| 1. | Phase synchronization and brain integration
神经元活动的时相同步与脑功能整合 |
| 2. | Biased anti - phase synchronization in spatiotemporal chaos
时空混沌系统中有偏反相同步研究 |
| 3. | Automatic phase synchronization
自动相位同步 |
| 4. | Furthermore , a new time and phase synchronization scheme using a globe positioning system of a satellite ( gps ) is presented
该方案克服了传统时间同步装置需要较长时间来校正频率误差的缺陷,使校正后的精度大为提高。 |
| 5. | It is expected that this scheme can realize the time synchronization , frequency synchronization and phase synchronization of the bistatic radar system effectively
分析论证表明,论文提出的双基地雷达同步系统方案是正确的和实现可行的。 |
| 6. | Such property change of the unstable fixed point allows the possibility of the oscillators with different time scales adjusting to a functional perfect phase synchronization , in contrast to the imperfect one before the control
不动点性质的这种改变是引起非完美相同步向完美相同步的转变和时空混沌得以控制的内在机制。 |
| 7. | The error of each technology and revising of the error also are topics of focus . in the last section , the author presents a technical scheme of time and phase synchronization based on gps . furthermore , the maintenance of synchronization is discussed
第五章在以上基本理论和关键技术研究的基础上,提出了利用gps实现双基地雷达时间、频率同步的系统方案,并详细讨论了同步保持的问题,对相应的指标作了进一步的分析、论证。 |
| 8. | The paper gives two ways to solve the phase synchronization , which is a key technology to bistatic sar , namely direct synchronization and indirect synchronization . meanwhile , the paper also studies the affection of linear phase error , quadratic phase error and sine phase error which are engendered by the method mentioned of the paper upon imaging
相位同步问题是双站sar的一个关键技术问题,本文提出用直接同步法和间接同步法解决,并着重讨论了两种方法中可能出现的一次相位误差、二次相位误差、正弦相位误差对成像的影响。 |
| 9. | Also it can effectively solve the main " four - threat " of single radar system . however , there ' s some problems must to be resolved , such as time synchronization , space and phase synchronization , signal processing , and clutter constricting , etc . this thesis concentrates on the time synchronization and phase synchronization of bistatic radar system
双基地雷达体制和系统结构上的特殊性决定了它在技术上具有不同于传统雷达的一些特点,所以双基地雷达系统的研制首先需要解决时间同步、频率和相位同步、空间同步、信号处理、杂波抑制等关键技术。 |
| 10. | For the direct current decouple controller , the p1 adjustor ? parameter of current and voltage loop ? is designed . the correction of the designed parameter is testified by simulating on two phase synchronization coordinate and three phase stationary coordinate , the simulation wave is given
对直接电流解耦控制器的电流环和电压环的pi调节器参数进行了设计,并通过在两相同步坐标系与三相静态坐标系的仿真验证了设计参数的正确性,同时也验证了直接电流解耦控制方案的可行性,给出了仿真波形。 |
