The microwave response of square mesh metamaterials

Butler, Celia A. M.

January 2012

Metamaterials are a class of artificial material, known to produce electromagnetic (EM) responses not found in nature due to their engineered subwavelength structure. In this thesis very thin subwavelength meshes are utilised to form layered metamaterials. The EM characteristics of the transmission and reflection response from these materials, including the polarisation converting behaviour, are explored to further understanding and develop structures to exploit and control the propagation of microwave radiation. Original experimental studies are presented across two sections; the first examines the response of stacks assembled from metallic meshes and dielectric plates; the second explores a rotated layered structure formed of square symmetric elements in a square subwavelength array that demonstrates chirality through evanescent coupling of the near fields. When metallic meshes are excited with EM radiation below the cut off frequency, only evanescently decaying fields are supported in the holes. By combining these subwavelength metallic meshes with dielectric plates in different arrangements, remarkably wide bands of high transmission and low reflection may be observed. The non-interacting resonant modes allow the response to be tuned through a suitable choice of the metallic mesh geometry and the properties of the dielectric. Further the low frequency band edge and the bandwidth are not dependent on the number of unit cells in the stack; but are dependent on the properties of the unit cell. The second section demonstrates ``evanescent handedness'' proposed as a new type of chirality. Two subwavelength square arrays of square elements are rotated with respect to one another. When the rotated arrays are positioned far from one another in the propagation direction, each acts as an effective medium layer. However when placed in close proximity the structure is shown to rotate the plane of polarisation of the incident radiation. All these mesh based structures share the property of producing an EM response that is tunable by design, allowing a structure to be tailored to a specific application.

621.3813

Quality of Life and Pain After Transobturator Mesh Placement

Coyne, Catherine A.

28 April 2017

A Thesis submitted to The University of Arizona College of Medicine - Phoenix in partial fulfillment of the requirements for the Degree of Doctor of Medicine. / Extreme controversy surrounds the uncertainty of pelvic mesh and sling devices to essentially cure patients of stress urinary incontinence (SUI). A relatively new product that has taken the market by storm is the tension free Vaginal Tape‐ Obturator (TVT‐O) mesh by Ethicon, Gynecare. It has obtained Center for Disease Control approval and labeled a “clinically proven, safe product with a 90% cure rate for urinary incontinence,” according to the manufactures website (Ethicon, Gynecare)4, 8. One side effect that is known about this particular device is its ability to leave patients post surgery with unbearable, chronic pelvic pain2. Although the mesh is needed to prevent urinary incontinence, it is pivotal that the quality of life of our patients does not suffer appreciably with elective, non‐life threatening procedures. Another common mesh product is the pelvic sling by Monarc. One‐study reports more than 95 percent of patients who underwent elective surgery with the insertion of Monarc sling achieved complete dryness and did not require the use of pads following the procedure22. These are successful outcomes, but what occurs with the minority of patients that have unfavorable outcomes such as chronic pain12, 15, 16? A retrospective study was completed to deduce the onset of pain and severity of pain caused by the TVT‐O mesh and Monarc mesh‐utilizing data from Dr. Hibner’s patients. There were 19 chronic pelvic pain patients with an average age of 50, standard deviation of 11 years, seen by Dr. Hibner and his colleagues. These patients completed the International Pelvic Pain assessment form upon their first visit to the office and SF‐36 scores of physical and mental scores were obtained. Results found physical scores of 29.5 and mental scores of 36 in pelvic pain patients, which were higher than certain other chronic, medical diseases1. We were able to conclude that patients with pelvic pain from mesh have lower physical and mental SF‐36 scores than patients with other chronic diseases representing a decreased quality of life overall.

Pelvic Pain

Pelvic Mesh

Surgery -- Complications

A case of traumatic rupture of a giant omphalocele and liver injury associated with transverse lie and preterm labor

Linnaus, Maria E., Donato, Britton, McMahon, Lisa, Chambliss, Linda, Notrica, David M.

11 1900

Perinatal omphalocele rupture is a rare occurrence. We present a case of a baby delivered at 35 weeks with a known giant omphalocele, transverse lie, and the omphalocele downward in the birth canal who suffered rupture of the omphalocele and liver injury around the time of delivery. The pregnancy was complicated by one day of preterm labor, preterm premature rupture of the membranes, and the omphalocele was the presenting part. Despite pulmonary hypertension, rupture of the omphalocele, and a significant liver injury, individualized management with decompression of the liver hematoma allowed successful early closure with mesh followed by delayed reconstruction. (C) 2016 The Authors. Published by Elsevier Inc.

