BACKGROUND Lumbar radiculopathy spondylosis is a relatively common orthopedic disease with a high incidence rate.It most commonly occurs in the lumbar 4-5 and lumbar 5-sacral 1 vertebrae,which account for approximatel...BACKGROUND Lumbar radiculopathy spondylosis is a relatively common orthopedic disease with a high incidence rate.It most commonly occurs in the lumbar 4-5 and lumbar 5-sacral 1 vertebrae,which account for approximately 95%of cases.It mostly occurs in people aged 30-50 years old and greatly affects their quality of life.AIM To determine the effect of triple-voltage acupuncture combined with helium-neon laser irradiation on the quality of care and improvement of symptoms in patients with lumbar radiculopathy spondylolisthesis.METHODS In this study,we selected 120 patients with lumbar radiculopathy spondylosis who were treated at our hospital between June 2019 to June 2020.The patients were divided into control and observation groups according to the random number table method,with 60 patients in each group.Patients in the observation group were treated with three-volt moxibustion combined with helium-neon laser irradiation,and those in the control group were treated with lumbar traction.After 1 month of treatment,the lumbar pain scores,lumbar spine motor functions,clinical treatment effects,and nursing satisfaction of the two groups were compared.RESULTS The results showed that acupuncture combined with laser irradiation significantly improved the patients'clinical symptoms,i.e.,reduced their low back pain,significantly lower numerical rating scale pain scores in the observation group than in the control group,and better lumbar spine motility than in the control group,compared to lumbar traction.In addition,they were cared for.The treatment effectiveness rate of the observation group was 95.5%,which was significantly higher than that of the control group(81.67%).Satisfaction with care was higher than 90 points in both groups,but the difference was not statistically significant.CONCLUSION Our study provides a clinical rationale for the future treatment of patients with lumbar spine disease.However,further extensive research is needed for validation.展开更多
高间歇性、高波动性分布式电源(distributed generation,DG)的持续大量接入给配电网的无功电压管理带来严峻挑战,对无功优化的时效性提出了更高要求。现有电压无功控制研究普遍基于单一电压等级和三相平衡网络模型假设,但实际中低压配...高间歇性、高波动性分布式电源(distributed generation,DG)的持续大量接入给配电网的无功电压管理带来严峻挑战,对无功优化的时效性提出了更高要求。现有电压无功控制研究普遍基于单一电压等级和三相平衡网络模型假设,但实际中低压配网两侧的DG、负荷通过配电变压器的耦合互动不断加剧。同时,由于换相缺失、线路不对称布置、负荷及DG不均匀接入等因素,配电网不平衡特性日益加剧,沿用单一电压等级和三相平衡网络可致电压无功控制决策结果不合理甚至不可行。为此,提出一种基于线性规划的中低压不平衡配电网电压无功实时优化方法。具体通过中压配网静止无功发生器(static var generator,SVG)和低压配网分布式光伏逆变器的协调控制,在满足电网运行约束和控制设备能力约束的情况下,实现中低压不平衡配电网节点电压偏差的最小化。同时,为满足高间歇性DG接入对电压无功控制实时性的要求,对上述非线性电压无功优化问题进行线性化逼近,并采用CPLEX求解器对相应线性规划问题进行有效求解。最后,基于某澳大利亚真实配网开展24h仿真,验证了所提基于线性规划的中低压不平衡配电网电压无功实时优化的有效性和优越性。展开更多
分布式可再生能源的大规模接入,加剧了有源配电网(Active Distribution Network,ADN)的三相不平衡,容易导致系统电压越限与线损增加。然而,由于当前配电网量测设备安装不全,部分节点负荷数据难以准确获取,因此传统基于全局观测的ADN电...分布式可再生能源的大规模接入,加剧了有源配电网(Active Distribution Network,ADN)的三相不平衡,容易导致系统电压越限与线损增加。然而,由于当前配电网量测设备安装不全,部分节点负荷数据难以准确获取,因此传统基于全局观测的ADN电压控制方法难以满足实际控制需求。为解决上述问题,提出一种含深度学习代理模型的电压无功控制(Volt/Var control,VVC)进化算法。设计以高速公路神经网络为代理模型,精确拟合局部量测负荷信息、调压控制策略与系统性能指标之间的映射关系。将训练后的代理模型嵌入非支配排序遗传算法的迭代寻优过程中,对电压偏移率、三相不平衡度及线路损耗指标进行直接计算,实现数据驱动的配电网VVC策略快速求取。在改进的IEEE 123节点三相配电网算例上进行测试,验证了所提算法的性能优势及求解效率。展开更多
For a practical superconducting quantum interference device(SQUID) based measurement system,the Tesla/volt coefficient must be accurately calibrated.In this paper,we propose a highly efficient method of calibrating ...For a practical superconducting quantum interference device(SQUID) based measurement system,the Tesla/volt coefficient must be accurately calibrated.In this paper,we propose a highly efficient method of calibrating a SQUID magnetometer system using three orthogonal Helmholtz coils.The Tesla/volt coefficient is regarded as the magnitude of a vector pointing to the normal direction of the pickup coil.By applying magnetic fields through a three-dimensional Helmholtz coil,the Tesla/volt coefficient can be directly calculated from magnetometer responses to the three orthogonally applied magnetic fields.Calibration with alternating current(AC) field is normally used for better signal-to-noise ratio in noisy urban environments and the results are compared with the direct current(DC) calibration to avoid possible effects due to eddy current.In our experiment,a calibration relative error of about 6.89 × 10-4is obtained,and the error is mainly caused by the non-orthogonality of three axes of the Helmholtz coils.The method does not need precise alignment of the magnetometer inside the Helmholtz coil.It can be used for the multichannel magnetometer system calibration effectively and accurately.展开更多
