Three-dimensional Camera Using Parallel-aligned Camera Array and Depth Estimation for Generating High-density Directional Images

With the continuous miniaturization of electronic devices and the upcoming new technologies such as Artificial Intelligence (AI), Internet of Things (IoT), fifth-generation cellular networks (5G), etc., the electronics industry is achieving high-speed, high-performance, and high-density electronic packaging. Three-dimensional (3D) Si-chip stacking using through-Si-via (TSV) and solder bumping processes are the key interconnection technologies that satisfy the former requirements and receive the most attention from the electronic industries. This review mainly includes two directions to get a precise understanding, such as the TSV filling and solder bumping, and explores their reliability aspects. TSV filling addresses the DRIE (deep reactive ion etching) process, including the coating of functional layers on the TSV wall such as an insulating layer, adhesion layer, and seed layer, and TSV filling with molten solder. Solder bumping processes such as electroplating, solder ball bumping, paste printing, and solder injection on a Cu pillar are discussed. In the reliability part for TSV and solder bumping, the fabrication defects, internal stresses, intermetallic compounds, and shear strength are reviewed. These studies aimed to achieve a robust 3D integration technology effectively for future high-density electronics packaging.

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Stereo viewing modulates three-dimensional shape processing during object recognition: A high-density ERP study.

Journal of Experimental Psychology Human Perception & Performance ◽

10.1037/xhp0000444 ◽

2018 ◽

Vol 44 (4) ◽

pp. 518-534 ◽

Cited By ~ 1

Author(s):

Zoe J. Oliver ◽

Filipe Cristino ◽

Mark V. Roberts ◽

Alan J. Pegna ◽

E. Charles Leek

Keyword(s):

Object Recognition ◽

Three Dimensional ◽

High Density ◽

Shape Processing ◽

Dimensional Shape ◽

Three Dimensional Shape

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Three-Dimensional Magneto-Optical Recording

MRS Proceedings ◽

10.1557/proc-834-j3.1 ◽

2004 ◽

Vol 834 ◽

Author(s):

Akiyoshi Itoh

Keyword(s):

Storage System ◽

Three Dimensional ◽

Optical Recording ◽

High Density ◽

The Novel ◽

National Project ◽

3 Dimensional ◽

Disk Storage ◽

High Density Recording ◽

New Type

ABSTRACTIn this report, the newly developed three-dimensional magneto-optical (MO) recording scheme and the experimental results are reported. A part of this work has been done as the national project of 3D-MO (3-dimensional MO) project. It started at September 1998 and ended March 2002 as a part of the national project “Nanometer-Scale Optical High Density Disk Storage System” and aimed at achieving 100 Gb/in2 in storage density. Three-dimensional MO recording is one of the prosperous candidates of next generation ultra high density recording. Magnetic amplifying MO system (MAMMOS) is employed for achieving the novel three-dimensional MO recording. Double-MAMMOS scheme consists of 2-recording layers of differing compensation temperature (Tcomp ) and one readout layer was proposed and discussed.With write/read test it is succeeded to show the results corresponding to a 100 Gb/in2 (50 Gb/in2 × 2) recording density. We also proposed and showed results of simulations of a new type of Double-MAMMOS in which the recording layers can hold quadri-valued information by single writing process.

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Three-dimensional high-density co-culture with primary tenocytes induces tenogenic differentiation in mesenchymal stem cells

Journal of Orthopaedic Research® ◽

10.1002/jor.21400 ◽

2011 ◽

Vol 29 (9) ◽

pp. 1351-1360 ◽

Cited By ~ 62

Author(s):

Philipp R. A. Schneider ◽

Constanze Buhrmann ◽

Ali Mobasheri ◽

Ulrike Matis ◽

Mehdi Shakibaei

Keyword(s):

Stem Cells ◽

Mesenchymal Stem Cells ◽

Three Dimensional ◽

High Density ◽

Tenogenic Differentiation

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Aeroelastic Stability of Lifting Surfaces in High-Density Fluids

Journal of Ship Research ◽

10.5957/jsr.1959.3.1.10 ◽

1959 ◽

Vol 3 (01) ◽

pp. 10-21 ◽

Cited By ~ 4

Author(s):

Charles J. Henry ◽

John Dugundji ◽

Holt Ashley

Keyword(s):

Degrees Of Freedom ◽

Three Dimensional ◽

Separated Flow ◽

High Density ◽

Aeroelastic Stability ◽

Free Surfaces ◽

Elastic Systems ◽

Static Instability ◽

Theoretical Evidence ◽

Lifting Surfaces

The large increases anticipated in speeds of vehicles towed or propelled underwater suggests a re-examination of the problem of stability of flexible lifting surfaces mounted thereon. Experimental and theoretical evidence is assembled which suggests that oscillatory aeroelastic instability (flutter) is very unlikely at the structural-to-fluid mass ratios typical of hydrodynamic operation. It is shown that static instability (divergence) is the more important practical problem but that its occurrence can be predicted with greater confidence. Flutter data obtained in high-density fluids are reviewed, and various sources of inaccuracy in their theoretical prediction are analyzed. The need is expressed for more precise means of analytically representing both dynamic-elastic systems and three-dimensional unsteady hydrodynamic loads. For a simple hydrofoil with single degrees of freedom in bending and torsion, the theoretical influence of several significant parameters on high-density flutter is calculated and discussed. Recommendations are made for refinements to existing techniques of analysis to include the presence of channel boundaries, free surfaces, cavitation or separated flow.

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Combining Focus Measures for Three Dimensional Shape Estimation Using Genetic Programming

Depth Map and 3D Imaging Applications ◽

10.4018/978-1-61350-326-3.ch011 ◽

2011 ◽

pp. 209-228

Author(s):

Muhammad Tariq Mahmood ◽

Tae-Sun Choi

Keyword(s):

Genetic Programming ◽

Fundamental Problem ◽

Three Dimensional ◽

Depth Map ◽

Depth Estimation ◽

Shape Reconstruction ◽

Optical Methods ◽

3D Shape ◽

Focus Measure ◽

Single Focus

Three-dimensional (3D) shape reconstruction is a fundamental problem in machine vision applications. Shape from focus (SFF) is one of the passive optical methods for 3D shape recovery, which uses degree of focus as a cue to estimate 3D shape. In this approach, usually a single focus measure operator is applied to measure the focus quality of each pixel in image sequence. However, the applicability of a single focus measure is limited to estimate accurately the depth map for diverse type of real objects. To address this problem, we introduce the development of optimal composite depth (OCD) function through genetic programming (GP) for accurate depth estimation. The OCD function is developed through optimally combining the primary information extracted using one (homogeneous features) or more focus measures (heterogeneous features). The genetically developed composite function is then used to compute the optimal depth map of objects. The performance of this function is investigated using both synthetic and real world image sequences. Experimental results demonstrate that the proposed estimator is more accurate than existing SFF methods. Further, it is found that heterogeneous function is more effective than homogeneous function.

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