Medical Informatics 510-IS1-3IM
Profile: general-academic
Form of studies: stationary
Course type: non-obligatory
Field and the discipline of the science: computer science, area of sciences and technical
Year of studies/semester: 3/5
Preliminary requirements (so-called sequential system of classes and examinations): Mathematical analysis, Fundamentals of structured programming
Lecture: 15, laboratory classes: 30
Didactic methods: lecture, presentation, discussion, laboratory classes, didactic materials in pdf format, instructions at laboratory calsses, consultations)
ECTS: 4
Balance of the workload of the student:
Participation in the classes:
- lecture: 15 h,
- laboratory classes: 30 h,
Review of literature: 10 h
Reports of classes, homeworks: 10 h
Preparation for test: 8 h
Preparation for exam: 5 h
Exam: 2 h
Participation in consultations: 3 h
Quantitative indicators:
requiring the direct participation of the teacher: 50, 2ECTS
on the nature of practical cases: 50, 2ECTS
Type of course
Prerequisites (description)
Course coordinators
Learning outcomes
Learning outcomes. Student:
Can list and characterize the basic methods of analysis of signals and medical images. KA6_WG11
He knows the basic computer systems and software for different levels of health care (e.g. doctor's office, clinic, hospital, standards for sending patient records). KA6_WG4, KA6_WG8
Is able to properly perform the signal and medical image analysis and formulate appropriate conclusions. KA6_UW8, KA6_UK3
Has the ability to write programs, e.g. in the Matlab/Octave environment. KA6_UW8
Can properly organize work to solve the problems of analyzing various signals and medical images. KA6_UW8, KA6_UK3, KA6_UO1, KA6_UO2
He can use the Internet (Internet services, websites, searching for medical information, medical databases, Internet communication between a doctor and a patient). KA6_UK3
He extends his knowledge systematically in the field of signal and medical image analysis and medicine on the Internet. KA6_KK1
He creatively solves problems related to medical informatics, independently and cooperating in a group. KA6_UK3, KA6_UO1, KA6_UO2
Assessment criteria
According to the Study Regulations. General form of getting credit: getting credit with a grade.
Bibliography
Edward H. Shortliffe, James J. Cimino. Biomedical Informatics: Computer Applications in Health Care and Biomedicine (Health Informatics). Springer
Health Informatics Series. Springer
Joseph Tan Medical Informatics: Concepts, Methodologies, Tools, and Applications.
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: