使用廉价的电子游戏外围设备、嵌入式加速计和从笔记本电脑到手持电话等各种PC设备,可以实现控制应用程序的新方式。
Inexpensive video game peripherals with embedded accelerometers and PC devices ranging in size from laptops to hand-held phones are enabling new methods for application control.
除了一个加速计之外,该控制器还采用磁场跟踪你的手的三维位置。
Rather than relying solely on an accelerometer, this controller USES a magnetic field to track both your hands' positions in 3d space.
眼压计中步进电机直线加速控制是该系统中一项重要的单元技术。
Stepping motor linear accelerating control in intraocular pressure apparatus is an important elementary technology of the system.
为了提高电池的使用寿命,采用ADIS双轴加速度计控制电池的工作时间,减少仪器非工作状态下的能耗。
In order to improve battery life, ADIS16006 was used to control the working hours of battery to reduce the energy consumption.
为提高灵敏度和线性,该加速度计采用静电力反馈闭环控制方式,检测与处理电路采用高精度双极线性电路工艺进行了工艺流片。
To improve sensitivity and linearity, feedback loop was adopted with electrostatic in detection and managing circuit, which is fabricated with high precision bipolar linear circuit technology.
室内试验和现场试验证明,通过使用ADIS双轴加速度计可以正确控制电池的工作状态,满足设计要求。
The tests of laboratory and field proved that ADIS16006 can accurately control the working state of the battery and meet the design requirements.
传感反射以加速度计、振动陀螺仪、力传感器获得的信息为依据,通过上体姿态控制、ZMP控制和落地时间控制实现传感反射控制。
It describes actualization of a sensory reflex, which consists of a body posture control, an ZMP control and a landing time control.
传感反射以加速度计、振动陀螺仪、力传感器获得的信息为依据,通过上体姿态控制、ZMP控制和落地时间控制实现传感反射控制。
It describes actualization of a sensory reflex, which consists of a body posture control, an ZMP control and a landing time control.
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