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SHAKING MOMENT BALANCING OF SPATIAL LINKAGES BY ADDING PLANAR CAMS
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《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 1996年第1期38-44,共3页
SHAKINGMOMENTBALANCINGOFSPATIALLINKAGESBYADDINGPLANARCAMSHanJianyou;(BeijingUniversityofScienceandTechnology... SHAKINGMOMENTBALANCINGOFSPATIALLINKAGESBYADDINGPLANARCAMSHanJianyou;(BeijingUniversityofScienceandTechnology)HuangZhen(Yansha... 展开更多
关键词 SHAKING moment balancing OF SPATIAL LINKAGES BY ADDING PLANAR CAMS 震动力矩 空间机构
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A Measure System of Zero Moment Point Using Wearable Inertial Sensors
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作者 Xianggang Zhang Hao Wang +3 位作者 Yuliang Shi Changjun Fu Huiqin Wang Guoyu Wang 《China Communications》 SCIE CSCD 2016年第5期16-27,共12页
Keeping balance is the premise of human walking. ZMP(zero moment point) is a point where total torque achieves balance. It is an important evaluation parameter of balance ability in walking, since it can be used to be... Keeping balance is the premise of human walking. ZMP(zero moment point) is a point where total torque achieves balance. It is an important evaluation parameter of balance ability in walking, since it can be used to better reflect the dynamic balance during walking. ZMP can be used in many applications, such as medical rehabilitation, disease diagnosis, treatment and etc. In this paper, wearable inertial sensors system based on MEMS is used to measure ZMP(zero moment point) during walking, which is cheap, convenient, and free from the restriction of lab. Our wearable ZMP measurement system consists of inertial measurement subsystem and PC real-time monitoring station. Inertial measurement subsystem includes 9-axis inertial sensing nodes, the body communication network and the central node. Inertial sensing nodes are mounted on different parts of the body to collect body posture information in real-time, and then the best estimation of current posture are obtained by Kalman filter. The data from sensors is aggregated to the central node through the CAN bus, and then ZMP is calculated. Finally, it can be showed in the PC monitoring station. Experiments prove the system can achieve real-time ZMP detection during walking. 展开更多
关键词 zero moment point body balance inertial measurement quaternion Kalman filter
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Rotational Inertial Physics in Non-Classical Thermoviscous Fluent Continua Incorporating Internal Rotation Rates
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作者 K. S. Surana J. K. Kendall 《Applied Mathematics》 2022年第6期453-487,共35页
In this paper, we derive non-classical continuum theory for physics of compressible and incompressible thermoviscous non-classical fluent continua using the conservation and balance laws (CBL) by incorporating additio... In this paper, we derive non-classical continuum theory for physics of compressible and incompressible thermoviscous non-classical fluent continua using the conservation and balance laws (CBL) by incorporating additional physics of internal rotation rates arising from the velocity gradient tensor as well as their time varying rates and the rotational inertial effects. In this non-classical continuum theory time dependent deformation of fluent continua results in time varying rotation rates i.e., angular velocities and angular accelerations at material points. Resistance offered to these by deforming fluent continua results in additional moments, angular momenta and inertial effects due to rotation rates i.e., angular velocities and angular accelerations at the material points. Currently, this physics due to internal rotation rates and inertial effects is neither considered in classical continuum mechanics (CCM) nor in non-classical continuum mechanics (NCCM). In this paper, we present a derivation of conservation and balance laws in Eulerian description: conservation of mass (CM), balance of linear momenta (BLM), balance of angular momenta (BAM), balance of moment of moments (BMM), first and second laws of thermodynamics (FLT, SLT) that include: (i) Physics of internal rotation rates resulting from the velocity gradient tensor;(ii) New physics resulting due to angular velocities and angular accelerations due to spatially varying and time dependent rotation rates. The balance laws derived here are compared with those that only consider the rotational rates but neglect rotational inertial effects and angular accelerations to demonstrate the influence of the new physics. Constitutive variables and their argument tensors are established using conjugate pairs in the entropy inequality, additional desired physics and principle of equipresence when appropriate. Constitutive theories are derived using Helmholtz free energy density as well as representation theorem and integrity (complete basis). It is shown that the mathematical model consisting of the conservation and balance laws and constitutive theories presented in this paper has closure. Influence of new physics in the conservation and balance laws on compressible and incompressible thermoviscous fluent continua is demonstrated due to presence of angular velocities and angular accelerations arising from time varying rotation rates when the deforming fluent continua offer rotational inertial resistance. The fluent continua are considered homogeneous and isotropic. Model problem studies are considered in a follow-up paper. 展开更多
关键词 Non-Classical Continuum Mechanics Internal Rotation Rates Angular Velocities Angular Accelerations Rotational Inertia Balance of moment of moments Thermoviscous Fluent Continua
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