## What is/are 3d Distribution?

3d Distribution - The DBN can find the best 3D spatial distribution structure of RFID tag group corresponding to the maximum reading distance, which can guide the 3D distribution of the tag group.^{[1]}The ability to observe in situ 3D distribution and dynamics of endosymbionts in corals is crucial for gaining a mechanistic understanding of coral bleaching and reef degradation.

^{[2]}The redshifts of these LAEs shed light on their 3D distributions within the observing window defined by the photometric selection.

^{[3]}Detection of 3D distribution of Evans blue dye in the brain in contrast to its total extraction reveals BBB damage in details.

^{[4]}We present a new open source toolkit to assist medical physicists in evaluating the 3D distributions of superficial dose in VMAT breast cancer treatments.

^{[5]}In this study the results from segmentation are used (i) to compute profiles of phase volume fraction and specific surface at high resolution, (ii) to observe 3D distribution of isolated elements, (iii) and to draw the void's skeleton and to perform a percolation pathway study.

^{[6]}Objectives: Development and experimental testing of the complex of Stokes-polarimetry and interferometry methods using algorithms for digital holographic reconstruction of the amplitude-phase structure of object fields for obtaining interrelationships between 3D distributions of depolarization maps and peculiarities of the polycrystalline structure of histological sections of biological tissues of different morphological structures and physiological state.

^{[7]}The results from a proof-of-concept experiment prove the good fidelity of the absorption-corrected CTC technique in solving the 3D distribution of chemiluminescence.

^{[8]}In this paper we give an overview of the results of a numerical simulation of the 3D distributions of magnetic fields for the SPD detector at NICA (Joint Institute for Nuclear Research (JINR), Dubna).

^{[9]}Nevertheless, in spite of the many tools available for efficient localization detection and image rendering, it has been a challenge to quantitatively analyze the 3D distribution and relative positioning of proteins in these SMLM data.

^{[10]}This 3D measurement method utilizes 8 multi-directional CH* images as inputs combined with tomographic algorithms to compute the 3D distribution of CH* intensities.

^{[11]}The ability to observe in situ 3D distribution and dynamics of endosymbionts in corals is crucial for gaining a mechanistic understanding of coral bleaching and reef degradation.

^{[12]}In the proposed method, we configure a 3D model for the central-peripheral region of a lung, represent the similarity for the 3D distribution of lesions as histograms, and then retrieve the cases of the similar histograms.

^{[13]}Cross-plane measurements together with the measurements for the pairs of most distant electrodes are essential for accurate reconstruction of 3D distributions.

^{[14]}Here, we have used in vivo high-resolution optical coherence tomography (OCT) and scanning laser ophthalmoscopy with and without adaptive optics to quantify the 3D distribution and dynamics of microglia in the living retina before and after local damage to photoreceptors.

^{[15]}The technique enables obtaining statistical characteristics of the 3D distribution and size of the mineral phases.

^{[16]}The goal of this survey is to study the formation and evolution of the Milky Way halo to deduce its assembly history and the 3D distribution of mass in the Milky Way.

^{[17]}It is shown that certain three-dimensional (3D) distributions of real and virtual point emitters provide a nonparaxial energy cone with the same geometry of the cone provided by the single ideal real point emitter placed at the midpoint of the 3D distribution.

^{[18]}Thus, the loads estimated by using the beam element are transformed into a 3D distribution pressure loads for the shell element.

^{[19]}In the absence of the in-situ measurements, the satellite-based retrievals of the vertical distribution of CH4 using Atmospheric Infrared Sounder (AIRS) measurements during the period 2003–2015 were made use in this study for the first time to understand the 3D distribution (latitude-longitude-altitude) of CH4 over Indian region.

^{[20]}Their sizes and relative 3D distribution have been precisely quantified.

^{[21]}Here, we examined the 3D distribution of olfactory surface area (SA) and nasal airflow patterns in the pygmy slow loris (Nycticebus pygmaeus), a primate with primitive nasal cavities, except for enlarged eyes that converge upon the posterodorsal nasal region.

^{[22]}, suitability or presence/absence maps) for 3D distribution generation.

^{[23]}We studied the 3D distribution of quorum sensing signalling molecules, nucleobases and bacterial membrane molecules, in a mature Pseudomonas aeruginosa biofilm, with high spatial-resolution and high mass-resolution.

^{[24]}Optimizing light delivery for photodynamic therapy, quantifying tissue optical properties or reconstructing 3D distributions of sources in bioluminescence imaging and absorbers in diffuse optical imaging all involve solving an inverse problem.

^{[25]}The in situ mechanisms of these complexes are unclear because their 3D distribution, organization, and interactions are largely unknown.

^{[26]}The paper presents a hybrid bubble hologram processing approach for measuring the size and 3D distribution of bubbles over a wide range of size and shape.

