Program Details

• Program Overview

  The M.Sc. (thesis option) program in Civil and Environmental Engineering was established in 1983G (1403H). The program enables qualified engineers to pursue advanced studies in this viable field of top technology on a full-time basis. The program passed through several phases of enhancement and development. The latest of these phases was in 2017, where the program was audited and review for the purpose of redevelopment by two independent reviewers from USA and Greece. Thereinafter, the recommendations were implemented and the developed program has been approved by KAU council. The program mission is clear and consistent with the mission of KAU and the college/department.

  The program quality performance and improvement are checked against the related evidences, and using surveys feedback, and opinion of Stakeholders', graduates'', staff members, and employers.The analysis of the available data for KPIs reflects the commitment of the program to a very high quality standard of learning.

  The program strives to maintain a high quality healthy learning environment through several mechanisms. The students are informed about their rights and duties, the code of conduct, and grievance, complaints, and discipline procedures, using a variety of means which are applied fairly. In addition, students are provided with effective academic, professional, psychological, and social guidance, and counselling services through qualified and sufficient staff. Moreover, the Central Survey System of the University and the EQAUP PLUS are effective mechanisms to evaluate the adequacy and quality of services provided to students and measures their satisfaction with them; and the results are used for improvement.

  The program facilities available at the CEE are adequate for realizing the program objectives and achieve the designed PLOs. The Program has laboratories, computer, equipment, and materials that are suitable for each track of the program, which are sufficient to conduct scientific research and attain the program educational goals. The CEE avails to the program plenty of well-equipped classrooms. For the program, safety is paramount and as such it strictly follows the Faculty of Engineering (FOE) health and safety manual. Thus, all general and occupational health and safety requirements are available in the facilities, equipment, and all areas educational and research activities.

  The program encourages both faculty members and students to engage in high quality scientific research stemming from KSA-2030 vision that contribute to the betterment of the society.

  The program, through KAU, has clear, publicized and available instructions and guidelines for the preparation and evaluation of research, scientific theses, and projects. The program ensures the commitment of researchers, staff and students as well, to the regulations and ethics of scientific research.

  As the program strives for excellence in achieving the learning goals, there are always areas for improvement. Therefore, the CEE always welcomes feedback from current students, alumni, industrial partners at the scientific community at large.

   

• Program Mission

  Prepare specialized professional leaders who advance knowledge and understanding, drive innovation, and contribute to the resolution of complex national and global problems and challenges. Such leaders work in ways that are consistent with societal values and reflect high levels of loyalty, responsibility, and commitment to the sustainable development of the society.

   

• Program Goals

  The M.Sc. in Civil and Environmental Engineering program goals can be summarized as follows:

  • Providing high quality educational services in the field of civil and environmental engineering to attract more program participants that meet the human resources needs required by the Development Plans in the Kingdom.
  • Improving the quality of scientific research in the field of civil and environmental engineering and increasing the number of scientific papers published in international journals and adding to the scientific knowledge.
  • Availing high scientific calibre graduate students capable of providing solutions in the field of civil and environmental engineering for the problems of the society as well as the production and services sectors through joint seminars and research programs.
     

• Graduate Attributes

  Graduate attributes are specified and approved for the KAU institutional level; the M.Sc. in CEE program developed attributes connected with CE PLO’s. The graduate attributes for the KAU University to provide opportunities for students are:

  • Creative and Critical thinking: Graduates are problem-solvers, able to apply critical, creative and evidence-based knowledge to produce innovative solutions to community challenges which secure the sustainable development of social, political, and economic aspects.
  • Team working: Graduates collaborate openly with others and share information to achieve research and knowledge development goals.
  • Effective Communication: Graduates are effective communicators and lead effective community engagement and successful Entrepreneurship.
  • Leadership and professionalism: Graduates demonstrate professional behaviour and have the potential to be entrepreneurs and take leadership roles in their careers and communities.
  • English Proficiency: Graduates have English proficiency skills that enable them to communicate, which leads to innovations and entrepreneurship.
  • Discipline Excellence: Graduates have a comprehensive understanding of their disciplines and are able to apply specialized knowledge in a multidisciplinary context in the practice.
  • Technological skills: Graduates have the technical and artificial intelligence skills and knowledge which enable graduates to adapt to new technologies and acquire more skills in the contemporary digital world.
  • Lifelong learning: Graduates are lifelong learners who are curious and seek information to solve problems and make a difference in the community.
  • Cultural competency: Graduates respect and communicate effectively with people from diverse cultures and backgrounds.
  • Independence and pro-activity: Graduates have the ability to act with confidence based on their own personal and cultural values and start their own projects to solve careers or community problems.
  • Resilience and adaptation: Graduates have the skills to cope with different types of challenges to maintain the sustainability of their professional and social communities