Ruptured omphalocele

Liver injury

Mesh

Delivery

A study into the prevention of parastomal herniation

Hotouras, Alexander

January 2014

A hernia frequently complicates abdominal stoma formation. The aetiology of parastomal herniation is claimed to be multi-factorial but currently only age and trephine diameter have been shown to independently predict its development. Open or laparoscopic repair of a symptomatic parastomal hernia is frequently challenging and is associated with unsatisfactory recurrence rates. As a result, many affected patients are managed non-operatively. Prevention of parastomal herniation by prophylactic mesh reinforcement of the stoma site is a new strategy that may reduce its incidence. Manual mesh implantation, however, is thought to increase the operating time and is considered cumbersome, particularly in laparoscopic surgery. As a result, routine reinforcement of the stoma site is not currently standard practice within the National Health Service. Thus, there is a need for a simple and quick technique for stoma formation which avoids creating an oversized defect and simultaneously reinforces the trephine with mesh. The aims of this thesis included: (i) understanding the aetiopathogenesis of parastomal herniation, assessing its impact on patients’ quality of life and examining the outcomes associated with current therapeutic strategies in order to find novel therapies that may lead to its prevention; (ii) assessing the safety, reproducibility and efficacy of the Stapled Mesh stomA Reinforcement Technique (SMART) in preventing parastomal herniation and (iii) investigating the contribution of the rectus abdominis muscle to the development of herniation. A detailed literature review of PubMed and Medline databases confirmed that stoma formation through the rectus muscle is complicated by parastomal herniation in 50%-80% of 4 cases. Surgeons have underestimated its impact on patients’ quality of life. There is no conclusive evidence that alternative techniques (e.g. extraperitoneal, lateral rectus abdominis positioned stoma) are superior. Open and laparoscopic parastomal hernia repair have similar recurrence rates up to 50%. Prophylactic reinforcement of the stoma trephine with mesh in the sublay or subperitoneal position is safe and appears to reduce the herniation rate but it is difficult laparoscopically and does not address the issue of trephine size when a defect <25mm is associated with a reduced herniation risk. The Stapled Mesh stomA Reinforcement Technique (SMART) obviates the technical issues associated with routine stoma formation and reinforcement. In a pilot study with patients at high risk for herniation, SMART was found to be safe and reproducible and reduced the herniation rate to 18%. Preliminary results of the international multicentre randomised controlled trial in all patients undergoing permanent stoma formation show that SMART reduces the herniation rate compared to the standard technique, without added morbidity and minimal impact on the operating time. A radiological study assessing the contribution of the rectus abdominis muscle into the development of parastomal herniation showed that the abdominal musculature undergoes postoperative changes consistent with atrophy with postoperative muscle density being higher in patients without parastomal herniation. In conclusion, at this moment in time, prophylactic mesh reinforcement should be offered to all patients undergoing elective permanent stoma formation. The SMART procedure has the potential to change current surgical practice. The contribution of the rectus muscle to the development of herniation warrants further research since improving muscle repair and regeneration may result in therapeutic benefits.

617.5

Development of an Unstructured 3-D Direct Simulation Monte Carlo/Particle-in-Cell Code and the Simulation of Microthruster Flows

Hammel, Jeffrey Robert

10 May 2002

This work is part of an effort to develop an unstructured, three-dimensional, direct simulation Monte Carlo/particle-in-cell (DSMC/PIC) code for the simulation of non-ionized, fully ionized and partially-ionized flows in micropropulsion devices. Flows in microthrusters are often in the transitional to rarefied regimes, requiring numerical techniques based on the kinetic description of the gaseous or plasma propellants. The code is implemented on unstructured tetrahedral grids to allow discretization of arbitrary surface geometries and includes an adaptation capability. In this study, an existing 3D DSMC code for rarefied gasdynamics is improved with the addition of the variable hard sphere model for elastic collisions and a vibrational relaxation model based on discrete harmonic oscillators. In addition the existing unstructured grid generation module of the code is enhanced with grid-quality algorithms. The unstructured DSMC code is validated with simulation of several gaseous micronozzles and comparisons with previous experimental and numerical results. Rothe s 5-mm diameter micronozzle operating at 80 Pa is simulated and results are compared favorably with the experiments. The Gravity Probe-B micronozzle is simulated in a domain that includes the injection chamber and plume region. Stagnation conditions include a pressure of 7 Pa and mass flow rate of 0.012 mg/s. The simulation examines the role of injection conditions in micronozzle simulations and results are compared with previous Monte Carlo simulations. The code is also applied to the simulation of a parabolic planar micronozzle with a 15.4-micron throat and results are compared with previous 2D Monte Carlo simulations. Finally, the code is applied to the simulation of a 34-micron throat MEMS-fabricated micronozzle. The micronozzle is planar in profile with sidewalls binding the upper and lower surfaces. The stagnation pressure is set at 3.447 kPa and represents an order of magnitude lower pressure than used in previous experiments. The simulation demonstrates the formation of large viscous boundary layers in the sidewalls. A particle-in-cell model for the simulation of electrostatic plasmas is added to the DSMC code. Solution to Poisson's equation on unstructured grids is obtained with a finite volume implementation. The Poisson solver is validated by comparing results with analytic solutions. The integration of the ionized particle equations of motion is performed via the leapfrog method. Particle gather and scatter operations use volume weighting with linear Lagrange polynomial to obtain an acceptable level of accuracy. Several methods are investigated and implemented to calculate the electric field on unstructured meshes. Boundary conditions are discussed and include a formulation of plasma in bounded domains with external circuits. The unstructured PIC code is validated with the simulation of a high voltage sheath formation.

