I、Biomedical materials and detection technology:
1. Matter wave in high-speed electron (de Broglie wavelength)
2. Dielectric permittivity in linear dielectrics, ferroelectrics, and antiferroelectrics.
3. Diffusion behavior in material
4. Atomic bonding in semiconducting compounds
5. Identification of crystal structure (symmetry) by X-ray diffraction pattern and selected-area electron diffraction pattern
6. Calculation of Structure factor Fhkl for metals
II、Biotechnology:
1. Gene Engineering: Central dogma of molecular biology, Cloning and expression: restricted enzyme, ligation, selection, expression,Recombination
2. Microorganism Engineering:Stran identification/ selection, Plasmid& Vector, Genetic modification
3. Cell Engineering: Cell fusion, Organelle replacement/ transplantation, Knock in, knock out, transgenic, Cell culture
4. Fermentation: Host, Parameters,Optimization
5. Application: Agriculture, Medicine (diagnosis, therapy),Forensic,Industry,Environment,Food
IV、Biomedical Information Science:
1. What are discrete optimization problems?
2. Some theory and flow diagram about
3. The different between DE and GA
4.Image Compression Methods: Huffman coding, Arithmetic coding, Run-length coding, Embedded zerotree wavelet algorithm (EZW)
Requirement: the steps of these approaches; encode/decode with these methods, working conditions for these methods; examples to show the coding;
5. Edge Detectors:
Requirement: differences between First-order and Second-order derivative; explain these approaches with figure;
6. Erosion and Dilationt: the purposes of these approaches; explain these approaches with figure; the steps of these approaches;
7. SVD (Singular Value Decomposition): the principle and purposes of the approach; example to illustrate the method;
8. FCM (Fuzzy C-Means Clustering): the principle of the approach; explain the formula; the procedure of the FCM, the difference between FCM and k-means; comparisons of these two approaches;
It would be better to explain FCM by minimizing the objective function.
V、Medical engineering:
1. Take a medical device as an example to describe the development process.