In our recently co-authored Physiological Reviews manuscript entitled "The biology of regeneration failure and success after spinal cord injury" (Tran et al., 2018b), we sought to provide a comprehensive and up-to...In our recently co-authored Physiological Reviews manuscript entitled "The biology of regeneration failure and success after spinal cord injury" (Tran et al., 2018b), we sought to provide a comprehensive and up-to-date de- scription of how the glial scar develops following spinal cord injury (SCI) to chronically inhibit axon regeneration.展开更多
This paper discusses the control strategy for energy management in railway transit network with wayside(substation)supercapacitor(SC)energy storage system(ESS).Firstly,the structure of the wayside energy storage syste...This paper discusses the control strategy for energy management in railway transit network with wayside(substation)supercapacitor(SC)energy storage system(ESS).Firstly,the structure of the wayside energy storage system is introduced.Secondly,the model of energy storage system is built and the control strategy is described.Thirdly,in order to estimate the required energy storage system,a useful method is proposed to predict the instantaneous regenerative energy magnitude which is delivered to each substation.Finally,the ESS configuration for each substation is determined.A simplified mathematical model of the whole metro network is established and the main features of the control strategy are developed.Numerical simulations show the efficacy of suggested control strategy and the energy saving obtained for railway transit network.展开更多
基金funded by the International Spinal Research Trust,Wings for Lifefunded by NINDS NS025713,The Hong Kong Spinal Cord Injury FundThe Brumagen/Nelsen Fund
文摘In our recently co-authored Physiological Reviews manuscript entitled "The biology of regeneration failure and success after spinal cord injury" (Tran et al., 2018b), we sought to provide a comprehensive and up-to-date de- scription of how the glial scar develops following spinal cord injury (SCI) to chronically inhibit axon regeneration.
文摘This paper discusses the control strategy for energy management in railway transit network with wayside(substation)supercapacitor(SC)energy storage system(ESS).Firstly,the structure of the wayside energy storage system is introduced.Secondly,the model of energy storage system is built and the control strategy is described.Thirdly,in order to estimate the required energy storage system,a useful method is proposed to predict the instantaneous regenerative energy magnitude which is delivered to each substation.Finally,the ESS configuration for each substation is determined.A simplified mathematical model of the whole metro network is established and the main features of the control strategy are developed.Numerical simulations show the efficacy of suggested control strategy and the energy saving obtained for railway transit network.