   

• Program Learning Outcomes (PLOs)

   

  Program Learning Outcomes (PLOs)
  Knowledge and Understanding
  K1	Demonstrate deep awareness of the knowledge body that is at the forefront of Civil Engineering disciplines. (PLO1)
  Skills
  S1	Identify, formulate, and solve engineering problems by providing creative solutions and making sound judgment in the absence of complete data relevant to the matter concerned. (PLO2)
  S2	Apply scientific research methodology and place the results in a broader context and critically evaluate their own and others’ research. (PLO3)
  S3	Apply critical thinking, scientific reasoning, and advanced numerical and/or experimental tools to interpret scientific literature in the field of civil engineering (PLO4)
  S4	Demonstrate effective oral, written, and graphical communication skills to disseminate knowledge and data using advanced information communication technology tools. (PLO5)
  Values
  V1	Recognize ethical and professional responsibilities, take full responsibility for their own independent learning, and behave in ways consistent with societal values. (PLO6).
  V2	Acquire and apply new knowledge as needed, using appropriate learning strategies. (PLO7)

• Admission Requirements

  General Conditions for Admission

  The following conditions are generally required for admission to the M.Sc. Program:

  1. For resident applicants, the general grade in the undergraduate degree must be Excellent and the graduation date must not exceed five years. Nonresident International candidates (non Saudi) must, be on official Scholarships for pursuing graduate studies.
  2. The applicant must have a university degree from a Saudi university or any other recognized university.  
  3. The Applicant must have good conduct and he/she must be medically fit.
  4. The Applicant must present two academic recommendations from professors who previously taught him.
  5. The approval of the applicant's employer is required if the candidate is employed.
  6. The candidate must be a full time student.
  7. All graduate students are required to maintain a cumulative grade point average (GPA) of 3.0 to remain in good standing.

   

  English Languages Requirements
  

  A. Graduate students whose native language is not English must follow KAU Admissions and Graduate College policies for English proficiency.

   B. Prior to Admission: English proficiency examination

  • This examination requirement measures an applicant’s understanding of the English language.
  • Applicants are exempt from English proficiency admission examinations if they have earned a bachelors or higher degree from a country where English is the ONLY OFFICIAL language.
  
  

  C. Applicants who do not meet the criteria in “B”, must take one of the following exams:

  • TOEFL: Test of English as a Foreign Language
  • IELTS: International English Language Testing System
  • Admissions and CEE minimum English requirements are listed as follows:

  Exam	Admissions Minimum
  Minimum TOEFL iBT (internet-based)	70
  TOEFL PBT (paper-based)	500
  IELTS	6.0

   

   

• Curriculum

   

  1. Curriculum Structure for All Tracks:

  Program Structure	Required/ Elective	No. of courses	Credit Hours	Percentage
  Course	Required	3	7	21.2 %
  	Elective	6	18	54.6 %
  Graduation Project (if any)
  Thesis (if any)		1	8	24.2 %
  Field Experience(if any)
  Others (.....)
  Total		10	33

   

  2. Program Courses:

   

