My RESEARCH

This page is an abstract about my research. If you are interesetd in contents, please contact me!

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1. What is the 3D reconstruction?

  2D image-based 3D modeling is actively studied among computer vision and graphics fields.
And there are various applications.

◆ Human Reconstruction ◆

Human_reconstruction.jpg

◆ Architecture Reconstruction ◆

Architecture_reconstruction.left.png
Architecture_reconstruction.gif


◆ Object Reconstruction ◆

Object_reconstruction.png

  

Object_reconstruction.gif


2. Why plant 3D reconstruction is difficult?

  Plant shoot (i.e., leaves and stems) modeling has been actively studied among computer vision and graphics fields.
Plants have 3 main difficulties (following under) on 3D reconstruction.
I will resolve the 3 main difficulties, and get complete 3D model of real plant from 2D-images.

Ofcouse, we may get the plant's complete 3D-model if we consts various ideas, spcecial machhines, times, and consts. But if you want to get the model instancely and reasonably, you have to discover the new algorithm.

◆ A Major flow of plant 3D reconstruction ◆

Object_reconstruction.gif
Object_reconstruction.gif


3. What is the application of plant 3D reconstruction?

3.1. Application to research direction

3.1.1. Growth estimation of plant

  If we can get plant's complete 3D-model (even only in controled environment such as laboratory), we will be able to get a plant's time series 3D-models. Then, we will be able to research on growth estimation of plants.
The growth estimation is very valuable and innovative application. My research is a fundamental research of this.

growth_estimattion

3.1.2. Correspondence analysis of plant genotype and phenotype

  Plant researchers want to discver the correspondence analysis of plant genotype and phenotype.
But now, we can't get the complete plant's 3D-model instancely and reasonably.
So many plant researchers can't analize correspondence quantitatively (they don't have enough money).

geno pheno correspondence


3.2. Application to industrial direction

3.2.1. Agricultural assistance

 If we can get plant's complete 3D-model, Robots can perform high skills such as light intensity calculation and pruning.
So, Robots can assist agriculture employee, pephaps be alternative of them !!
We may see the future which robots work as agriculture employee.

pruning

3.2.2. AR - season transfer -

  Now, we can get various AR containts such as "Pokemon-GO".
If we can get complex 3D-models such as plats instancely and reasonably, we will be able to get more high velel AR containts.
For examle, in future, you may see the winter season landscape through AR-glass in summer.
Small devices such as AR-glass calculate your seen realtimely and transfer season.