EPN-V2

PENG9510 Advanced Project within Structural Engineering and Building Technology Course description

Course name in Norwegian
Advanced Project within Structural Engineering and Building Technology
Study programme
PhD Programme in Engineering Science
Weight
10.0 ECTS
Year of study
2024/2025
Curriculum
FALL 2024
Schedule
Course history

Introduction

The project assignment deals with complex engineering issues within the field of structural engineering and building technology. The special topics of the assignment are customised in accordance with the focus research area (PhD subject area) of the PhD students. The selected project gives the students experience in applying the theoretical knowledge, scientific methods and suitable simulation, analysis and design tools for solving complex engineering problems.

The course will be offered once a year, provided 3 or more students sign up for the course. If less than 3 students sign up for a course, the course will be cancelled for that year.

Recommended preliminary courses

Work and teaching methods used are lectures, group work, peer assessment and laboratory work individually and in groups. 

Parts of the teaching used is the ‘flipped classroom’, where digital learning resources will be made available to students in advance and the time they spend at the university will be used to work on assignments and group work. Digital learning resources are also used in the form of practical assignments in digital morphology.

Learning outcomes

Students who complete the course are expected to have the following learning outcomes, defined in terms of knowledge, skills and general competence:

Knowledge:

On successful completion of the course, the student:

  • is at the forefront of knowledge within the topic of his/her engineering project.
  • has a profound understanding of the state-of-the-art and the latest developments in the professional engineering field relevant to his/her doctoral thesis.
  • can apply the theories, methods and processes in scholarly projects as well as in professional engineering projects specific to his/her field of engineering.

Skills:

On successful completion of the course, the student can:

  • apply theoretical knowledge, scientific methods and simulation tools suitable for solving complex civil engineering problems.
  • deal with complex professional issues with an academic approach and reflect critically on established knowledge and practice within the research field of the project.
  • plan and conduct scholarly work within the topic of his/her the engineering project.
  • analyse existing theories, methods and standardised solutions on practical and theoretical engineering problems.

General competence:

On successful completion of the course, the student can:

  • apply his/her knowledge and skills to carrying out advanced tasks and projects.
  • communicate issues, analyses and solutions to both specialists and non-specialists.
  • assess the need for, and initiate innovation in his/her field of expertise.

Content

Supervised individual written exam, combination of multiple choice and free text assignments, 3 hours.

Teaching and learning methods

Seminars, project assignment (scholarly work), scientific report and oral presentation.

Course requirements

None.

Assessment

A project assignment and an oral presentation.

Both exams must be passed in order to pass the course.

The oral exam cannot be appealed.

Permitted exam materials and equipment

Hematology is the study of blood and blood diseases. This is a basic hematology course, focusing on the blood cells’ development, function and morphology, and the most important blood diseases. The course will give students a foundation for analysing hematology and coagulation samples, and for quality assuring, interpreting and assessing test results.

Grading scale

The student must have been admitted to the study programme.

Examiners

After completing the course, the student is expected to have achieved the following learning outcomes defined in terms of knowledge, skills and general competence: 

Knowledge 

The student 

  • has knowledge of the structure and function of the different blood cells
  • can characterise blood cells in a non-pathological blood sample and describe the selected pathological cells/conditions
  • can describe the principles for different methods of measuring selected hematology and coagulation analyses
  • can describe the significance of different analyses for diagnosis and treatment
  • can explain the principle for manual counting and differentiation of blood cells
  • can explain different sources of error relating to hematological analyses and how the sources of error can affect the results
  • can explain the hemostasis mechanism
  • can describe some blood diseases

Skills 

The student

  • can carry out regular manual and automatic hematology and coagulation analyses
  • can perform start-up, daily maintenance and quality control of hematology and coagulation instruments
  • can identify and characterise normal and certain pathological cells/conditions in the blood by means of manual and digital morphology
  • can assess and assure the quality of sample materials and test results
  • can assess and interpret scattergrams (plots) from automatic cell counters
  • can interpret test results in conjunction with other parameters

General competence

The student

  • can make plans for and carry out own laboratory work by using relevant documents such as procedures, product information and method applications