  Track-1 Construction Engineering

  Level

  Level	Course Code	Course Title	Required or Elective	Pre-Requisite Courses	Credit Hours	Type of requirements (Institution, College, or Program)
  Level 1	CE 620	Advanced Construction Management	Required	None	3	Program
  	CE 621	Advanced Construction Engineering	Required		3
  Level 2	CE 622	Value Engineering	Elective		3
  	CE 623	Computer Use in Construction	Elective		3
  	CE 624	Construction Project Risk Management	Elective		3
  	CE 625	Legal Aspects in Construction Projects and Contracts	Elective		3
  	CE 630	Advanced Geotechnical Engineering	Elective		3
  	CE 631	Advanced Foundation Engineering	Elective		3
  	CE 633	Stability of Slopes	Elective		3
  	CE 634	Site Exploration and Laboratory Testing	Elective		3
  	CE 635	Earth Retaining Structures	Elective		3
  	CE 636	Ground Modification	Elective		3
  	CE 641	Advanced Topics in Reinforced Concrete Design	Elective		3
  	CE 642	Advanced Concrete Technology	Elective		3
  	CE 643	Advanced Materials of Construction	Elective		3
  	CE 644	Bridge Engineering	Elective		3
  	CE 655	Advanced Hydraulic Structures	Elective		3
  	CE 669	Environmental Impact Assessment	Elective		3
  	CE 670	Urban Transportation Systems	Elective		3
  	CE 671	Highway Geometric Design	Elective		3
  	CE 673	Urban Public Transportation	Elective		3
  	CE 676	Railway Engineering	Elective		3
  	CE 677	Freight Transportation and Logistics	Elective		3
  	CE 678	Planning and Design of Airports	Elective		3
  	CE 679	Planning and Operations of Ports Facilities	Elective		3
  	CE 680	Asphalt Paving Materials	Elective		3
  	CE 681	Geotechnical Engineering for Transportation Facilities	Elective		3
  	CE 682	Pavement Analysis and Design	Elective		3
  	CE 683	Pavement Maintenance Management Systems	Elective		3
  	CE 687	Transportation Economics	Elective		3
  	CE 688	Geographical Information System (GIS)	Elective		3
  	CE 689	Remote Sensing and Digital Photogrammetry	Elective		3
  	CE 691	Special Topics (1)	Elective		3
  	CE 692	Special Topics (2)	Elective		3
  Level 3	IE 611	Non-Linear Optimization	Elective		3
  	IE 614	Dynamic And Stochastic Programming	Elective		3
  	IE 615	Advanced Decision Analysis	Elective		3
  	IE 621	Advanced Information Systems	Elective		3
  	IE 622	Systems Simulation	Elective		3
  	IE 632	Design of Experiments	Elective		3
  	IE 636	Forecasting Models	Elective		3
  	IE 654	Advanced Engineering Economy	Elective		3
  	IE 655	Feasibility Study	Elective		3
  	STAT 612	Stochastic Processes	Elective		3
  	STAT 621	Multivariate Statistical Analysis	Elective		3
  	STAT 622	Linear Statistical analysis (1)	Elective		3
  	XX 6xx	Free Course	Elective		3
  Level 4	CE 695	Seminar	Required		1
  	CE 699	Thesis	Required		8

  
  

   

  Track-2 Geotechnical Engineering

  Level	Course Code	Course Title	Required or Elective	Pre-Requisite Courses	Credit Hours	Type of requirements (Institution, College, or Program)
  Level 1	CE 630	Advanced Geotechnical Engineering	Required	None	3	Program
  	CE 631	Advanced Foundation Engineering	Required		3
  Level 2	CE 620	Advanced Construction Management	Elective		3
  	CE 621	Advanced Construction Engineering	Elective		3
  	CE 622	Value Engineering	Elective		3
  	CE 623	Computer Use in Construction	Elective		3
  	CE 624	Construction Project Risk Management	Elective		3
  	CE 632	Seepage of Water Through Soils	Elective		3
  	CE 633	Stability of Slopes	Elective		3
  	CE 634	Site Exploration and Laboratory Testing	Elective		3
  	CE 635	Earth Retaining Structures	Elective		3
  	CE 636	Ground Modification	Elective		3
  	CE 641	Advanced Topics in Reinforced Concrete Design	Elective		3
  	CE 642	Advanced Concrete Technology	Elective		3
  	CE 643	Advanced Materials of Construction	Elective		3
  	CE 644	Bridge Engineering	Elective		3
  	CE 650	Engineering Hydrology	Elective		3
  	CE 651	Advanced Hydraulics	Elective		3
  	CE 655	Advanced Hydraulic Structures	Elective		3
  	CE 657	Groundwater Engineering	Elective		3
  	CE 659	Groundwater and Seepage	Elective		3
  	CE 669	Environmental Impact Assessment	Elective		3
  	CE 670	Urban Transportation Systems	Elective		3
  	CE 671	Highway Geometric Design	Elective		3
  	CE 680	Asphalt Paving Materials	Elective		3
  	CE 681	Geotechnical Engineering for Transportation Facilities	Elective		3
  	CE 682	Pavement Analysis and Design	Elective		3
  	CE 683	Pavement Maintenance Management Systems	Elective		3
  	CE 688	Geographical Information System (GIS)	Elective		3
  	CE 689	Remote Sensing and Digital Photogrammetry	Elective		3
  	CE 691	Special Topics (1)	Elective		3
  	CE 692	Special Topics (2)	Elective		3
  Level 3	IE 611	Non-Linear Optimization	Elective		3
  	IE 613	Dynamic And Stochastic Programming	Elective		3
  	IE 614	Advanced Decision Analysis	Elective		3
  	IE 621	Advanced Information Systems	Elective		3
  	IE 622	Systems Simulation	Elective		3
  	IE 632	Design of Experiments	Elective		3
  	IE 636	Forecasting Models	Elective		3
  	IE 654	Advanced Engineering Economy	Elective		3
  	IE 655	Feasibility Study	Elective		3
  	STAT 612	Stochastic Processes	Elective		3
  	STAT 622	Multivariate Statistical Analysis	Elective		3
  	STAT 625	Linear Statistical analysis (1)	Elective		3
  	XX 6xx	Free Course	Elective		3
  Level 4	CE 695	Seminar	Required		1
  	CE 699	Thesis	Required		8