DSMC

PIC

unstructured mesh

microthrusters

micronozzles

Make it Simpler : Structure-aware mesh decimation of large scale models / Gör det enklare : Strukturmedveten meshdecimering av storskaliga modeller

Böök, Daniel

January 2019

A 3D-model consists out of triangles, and in many cases, the amount of triangles are unnecessarily large for the application of the model. If the camera is far away from a model, why should all triangles be there when in reality it would make sense to only show the contour of the model? Mesh decimation is often used to solve this problem, and its goal is to minimize the amount of triangles while still keep the visual representation intact. Having the decimation algorithm being structure aware, i.e. having the algorithm aware of where the important parts of the model are, such as corners, is of great benefit when doing extreme simplification. The algorithm can then decimate large, almost planar parts, to only a few triangles while keeping the important features detailed. This thesis aims to describe the development of a structure aware decimation algorithm for the company Spotscale, a company specialized in creating 3D-models of drone footage.

mesh decimation

structure-aware

Computer Engineering

Datorteknik

Numerical and Experimental Analysis of Spur Gears in Mesh

Wang, Jiande

January 2003

The investigation of numerical methods for modelling the mechanism properties ofinvolute spur gears in mesh, over the mesh cycle, forms the major part of this thesis.Gearing is perhaps one of the most critical components in power transmission systemsand the transmission error of gears in mesh is considered to be one of the main causes ofgear noise and vibration. Numerous papers have been published on gear transmissionerror measurement and many investigations have been devoted to gear vibration analysis.There still, however, remains to be developed a general Finite Element Model capable ofpredicting the effect of variations in rigid body gear tooth position, in which the criticalstage is the prediction of gear behaviour with profile modifications (including tip-relief).In this thesis, FEA results have been obtained by using various techniques including: (a)adaptive re-mesh with contacts using quad (2D) and brick (3D) elements and (b) theelement birth and death option. Tooth profile modifications can affect the behaviour ofthe gear meshing including the T.E., ratio of local deformation and load-sharing ratioresults, etc, providing an alternative method for gear design. In the high order end, theelastic strains of the gear-shaft system have also been investigated. The results in thisthesis have shown the potential for using strain-vibration relationships to monitor orcontrol the transmission system.The investigations have also included some analysis with non-metallic gears, anapplication area that is rapidly growing. The results achieved here are at a fundamentalstage, and further research would necessitate applying a coupled field analysis (structuraland thermal).

Caractérisation fonctionnelle de la protéine précoce-immédiate 2 de l'herpèsvirus humain 6

Tomoiu, Andru.

January 1900

Thèse (Ph. D.)--Université Laval, 2007. / Titre de l'écran-titre (visionné le 14 mai 2007). Bibliogr.

Security in Wireless Mesh Network

GHUMMAN, SHAKEEL AHMAD

January 2009

<p>The Master’s thesis report describes the wireless mesh networks functions,</p><p>characteristics, network management and finally different protocols with security issues and applications. Wireless Networks (WMNs) are replacing wireless Infrastructure networks in many areas because of their lower and higher flexibility. The wireless mesh networks (WMNs) provides network access for both mesh and conventional clients through mesh routers and mesh clients. Communication across the network is formed via the bridge functions. Mesh router also provides the minimal mobility and form the backbone of WMNs.</p><p>Wireless mesh network has resolved the limitation of ad hoc networks which is ultimately improves the performance of Ad hoc networks. Security is a very important issue which can be resolve through proper management of network. The improvment of 802.11i security has greatly improved the network perfomance and increase the encryption and integrity security capabilities. The key points which are being addressed in this report are security issues and threats and their counter measures. Attacks which can come on diffent layers are being discussed in this survey. Security of wireless mesh network is still under consideration. Wireless mesh network are attracting more attention due to its enhanced features.</p><p>Wireless mesh network topology technology is being discussed in this report. Then network management of WMNs is explained and in the concluding chapters security issues are discussed. Threats, attacks and challenges of WMNs are discussed in this survey.</p>

Security

wireless mesh networks

network management

WMNs

Non-Iterative, Feature-Preserving Mesh Smoothing

Jones, Thouis R., Durand, Frédo, Desbrun, Mathieu

01 1900

With the increasing use of geometry scanners to create 3D models, there is a rising need for fast and robust mesh smoothing to remove inevitable noise in the measurements. While most previous work has favored diffusion-based iterative techniques for feature-preserving smoothing, we propose a radically different approach, based on robust statistics and local first-order predictors of the surface. The robustness of our local estimates allows us to derive a non-iterative feature-preserving filtering technique applicable to arbitrary "triangle soups". We demonstrate its simplicity of implementation and its efficiency, which make it an excellent solution for smoothing large, noisy, and non-manifold meshes. / Singapore-MIT Alliance (SMA)

mesh smoothing

robust statistics

mollification

feature preservation