Hardware and Software Improvements to a Low-Cost Holographic Video Monitor

Henrie, Andrew August

01 June 2018

The "Mark V" Holographic Video Monitor ("HoloMonitor") is a continuation of effort and accomplishments to produce a low-cost device capable of reproducing true full-color horizontal-parallax-only computer-generated holograms at typical video frame-rates. While other devices around the world may have greater capabilities, these devices are currently confined to laboratory settings due to their sheer complexity and expense. The aim of this project is to provide researchers and "tinkerers" with a device capable of recreating holographic effects in full color, respectable resolution, in real time, and at a comparatively low cost. The "Mark V" HoloMonitor is a closer representation of a consumer product than any other device of the MIT/BYU series of HoloMonitors. In this thesis, I discuss the complete design and construction of all of the optic (sans modulator) electronic subsystems that compose this device, along with explaining and providing working code needed to drive it in various modes of operation. The main objective of this thesis is to sufficiently instruct undergraduate and graduate colleagues so that they can replicate and build upon this work.

Master's Thesis

BYU

Electrical Engineering

Holography

Holographic Video

Holographic Video Monitor

HoloMonitor

Acousto-Optic Modulator

Surface-Acoustic Waves

Leaky-Mode

Scanned Aperture

Mark IV

Mark V

Low Cost

Improvements

Radio-Frequency Circuits

Engineering

Long-term water modelling of the Soil-Plant-Atmosphere System : A study conducted for the growing of Grape Leaves with drip irrigation in the Binh Thuan Province, Vietnam

Cavell, Julia, Andersson, Sara

January 2013

The main objective was to set up models of the soil-plant-atmosphere system for the growing of Grape Leaves with drip irrigation in the Binh Thuan Province, Vietnam. The computer software tool CoupModel was used in this modelling process. The focus of the model was the systems soil hydraulics and the water balance between its components. When running several 21 years simulations it could be seen that slight variations in soil texture inputs resulted in relatively big output changes. For example, by either using the soil texture laboratory results or the soil water retention inputs gained from tensiometers and moisture meters in the field, gave an annual irrigation amount difference of 100 mm. However, it can be questioned if the models reached the goal of simulating an  efficient irrigation schedule  due to the soil evaporation output being high throughout the year.  For further research, longer time series of field measurements together with more knowledge about the plant would be preferable in order to validate and improve the model. / MÂlet med denna studie var att uppr‰tta modeller ˆver mark-v‰xt-atmosf‰r-systemet i programmet CoupModel. Modellerna skulle anpassas fˆr odlingen av vinblad med hj‰lp av droppbevattning i Binh Thuan-provinsen i Vietnam. Fokus i denna studie var vattenflˆden och vattenbalansen mellan systemets komponenter. Efter att ha kˆrt flera 21 Âr lÂnga simuleringar var det tydligt att sm variationer i indata resulterade i relativt stora skillnader i utdata. Om till exempel  v‰rden  angÂende jordartens struktur  erhÂllna  frÂn laboratoriet anv‰ndes ist‰llet fˆr f‰ltm‰tningar frÂn tensiometrar och fuktm‰tare blev det en Ârlig bevattningsskillnad p 100 mm. Det kan ifrÂgas‰ttas huruvida mÂlet att simulera en vatteneffektiv bevattning blev nÂtt d jordavdunstningen var hˆg Âret runt. Fˆr vidare studier skulle l‰ngre tidsserier av f‰ltm‰tningar tillsammans med mer kunskap om plantan vara nyttigt fˆr att kunna validera och fˆrb‰ttra modellen.

Minor Field Study

CoupModel

Drip irrigation

Soil-Plant-Atmosphere System

Vietnam

Grape Leaves

Hydrology

Minor Field Study

CoupModel

Droppbevattning

Mark-v‰xt-atmosf‰r-system

Vietnam

Vinblad

Hydrologi

Engineering and Technology

Teknik och teknologier