability to apply modern design methods for this purpose. (Realistic constraints and conditions include things like economy, environmental issues, sustainability, manufacturability, ethics, health, safety, social and political issues, depending on the nature of the design.)The ability to select and use modern techniques and tools necessary for Industrial Engineering applications; The ability to use information technologies effectively.Ability to design experiments, conduct experiments, collect data, analyze and interpret results for the examination of industrial engineering problems.The ability to work effectively in disciplinary and multidisciplinary teams; Individual work skill.Effective communication skills in Turkish verbal and written communication; At least one foreign language document.Awareness of the necessity of life-long learning; Access to knowledge, ability to follow developments in science and technology, and constant self-renewal.Awareness of professional and ethical responsibilityInformation on project management and practices in business life such as risk management and change management; entrepreneurship; Awareness of innovation and sustainable development.Information on the effects of industrial engineering applications on health, environment and safety in the universal and societal dimensions and the problems of the times; Awareness of the legal consequences of engineering solutions.
At least one midterm exam is applied each semester. In addition to the midterms, projects and assignments whose dates are specified in the period given at the beginning of each semester are given. At the end of each semester, the student has to take the final exam. Criteria (such as midterm, project, homework and final) and end-of-term scores are clearly indicated in the course content distributed at the beginning of the semester and / or published on the website. Final examinations according to student regulations and academic background are held on the date and place and time determined and announced by the university. The final grade of the student is given according to the results of midterm, project, homework and final exam by the lecturer.The master program consists of at least seven courses, seminars and dissertations, not less than 21 credits (52.5 ECTS). The graduate student must register to the thesis course of each semester thesis starting from the beginning of the semester following the appointment of the thesis advisor and to the thesis supervisor who is proposed to open for each student to the head of the department of the related thesis. The principles regarding these courses are decided by Institute Institute and implemented by Institute Administrative Board.
Candidates applying for graduate programs must have a bachelors degree or must be in the last semester of their undergraduate studies for conditional pre-admission, have a bachelors degree / thesis graduate degree in order to apply to the doctorate program or be in the last semester of undergraduate.Candidates applying for a program must have a minimum ALES numerical score of 70 and a KPDS / ÜDS / YDS score of at least 55. The average of the undergraduate grade must be at least 2.50 out of 4. Candidates who fulfill these conditions must be interviewed.
The task of the industrial engineer; Thinking about the concept of industry and designing these systems, planning and managing these systems. It is the job of the Industrial Engineer to use resources in the best possible way in a system. The activities that industrial engineers work most are; Production Planning and Control, Business Survey, Investment Planning, Human Power Planning, Business Place Management, Project Management, Job Evaluation and Remuneration Systems and Management Information Systems
Qualification is continuous