Plane Within(平面内)研究综述
Plane Within 平面内 - Whereas, uplifting the second solution, one finds a very interesting configuration where magnetic strings are located uniformly on a circle in a plane within the 4-dimensional flat transverse space and electric strings are distributed homogeneously inside this circle. [1] ” The zone is defined as the area on the pressure-volume (or stress-length) plane within which all stress-length contraction profiles reach their end-systolic points. [2] Taking into account the real crystalline structure of the $$\hbox {CuO}_2$$ plane within the spin-fermion model and using the diagram technique, the spin-polaron concept of the fermionic excitations in cuprate superconductors is implemented. [3] Objectives: Evaluate stray radiation to the operator, as represented by a plane within the significant zone of occupancy (SZO), produced by five models of hand-held intraoral dental X-ray devices (HIDXDs). [4] For this purpose, we propose a two-stage search algorithm, where the first stage aims to locate a promising hyperplane within the whole search space and the second stage tries to find improved solutions by exploring the reduced subspace defined by the hyperplane. [5]然而,提升第二个解决方案,人们发现了一个非常有趣的配置,其中磁弦均匀地位于 4 维平面横向空间内的平面上的一个圆上,而电弦均匀分布在这个圆内。 [1] ” 该区域被定义为压力-体积(或应力-长度)平面上的区域,在该区域内,所有应力-长度收缩曲线都达到其收缩末期点。 [2] 考虑到$$\hbox {CuO}_2$$的真实晶体结构 平面内的自旋费米子模型并使用图解技术,实现了铜酸盐超导体中费米子激发的自旋极化子概念。 [3] 目标:评估对操作员的杂散辐射,以显着占用区域 (SZO) 内的平面为代表,由五种手持式口腔内牙科 X 射线设备 (HIDXD) 产生。 [4] 为此,我们提出了一种两阶段搜索算法,其中第一阶段旨在在整个搜索空间中定位一个有希望的超平面,第二阶段试图通过探索由超平面定义的缩减子空间来找到改进的解决方案。 [5]
plane within 1 平面内 1
Experimental results on various scenarios demonstrate that our sparse fusion module running on the drone platform can update the semantic plane within 1 ms, which is faster and achieves greater accuracy than the state-of-the-art real-time semantic reconstruction method. [1] The distance between the embryo and the fundus was measured in the sagittal plane within 1 min of the transfer. [2]各种场景的实验结果表明,我们在无人机平台上运行的稀疏融合模块可以在 1 ms 内更新语义平面,这比最先进的实时语义重建方法更快,精度更高。 [1] 在移植后 1 min 内,在矢状面上测量胚胎与眼底之间的距离。 [2]