Wykaz publikacji wybranego autora

Jakub Kamiński, mgr inż.

asystent

Wydział Fizyki i Informatyki Stosowanej
WFiIS-kis, Katedra Informatyki Stosowanej i Fizyki Komputerowej


Identyfikatory Autora Informacje o Autorze w systemach zewnętrznych

ORCID: brak

ResearcherID: brak

Scopus: 7102702673

PBN: 3990837

System Informacyjny AGH (SkOs)





Liczba pozycji spełniających powyższe kryteria selekcji: 20, z ogólnej liczby 20 publikacji Autora


1
  • Anisotropic bone response based on FEM simulation and real micro computed tomography of bovine bone
2
  • Anisotropic bone response simulation based on finite elements method and real micro computed tomography input data
3
  • Automated processing of micro-CT scans using descriptor-based registration of 3D images
4
  • A methodology for trabecular bone microstructure modelling agreed with three-dimensional bone properties
5
  • A methodology for trabecular bone microstructure modelling agreed with three-dimensional bone properties
6
  • Badanie własności biomechanicznych kości gąbczastej w Laboratorium Mikro i Nano Tomografii WFiIS AGH
7
  • Bone tissue engineering using combined additive manufacturing and microtomography with FEM verification
8
  • Bone tissue engineering using combined additive manufacturing and microtomography with Finite Element Method verification
9
  • Computer simulation of mechanical properties of bone tissue based on automated processing of micro-CT measurements and micro-FE results
10
  • Experimental study and computer modeling of bone tissue behavior
11
  • First-in-man percutaneous pulmonary vein isolation enhanced by augmented reality system
12
  • Heterogeneous materials based on aperiodic structures for bone tissue substitutes
13
  • Homogenisation model of trabecular bone tissue properties based on genetic algorithm concept and data from micro computed tomography
14
  • Homogenization of trabecular bone microstructure based on finite element method and micro computed tomography
15
16
  • Modelowanie struktury i własności mechanicznych kości gąbczastej
17
  • New polymeric composite biomaterials based on aperiodic structures for bone tissue engineering
18
  • Preliminary study of three-dimensional tooth model reconstruction from volumetric image of porcine mandible obtained by cone beam CT with micro-CT validation
19
  • Searching for ultimate cardiac data display - mixed reality interactive visualization of three-dimensional echocardiographic datasets
20
  • Study on mechanical properties of trabecular bone based on representative three-dimensional microstructures generation and Finite Element Method