^{[27]}Using distribution of halos derived from numerical simulations, we show that the proposed method is able to recover the filamentary pattern in a 2D or 3D distribution of points with noise and outliers robustness with few and comprehensible parameters.

^{[28]}32 μm×2 μm and quantitatively analyzed the 3D distribution of amyloid plaques in different brain regions and nuclei through automated registration, segmentation and counting.

^{[29]}This 3D measurement method utilizes CH* images from 8 directional as inputs combined with tomographic algorithms to compute the 3D distribution of CH* CL intensities.

^{[30]}A dynamic model, able to evaluate the 3D distribution of the mean radiant temperature in the whole volume of a thermal zone is developed.

^{[31]}For three couplings, the 3D distributions of the largest Lyapunov exponent and correlation dimension diagram (CDD) were plotted.

^{[32]}The technique enables obtaining statistical characteristics of the 3D distribution and size of the mineral phases.

^{[33]}Detailed 3D distribution of UBTF1 and 2 was also studied by electron tomography.

^{[34]}The combination of all these techniques, enhanced by metiS software, allows us to determine the complete 3D distribution of oxides or to estimate the probability of largest inclusion size by modelling virtual samples.

^{[35]}“This approach provided us with information on the 3D distribution of distinct macrophage subsets within the joint.

^{[36]}In spite of the many tools available for efficient localization detection and image rendering, it has been a challenge to quantitatively analyze the 3D distribution and relative positioning of proteins in these SMLM data.

^{[37]}In our further research, we intend to focus on investigation of the profile of the beam getting out of the separator using a pixel detector to obtain information on 3D distribution of the beam energy.

^{[38]}3D distributions of deposited energy obtained from source distributions generated by the GAN were close to the reference ones, with less than 1\% of voxel-by-voxel relative difference.

^{[39]}We present a joint inversion approach of ambient noise surface wave and gravity constrained by the 3D distribution of electrical resistivity.

^{[40]}Using this 3D distribution model of UAVs, two performance metrics, i.

^{[41]}Recently developed three-dimensional IZ imaging (3DIZI) is the only technique currently available to provide 3D distributions of IZs in vivo, yet its performance has not been validated under pathological conditions.

^{[42]}The recovered complex-valued wavefront is then propagated back to the sample planes, thus reconstructing the 3D distribution of the sample.

^{[43]}For selective internal radiation therapy (SIRT) the calculation of the 3D distribution of spheres based on individual blood flow properties is still an open and relevant research question.

^{[44]}Nevertheless, the 3D distribution of fines in paper sheets has not been revealed so far.

^{[45]}However, 3D seismic reflection data provide an opportunity to directly map the 3D distribution of key petroleum system elements, thereby supplementing typically sparse, 1D sedimentary facies information available from wells.

^{[46]}The process of building three-dimensional (3D) geological models can be framed as an inverse problem where a model describing the 3D distribution of rock units is non-uniquely derived from geological observations.

^{[47]}We use either 2D slices in projection, or the 3D distribution of galaxies based on photometric redshifts to identify voids.

^{[48]}METHODS We efficiently produced hiPSC-CM spheroids in 3-dimensional (3D) culture using microwell plates, and developed an injection device for optimal 3D distribution of the spheroids in the myocardial layer.

^{[49]}Thanks to the extended coverage of this mosaic, we probe the full 3D distribution of galaxies in the field, giving us a unique picture of the extended structure of the cluster and its surroundings.

^{[50]}

## Full 3d Distribution

Thanks to the extended coverage of this mosaic, we probe the full 3D distribution of galaxies in the field, giving us a unique picture of the extended structure of the cluster and its surroundings.^{[1]}Further, IPS estimates of density turbulence and speed have been used as inputs to the University of California, San Diego (UCSD) timedependent tomography to reconstruct the full 3D distributions of both solar wind speed and density throughout the inner heliosphere.

^{[2]}Using a high‐fidelity, 3D computational model of blood flow in microvascular networks, we provide the full 3D distribution of wall shear stress (WSS), and its gradient (WSSG), and quantify the influence of red blood cells (RBCs) on WSS and WSSG.

^{[3]}

## Situ 3d Distribution

The ability to observe in situ 3D distribution and dynamics of endosymbionts in corals is crucial for gaining a mechanistic understanding of coral bleaching and reef degradation.^{[1]}The ability to observe in situ 3D distribution and dynamics of endosymbionts in corals is crucial for gaining a mechanistic understanding of coral bleaching and reef degradation.

^{[2]}

## Provide 3d Distribution

Recently developed three-dimensional IZ imaging (3DIZI) is the only technique currently available to provide 3D distributions of IZs in vivo, yet its performance has not been validated under pathological conditions.^{[1]}FMT is the only imaging technique able to provide 3D distribution of fluorescent probes within thick highly scattering media.

^{[2]}