   
  

  Track-3 Structural Engineering

  Level	Course Code	Course Title	Required or Elective	Pre-Requisite Courses	Credit Hours	Type of requirements (Institution, College, or Program)
  Level 1	CE 640	Matrix Method of Structural Analysis	Required	None	3	Program
  	CE 641	Advanced Topics in Reinforced Concrete Design	Required		3
  Level 2	CE 620	Advanced Construction Management	Elective		3
  	CE 621	Advanced Construction Engineering	Elective		3
  	CE 622	Value Engineering	Elective		3
  	CE 623	Computer Use in Construction	Elective		3
  	CE 624	Construction Project Risk Management	Elective		3
  	CE 625	Legal Aspects in Construction Projects and Contracts	Elective		3
  	CE 630	Advanced Geotechnical Engineering	Elective		3
  	CE 631	Advanced Foundation Engineering	Elective		3
  	CE 632	Seepage of Water Through Soils	Elective		3
  	CE 633	Stability of Slopes	Elective		3
  	CE 634	Site Exploration and Laboratory Testing	Elective		3
  	CE 635	Earth Retaining Structures	Elective		3
  	CE 636	Ground Modification	Elective		3
  	CE 642	Advanced Concrete Technology	Elective		3
  	CE 643	Advanced Materials of Construction	Elective		3
  	CE 644	Bridge Engineering	Elective		3
  	CE 645	Structural Stability	Elective		3
  	CE 646	Finite Element Method	Elective		3
  	CE 647	Structural Dynamics	Elective		3
  	CE 648	Reliability of Structures	Elective		3
  	CE 649	Prestressed Concrete Design	Elective		3
  	CE 680	Asphalt Paving Materials	Elective		3
  	CE 681	Geotechnical Engineering for Transportation Facilities	Elective		3
  	CE 682	Pavement Analysis and Design	Elective		3
  	CE 683	Pavement Maintenance Management Systems	Elective		3
  	CE 690	Advanced Structural Steel Design - 1	Elective		3
  	CE 691	Special Topics (1)	Elective		3
  	CE 692	Special Topics (2)	Elective		3
  Level 3	IE 632	Design of Experiments	Elective		3
  	MATH 603	Stability Theory of Ordinary Differential Equations	Elective		3
  	MATH 606	Generalized Solutions of Partial Differential Equations	Elective		3
  	MATH 621	Numerical Treatment of Simultaneous Linear Equations	Elective		3
  	MATH 622	Numerical Treatment of Ordinary Differential Equations	Elective		3
  	MATH 623	Numerical Treatment of Partial Differential Equations	Elective		3
  	MATH 629	Advanced Numerical Analysis	Elective		3
  	MATH 639	Advanced Engineering Mathematics	Elective		3
  	STAT 625	Experimental Design	Elective		3
  	XX 6xx	Free Course	Elective		3
  Level 4	CE 695	Seminar	Required		1
  	CE 699	Thesis	Required		8

   

