该系统包括定位锚点词、实例抽取、检错和纠错四个模块。
The system includes four modules: locating the anchor words, examples extraction, error detection and error correction.
微管的动态不稳定性允许探测微管锚网站,并可以结合主轴定位部分的构成。
Microtubule dynamic instability allows probing for microtubule anchor sites, and can be coupled to spindle positioning force generation.
移动锚节点在网络中不断传播自己位置,协助未知节点定位自身位置。
The mobile anchor spreads its location information to unknown nodes, assisting which to make range-free localization.
实验结果表明,在不同锚节点比率和不同节点总数的情况下,该算法的定位精度比DLE算法提高20%以上。
Simulation results show that, comparing with the Distributed Localization Estimating (DLE) algorithm, the accuracy of the proposed algorithm is improved more than 20%.
本文采用移动锚节点并结合PBCC算法,提出一种复杂度低、精度高的节点自身定位改进算法。
This paper adopts mobile anchor node combining PBCC algorithm, and proposes a self-localization algorithm with low energy consumption and high precision.
使用移动锚节点定位方法有很多优点,如定位成本低、容易达到很高的定位精度、易于实现三维定位等。
Algorithms used one mobile anchor node have many advantages, such as low cost, high precision, easy to realize 3-d positioning, etc.
为了使传感器节点自定位精度能够适应于不同网络规模应用的需要,提出了多跳跃蒙特—卡罗节点定位方法,解决了锚节点密度低的应用限制。
In order to make node self-localization precision satisfy the need of varied network size, hybrid-hop Monte-Carlo method is proposed to solve the constraint of low anchor node density.
该持物件的锚颈部卡入扣孔,而该锚头部与肩部共同夹持住扣孔两侧而定位,而延伸部则供扣接或悬挂承置物。
The anchor head and the shoulder jointly hold both sides of the buckle hole to be positioned. The extended part is buckled or hung with a hung object.
现有的三维定位算法有两种解决方案,一种是依靠与锚节点进行信息交换,通过三角计算等方法来获取未知节点的位置;
The existing 3D localization algorithm can be classified into two sorts:one solution is based on information exchange with anchors, and the position is calculated by methods such as triangulation.
该系统包括可定位在一个或多个在体腔内组织中生成的开孔内,如在成襞的人体组织中生成的切口内的一个或多个锚基。
The system includes one or more anchors positionable within one or more openings formed in tissue within the body cavity, such as cutouts formed in plicated body tissue.
倾斜柱脚采用锚栓群固定连接,定位困难且要求高。
Furthermore, the inclined column bases are fixed by anchor bolts group with high requirements, so it is difficult to locate them.
柱脚预埋锚栓均采用定位支架、定位环板控制其安装精度。
Location bracings and annular plates are adopted for embedded anchor bolts to control installation precision.
柱脚预埋锚栓均采用定位支架、定位环板控制其安装精度。
Location bracings and annular plates are adopted for embedded anchor bolts to control installation precision.
应用推荐