文摘BACKGROUND Lumbar radiculopathy spondylosis is a relatively common orthopedic disease with a high incidence rate.It most commonly occurs in the lumbar 4-5 and lumbar 5-sacral 1 vertebrae,which account for approximately 95%of cases.It mostly occurs in people aged 30-50 years old and greatly affects their quality of life.AIM To determine the effect of triple-voltage acupuncture combined with helium-neon laser irradiation on the quality of care and improvement of symptoms in patients with lumbar radiculopathy spondylolisthesis.METHODS In this study,we selected 120 patients with lumbar radiculopathy spondylosis who were treated at our hospital between June 2019 to June 2020.The patients were divided into control and observation groups according to the random number table method,with 60 patients in each group.Patients in the observation group were treated with three-volt moxibustion combined with helium-neon laser irradiation,and those in the control group were treated with lumbar traction.After 1 month of treatment,the lumbar pain scores,lumbar spine motor functions,clinical treatment effects,and nursing satisfaction of the two groups were compared.RESULTS The results showed that acupuncture combined with laser irradiation significantly improved the patients'clinical symptoms,i.e.,reduced their low back pain,significantly lower numerical rating scale pain scores in the observation group than in the control group,and better lumbar spine motility than in the control group,compared to lumbar traction.In addition,they were cared for.The treatment effectiveness rate of the observation group was 95.5%,which was significantly higher than that of the control group(81.67%).Satisfaction with care was higher than 90 points in both groups,but the difference was not statistically significant.CONCLUSION Our study provides a clinical rationale for the future treatment of patients with lumbar spine disease.However,further extensive research is needed for validation.
文摘高间歇性、高波动性分布式电源(distributed generation,DG)的持续大量接入给配电网的无功电压管理带来严峻挑战,对无功优化的时效性提出了更高要求。现有电压无功控制研究普遍基于单一电压等级和三相平衡网络模型假设,但实际中低压配网两侧的DG、负荷通过配电变压器的耦合互动不断加剧。同时,由于换相缺失、线路不对称布置、负荷及DG不均匀接入等因素,配电网不平衡特性日益加剧,沿用单一电压等级和三相平衡网络可致电压无功控制决策结果不合理甚至不可行。为此,提出一种基于线性规划的中低压不平衡配电网电压无功实时优化方法。具体通过中压配网静止无功发生器(static var generator,SVG)和低压配网分布式光伏逆变器的协调控制,在满足电网运行约束和控制设备能力约束的情况下,实现中低压不平衡配电网节点电压偏差的最小化。同时,为满足高间歇性DG接入对电压无功控制实时性的要求,对上述非线性电压无功优化问题进行线性化逼近,并采用CPLEX求解器对相应线性规划问题进行有效求解。最后,基于某澳大利亚真实配网开展24h仿真,验证了所提基于线性规划的中低压不平衡配电网电压无功实时优化的有效性和优越性。
文摘分布式可再生能源的大规模接入,加剧了有源配电网(Active Distribution Network,ADN)的三相不平衡,容易导致系统电压越限与线损增加。然而,由于当前配电网量测设备安装不全,部分节点负荷数据难以准确获取,因此传统基于全局观测的ADN电压控制方法难以满足实际控制需求。为解决上述问题,提出一种含深度学习代理模型的电压无功控制(Volt/Var control,VVC)进化算法。设计以高速公路神经网络为代理模型,精确拟合局部量测负荷信息、调压控制策略与系统性能指标之间的映射关系。将训练后的代理模型嵌入非支配排序遗传算法的迭代寻优过程中,对电压偏移率、三相不平衡度及线路损耗指标进行直接计算,实现数据驱动的配电网VVC策略快速求取。在改进的IEEE 123节点三相配电网算例上进行测试,验证了所提算法的性能优势及求解效率。
基金Project supported by the“Strategic Priority Research Program(B)”of the Chinese Academy of Sciences(Grant No.XDB04020200)the Shanghai Municipal Science and Technology Commission Project,China(Grant No.15DZ1940902)
文摘For a practical superconducting quantum interference device(SQUID) based measurement system,the Tesla/volt coefficient must be accurately calibrated.In this paper,we propose a highly efficient method of calibrating a SQUID magnetometer system using three orthogonal Helmholtz coils.The Tesla/volt coefficient is regarded as the magnitude of a vector pointing to the normal direction of the pickup coil.By applying magnetic fields through a three-dimensional Helmholtz coil,the Tesla/volt coefficient can be directly calculated from magnetometer responses to the three orthogonally applied magnetic fields.Calibration with alternating current(AC) field is normally used for better signal-to-noise ratio in noisy urban environments and the results are compared with the direct current(DC) calibration to avoid possible effects due to eddy current.In our experiment,a calibration relative error of about 6.89 × 10-4is obtained,and the error is mainly caused by the non-orthogonality of three axes of the Helmholtz coils.The method does not need precise alignment of the magnetometer inside the Helmholtz coil.It can be used for the multichannel magnetometer system calibration effectively and accurately.