  Track-4 Water Resources

  Level	Course Code	Course Title	Required or Elective	Pre-Requisite Courses	Credit Hours	Type of requirements (Institution, College, or Program)
  Level 1	CE 650	Engineering Hydrology	Required	None	3	Program
  	CE 651	Advanced Hydraulics	Required		3
  Level 2	CE 632	Seepage of Water Through Soils	Elective		3
  	CE 633	Stability of Slopes	Elective		3
  	CE 652	Advanced Water Resources Planning and Management	Elective		3
  	CE 653	Statistical Applications in Hydrology and Water Resources	Elective		3
  	CE 654	Advanced Hydraulics Dynamics	Elective		3
  	CE 655	Advanced Hydraulic Structures	Elective		3
  	CE 656	Coastal Hydrodynamics	Elective		3
  	CE 657	Groundwater Engineering	Elective		3
  	CE 658	Solutions to Groundwater Problems	Elective		3
  	CE 659	Groundwater and Seepage	Elective		3
  	CE 660	Physical Chemical Processes in Environmental Engineering.	Elective		3
  	CE 662	Environmental Sampling and Analysis	Elective		3
  	CE 664	Water Chemistry	Elective		3
  	CE 691	Special Topics (1)	Elective		3
  	CE 692	Special Topics (2)	Elective		3
  Level 3	IE 611	Non-Linear Optimization	Elective		3
  	IE 614	Dynamic and Stochastic Programming	Elective		3
  	IE 636	Forecasting Models	Elective		3
  	IE 653	Project Management	Elective		3
  	IE 654	Advanced Engineering Economy	Elective		3
  	MATH 629	Advanced Numerical Analysis	Elective		3
  	MATH 639	Advanced Engineering Mathematics	Elective		3
  	STAT 612	Stochastic Processes	Elective		3
  	STAT 622	Linear Statistical Analysis (1)	Elective		3
  	XX 6xx	Free Course	Elective		3
  Level 4	CE 695	Seminar	Required		1
  	CE 699	Thesis	Required		8

  
  

  Track-5 Environmental Engineering

  Level	Course Code	Course Title	Required or Elective	Pre-Requisite Courses	Credit Hours	Type of requirements (Institution, College, or Program)
  Level 1	CE 660	Physical and Chemical Processes in Environmental Engineering.	Required	None	3	Program
  	CE 661	Biological Processes in Environmental Engineering.	Required		3
  Level 2	CE 650	Engineering Hydrology	Elective		3
  	CE 651	Advanced Hydraulics	Elective		3
  	CE 652	Advanced Water Resources Planning and Management	Elective		3
  	CE 653	Statistical Applications in Hydrology and Water Resources	Elective		3
  	CE 655	Advanced Hydraulic Structures	Elective		3
  	CE 656	Coastal Hydrodynamics	Elective		3
  	CE 657	Groundwater Engineering	Elective		3
  	CE 658	Solutions to Groundwater Problems	Elective		3
  	CE 659	Groundwater and Seepage	Elective		3
  	CE 662	Environmental Sampling and Analysis	Elective		3
  	CE 663	Wastewater Collection and Treatment Design	Elective		3
  	CE 664	Water Chemistry	Elective		3
  	CE 665	Advanced Waste Treatment Technologies	Elective		3
  	CE 666	Air Pollution Engineering	Elective		3
  	CE 667	Solid Waste Engineering	Elective		3
  	CE 668	Industrial and Hazardous Waste Engineering	Elective		3
  	CE 669	Environmental Impact Assessment	Elective		3
  	CE 691	Special Topics (1)	Elective		3
  	CE 692	Special Topics (2)	Elective		3
  Level 3	IE 611	Non-Linear Optimization	Elective		3
  	IE 621	Advanced Information Systems	Elective		3
  	IE 632	Design of Experiments	Elective		3
  	IE 654	Advanced Engineering Economy	Elective		3
  	MATH 604	Nonlinear Differential Equations	Elective		3
  	MATH 606	Generalized Solutions of Partial Differential Equations	Elective		3
  	MATH 621	Numerical Treatment of Simultaneous Linear Equations	Elective		3
  	MATH 623	Numerical Treatment of Partial Differential Equations	Elective		3
  	STAT 621	Multivariate Statistical Analysis	Elective		3
  	STAT 622	Linear Statistical analysis (1)	Elective		3
  	STAT 625	Experimental Design	Elective		3
  	XX 6xx	Free Course	Elective		3
  Level 4	CE 695	Seminar	Required		1
  	CE 699	Thesis	Required		8

   
  

