.Organ-on-Chip(OoC)has emerged as a revolutionary approach to emulate human organ function-ality in vitro,offering unparalleled insights into physiological processes and disease modeling.The integration of artificial i....Organ-on-Chip(OoC)has emerged as a revolutionary approach to emulate human organ function-ality in vitro,offering unparalleled insights into physiological processes and disease modeling.The integration of artificial intelligence(AI)with OoC platforms presents a transformative synergy,combining the precision of microscale organ replication with the analytical prowess of intelligent algorithms,is emerging as a transforma-tive force in harnessing the full potential of OoC.This perspective investigates the multifaceted implications of integrating AI with OoC,examining its impact on biomedical research,acknowledging the synergistic po-tential that arises from combining the precision of microscale organ replication with the analytical capabilities of intelligent algorithms,and fostering a future where the intricate workings of the technology and biology.展开更多
Variable-weight optical orthogonal code (OOC) was introduced by G. C. Yang [IEEE Trans. Commun., 1996, 44: 47-55] for multimedia optical CDMA systems with multiple quality of service (QoS) requirements. In this p...Variable-weight optical orthogonal code (OOC) was introduced by G. C. Yang [IEEE Trans. Commun., 1996, 44: 47-55] for multimedia optical CDMA systems with multiple quality of service (QoS) requirements. In this paper, seven new infinite classes of optimal (v, {3,4,6}, 1, Q)-OOCs are constructed.展开更多
In this paper,a new two-dimensional variable weight optical orthogonal code(2D-VWOOC)for optical code division multiple access(OCDMA)system is constructed.It takes the C as the frequency hopping sequence and the stric...In this paper,a new two-dimensional variable weight optical orthogonal code(2D-VWOOC)for optical code division multiple access(OCDMA)system is constructed.It takes the C as the frequency hopping sequence and the strict variable weight optical orthogonal code(SVWOOC)as the time spreading sequence.The code can meet the different quality of service(QoS)requirements of different users.Under the same time spread sequence,the bit error rate(BER)of QCHC/SVWOOC is 3~9 orders of magnitude lower than that of other similar 2D-VWOOCs.In Optisystem simulation,when the transmission rate of the system is 14 Gbits/s,the BER of users with code weight 4 is 7 orders of magnitude lower than that of users with code weight 2,and a clear and correct eye diagram can be obtained.展开更多
文摘.Organ-on-Chip(OoC)has emerged as a revolutionary approach to emulate human organ function-ality in vitro,offering unparalleled insights into physiological processes and disease modeling.The integration of artificial intelligence(AI)with OoC platforms presents a transformative synergy,combining the precision of microscale organ replication with the analytical prowess of intelligent algorithms,is emerging as a transforma-tive force in harnessing the full potential of OoC.This perspective investigates the multifaceted implications of integrating AI with OoC,examining its impact on biomedical research,acknowledging the synergistic po-tential that arises from combining the precision of microscale organ replication with the analytical capabilities of intelligent algorithms,and fostering a future where the intricate workings of the technology and biology.
基金The authors wish to thank the anonymous referees for their comments and suggestions that improved the quality of this paper. This work was supported in part by the National Natural Science Foundation of China (Crant No. 11271089), Guangxi Science Foundation (Crant No. 2012GXNSFAA053001), and the Foundation of Cuangxi Education Department (No. 201202ZD012).
文摘Variable-weight optical orthogonal code (OOC) was introduced by G. C. Yang [IEEE Trans. Commun., 1996, 44: 47-55] for multimedia optical CDMA systems with multiple quality of service (QoS) requirements. In this paper, seven new infinite classes of optimal (v, {3,4,6}, 1, Q)-OOCs are constructed.
基金This work has been supported by the Guangxi S&T Program(Nos.AB17292082 and AB18126025).
文摘In this paper,a new two-dimensional variable weight optical orthogonal code(2D-VWOOC)for optical code division multiple access(OCDMA)system is constructed.It takes the C as the frequency hopping sequence and the strict variable weight optical orthogonal code(SVWOOC)as the time spreading sequence.The code can meet the different quality of service(QoS)requirements of different users.Under the same time spread sequence,the bit error rate(BER)of QCHC/SVWOOC is 3~9 orders of magnitude lower than that of other similar 2D-VWOOCs.In Optisystem simulation,when the transmission rate of the system is 14 Gbits/s,the BER of users with code weight 4 is 7 orders of magnitude lower than that of users with code weight 2,and a clear and correct eye diagram can be obtained.