In order to design and manufacture a bionic bone scaffold for personalized bone tissue repairing,we give the performance requirements and indicators,and propose a method of establishing a three-dimensional bone scaffo...In order to design and manufacture a bionic bone scaffold for personalized bone tissue repairing,we give the performance requirements and indicators,and propose a method of establishing a three-dimensional bone scaffold solid model based on the Voronoi architecture.The modeling parameters,number of seed points and scaling factor are found,which can control the model performance.The finite element analysis model of bone scaffold with different number of seed points and scaling factor is set up.By adopting the method of theory analysis,experiment and simulation calculation,the performance parameters of the porosity,the specific surface area and the elastic modulus of 15 sets of bionic bone scaffold model are obtained.The relation between the bone scaffold model parameters and the porosity,the porosity and the specific surface area,the porosity and the equivalent elastic modulus are established.The individual design method of Voronoi bone scaffold is proposed.In the condition of given equivalent elastic modulus and the defected shape of bone,the bone scaffold model with spatial Voronoi architecture which accords with the performance requirements can be designed and produced rapidly,which provides reference for the personalized treatment of bone defecting.展开更多
The growing awareness of climate change worldwide has led the urban tourism market to focus on balancing tourist tailored experiences and CO_(2) emissions.Therefore,designing personalized tourist routes with environ‐...The growing awareness of climate change worldwide has led the urban tourism market to focus on balancing tourist tailored experiences and CO_(2) emissions.Therefore,designing personalized tourist routes with environ‐mental pollution consideration is preferable in this context.This study proposes an evolution algorithm based on reinforcement learning(FSRL-HA)to design a personalized day tour route that simultaneously considers the utility of tourists and the carbon emission.We conducted a case study in Chengdu,Sichuan,China,to evaluate this algorithm's performance.The results indicate that the proposed algorithm outperforms selected baseline methods.Furthermore,the approach can provide more diverse route choices for different tourists,and an experiment was conducted to explore how tourist preferences affect tourist utilities.展开更多
Efective Selective Laser Melting(SLM)molding methods for femur implant design and molding can improve femur implant surgerysucess rates and enhance patients quality of life.In this study,an individualized femur implan...Efective Selective Laser Melting(SLM)molding methods for femur implant design and molding can improve femur implant surgerysucess rates and enhance patients quality of life.In this study,an individualized femur implant and individualized biological fixed-typefenur implant were designed using the parametric modeling method.The implants were then directly manufactured via SLM moldingtechnology as the forming process was carefuly analyzed.The results indicate that the proposed implant allows for favorable conjunctionof the reconstructed implant model with the surrounding bone tissues under the premise of a relatively small amount of bone-cutting.Theproposed implant also shows even pore distribution,good overall connectivity,relatively high bearing capacity,favorable overlappingbetween supports,and strong inter-pore connectivity.Only a small amount of powder adheres onto the surface and can be directly usedafter simple sand blasting and polishing.The comprehensive analyses of fenur implant modeling and molding methods given in this papermay provide a sound foundation for the design and direct manufacture of individualized femur implants in the future.展开更多
基金the Educational Commission of Liaoning Province of China (No. JDL2017026)。
文摘In order to design and manufacture a bionic bone scaffold for personalized bone tissue repairing,we give the performance requirements and indicators,and propose a method of establishing a three-dimensional bone scaffold solid model based on the Voronoi architecture.The modeling parameters,number of seed points and scaling factor are found,which can control the model performance.The finite element analysis model of bone scaffold with different number of seed points and scaling factor is set up.By adopting the method of theory analysis,experiment and simulation calculation,the performance parameters of the porosity,the specific surface area and the elastic modulus of 15 sets of bionic bone scaffold model are obtained.The relation between the bone scaffold model parameters and the porosity,the porosity and the specific surface area,the porosity and the equivalent elastic modulus are established.The individual design method of Voronoi bone scaffold is proposed.In the condition of given equivalent elastic modulus and the defected shape of bone,the bone scaffold model with spatial Voronoi architecture which accords with the performance requirements can be designed and produced rapidly,which provides reference for the personalized treatment of bone defecting.
基金We acknowledge the financial support from the National Natural Science Foundation of China[Grant number:71701167]the Humani‐ties and Social Science Foundation of Chinese Ministry of Education[Grant number:17YJC630078].
文摘The growing awareness of climate change worldwide has led the urban tourism market to focus on balancing tourist tailored experiences and CO_(2) emissions.Therefore,designing personalized tourist routes with environ‐mental pollution consideration is preferable in this context.This study proposes an evolution algorithm based on reinforcement learning(FSRL-HA)to design a personalized day tour route that simultaneously considers the utility of tourists and the carbon emission.We conducted a case study in Chengdu,Sichuan,China,to evaluate this algorithm's performance.The results indicate that the proposed algorithm outperforms selected baseline methods.Furthermore,the approach can provide more diverse route choices for different tourists,and an experiment was conducted to explore how tourist preferences affect tourist utilities.
基金funded by the Henan Provincial Science and Technology Project(212102310859)the Start-up Funds for High Level Talents of Zhoukou Normal University(ZKNUC 72019).
文摘Efective Selective Laser Melting(SLM)molding methods for femur implant design and molding can improve femur implant surgerysucess rates and enhance patients quality of life.In this study,an individualized femur implant and individualized biological fixed-typefenur implant were designed using the parametric modeling method.The implants were then directly manufactured via SLM moldingtechnology as the forming process was carefuly analyzed.The results indicate that the proposed implant allows for favorable conjunctionof the reconstructed implant model with the surrounding bone tissues under the premise of a relatively small amount of bone-cutting.Theproposed implant also shows even pore distribution,good overall connectivity,relatively high bearing capacity,favorable overlappingbetween supports,and strong inter-pore connectivity.Only a small amount of powder adheres onto the surface and can be directly usedafter simple sand blasting and polishing.The comprehensive analyses of fenur implant modeling and molding methods given in this papermay provide a sound foundation for the design and direct manufacture of individualized femur implants in the future.