  Track-6 Transportation Engineering

  Level	Course Code	Course Title	Required or Elective	Pre-Requisite Courses	Credit Hours	Type of requirements (Institution, College, or Program)
  Level 1	CE 670	Urban Transportation Systems	Required	None	3	Program
  	CE 671	Highway Geometric Design	Required		3
  Level 2	CE 620	Advanced Construction Management	Elective		3
  	CE 621	Advanced Construction Engineering	Elective		3
  	CE 624	Construction Project Risk Management	Elective		3
  	CE 625	Legal Aspects in Construction Projects and Contracts	Elective		3
  	CE 630	Advanced Geotechnical Engineering	Elective		3
  	CE 631	Advanced Foundation Engineering	Elective		3
  	CE 632	Seepage of Water Through Soils	Elective		3
  	CE 633	Stability of Slopes	Elective		3
  	CE 634	Site Exploration and Laboratory Testing	Elective		3
  	CE 635	Earth Retaining Structures	Elective		3
  	CE 636	Ground Modification	Elective		3
  	CE 641	Advanced Topics in Reinforced Concrete Design	Elective		3
  	CE 643	Advanced Materials of Construction	Elective		3
  	CE 644	Bridge Engineering	Elective		3
  	CE 650	Engineering Hydrology	Elective		3
  	CE 669	Environmental Impact Assessment	Elective		3
  	CE 672	Transportation Planning and Modeling	Elective		3
  	CE 673	Urban Public Transportation	Elective		3
  	CE 674	Traffic Planning, Operation, and Control	Elective		3
  	CE 675	Highway Safety	Elective		3
  	CE 676	Railway Engineering	Elective		3
  	CE 677	Freight Transportation and Logistics	Elective		3
  	CE 678	Planning and Design of Airports	Elective		3
  	CE 679	Planning and Operations of Ports Facilities	Elective		3
  	CE 680	Asphalt Paving Materials	Elective		3
  	CE 681	Geotechnical Engineering for Transportation Facilities	Elective		3
  	CE 682	Pavement Analysis and Design	Elective		3
  	CE 683	Pavement Maintenance Management Systems	Elective		3
  	CE 687	Transportation Economics	Elective		3
  	CE 688	Geographical Information System (GIS)	Elective		3
  	CE 689	Remote Sensing and Digital Photogrammetry	Elective		3
  	CE 691	Special Topics (1)	Elective		3
  	CE 692	Special Topics (2)	Elective
  Level 3	IE 611	Non-Linear Optimization	Elective		3
  	IE 613	Network Analysis	Elective		3
  	IE 614	Dynamic and Stochastic Programming	Elective		3
  	IE 621	Advanced Information Systems	Elective		3
  	IE 622	Systems Simulation	Elective		3
  	IE 632	Design of Experiments	Elective		3
  	IE 636	Forecasting Models	Elective		3
  	IE 654	Advanced Engineering Economy	Elective		3
  	IE 655	Feasibility Study	Elective		3
  	STAT 612	Stochastic Processes	Elective		3
  	STAT 622	Linear Statistical Analysis (1)	Elective		3
  	STAT 625	Experimental Design	Elective		3
  	XX 6xx	Free Course	Elective		3
  Level 4	CE 695	Seminar	Required		1
  	CE 699	Thesis	Required		8

   

   

• Enrollment and Graduates

  The following two tables summarize the details of students’ enrollment in the program and the graduation rate.

  Students Enrollment

  Number of Students		Two Years Ago	Last Year	Current Year	Expected Next Year
  Proposed Number of Enrolled Students	Male	2	2	7	14
  	Female	0	0	0	0
  	Total	2	2	7	14
  Total number of Enrolled Students	Male	1	2	4
  	Female	0	0	0
  	Total	1	2	4
  Number of Enrolled International Students	Male	0	0	2
  	Female	0	0	2
  	Total	0	0	2
  Average Class Size	Male	8	8	8
  	Female	0	0	0
  	Total	8	8	8

  Students Graduation

  Graduates	Three Years Ago	Two Years Ago	Last Year
  Number of Graduates
  Male	0	0	0
  Female	--	--	--
  Total	0	0	0
  Graduates’ Employment
  Number of Employed Graduates	0	0	2
  Ratio of Employed to Total Graduates	0	0	1

• Alumni

  The program strives to strengthen and to grow the connections with its community of alumni with the following strategies:

  • Establish and update connections with the program alumni through direct phone contacts, emails and chat groups.
  • Organize an annual students-alumni gathering.
  • Increase the effectiveness of collecting alumni opinion data through surveys