A Quick-Simulation Tool for Induction Motor Drives Controlled Using Advanced Space-Vector-Based PWM Techniques

Space-vector-based pulse width modulation (PWM) for a voltage source inverter (VSI) offers flexibility in terms of different switching sequences. Numerical simulation is helpful to assess the performance of a PWM method before actual implementation. A quick-simulation tool to simulate a variety of space-vector-based PWM strategies for a two-level VSI-fed squirrel cage induction motor drive is presented. The simulator is developed using C and Python programming languages, and has a graphical user interface (GUI) also. The prime focus being PWM strategies, the simulator developed is 40 times faster than MATLAB in terms of the actual time taken for a simulation. Simulation and experimental results are presented on a 5-hp ac motor drive.

A Vision-Based Micro-Newton Static Force Sensor Using a Displacement-Amplifying Compliant Mechanism (DaCM)

A micro-newton static force sensor is presented here as a packaged product. The sensor, which is based on the mechanics of deformable objects, consists of a compliant mechanism that amplifies the displacement caused by the force that is to be measured. The output displacement, captured using a digital microscope and analyzed using image processing techniques, is used to calculate the force using precalibrated force-displacement curve. Images are scanned in real time at a frequency of 15 frames per second and sampled at around half the scanning frequency. The sensor was built, packaged, calibrated, and tested. It has simulated and measured stiffness values of 2.60N/m and 2.57N/m, respectively. The smallest force it can reliably measure in the presence of noise is about 2 mu N over a range of 1.4mN. The off-the-shelf digital microscope aside, all of its other components are purely mechanical; they are inexpensive and can be easily made using simple machines. Another highlight of the sensor is that its movable and delicate components are easily replaceable. The sensor can be used in aqueous environment as it does not use electric, magnetic, thermal, or any other fields. Currently, it can only measure static forces or forces that vary at less than 1Hz because its response time and bandwidth are limited by the speed of imaging with a camera. With a universal serial bus (USB) connection of its digital microscope, custom-developed graphical user interface (GUI), and related software, the sensor is fully developed as a readily usable product.

Design of an Automated Dispenser Unit

This paper presents our work on developing an automated micro positioner and a low cost disposable dispenser module having a disposable dispenser core. The dispenser core is made up of Polydimethylsiloxane (PDMS). Once the user specifies the dispensing location in the Graphical User Interface (GUI), the movement of the micropositioner is automatic. The design, fabrication and characterization results of the dispenser module are also presented. The dispensing experiments are performed with Di-Ethanol Amine as the working reagent. The minimum dispensed volume achieved is about 4 nL.

Colored polydimethylsiloxane micropillar arrays for high throughput measurements of forces applied by genetic model organisms

Measuring forces applied by multi-cellular organisms is valuable in investigating biomechanics of their locomotion. Several technologies have been developed to measure such forces, for example, strain gauges, micro-machined sensors, and calibrated cantilevers. We introduce an innovative combination of techniques as a high throughput screening tool to assess forces applied by multiple genetic model organisms. First, we fabricated colored Polydimethylsiloxane (PDMS) micropillars where the color enhances contrast making it easier to detect and track pillar displacement driven by the organism. Second, we developed a semiautomated graphical user interface to analyze the images for pillar displacement, thus reducing the analysis time for each animal to minutes. The addition of color reduced the Young's modulus of PDMS. Therefore, the dye-PDMS composite was characterized using Yeoh's hyperelastic model and the pillars were calibrated using a silicon based force sensor. We used our device to measure forces exerted by wild type and mutant Caenorhabditis elegans moving on an agarose surface. Wild type C. elegans exert an average force of similar to 1 mu N on an individual pillar and a total average force of similar to 7.68 mu N. We show that the middle of C. elegans exerts more force than its extremities. We find that C. elegans mutants with defective body wall muscles apply significantly lower force on individual pillars, while mutants defective in sensing externally applied mechanical forces still apply the same average force per pillar compared to wild type animals. Average forces applied per pillar are independent of the length, diameter, or cuticle stiffness of the animal. We also used the device to measure, for the first time, forces applied by Drosophila melanogaster larvae. Peristaltic waves occurred at 0.4Hz applying an average force of similar to 1.58 mu N on a single pillar. Our colored microfluidic device along with its displacement tracking software allows us to measure forces applied by multiple model organisms that crawl or slither to travel through their environment. (C) 2015 AIP Publishing LLC.

Stimulation discomfort comparison of asynchronous and synchronous methods with multi-field electrodes

Functional Electrical Stimulation (FES) is a technique that consists on applying electrical current pulses to artificially activate motor nerve fibers and produce muscle contractions to achieve functional movements. The main applications of FES are within the rehabilitation field, in which this technique is used to aid recovery or to restore lost motor functions. People that benefit of FES are usually patients with neurological disorders which result in motor dysfunctions; most common patients include stroke and spinal cord injury (SCI). Neuroprosthesis are devices that have their basis in FES technique, and their aim is to bridge interrupted or damaged neural paths between the brain and upper or lower limbs. One of the aims of neuroprosthesis is to artificially generate muscle contractions that produce functional movements, and therefore, assist impaired people by making them able to perform activities of daily living (ADL). FES applies current pulses and stimulates nerve fibers by means of electrodes, which can be either implanted or surface electrodes. Both of them have advantages and disadvantages. Implanted electrodes need open surgery to place them next to the nerve root, so these electrodes carry many disadvantages that are produced by the use of invasive techniques. In return, as the electrodes are attached to the nerve, they make it easier to achieve selective functional movements. On the contrary, surface electrodes are not invasive and are easily attached or detached on the skin. Main disadvantages of surface electrodes are the difficulty of selectively stimulating nerve fibers and uncomfortable feeling perceived by users due to sensory nerves located in the skin. Electrical stimulation surface electrode technology has improved significantly through the years and recently, multi-field electrodes have been suggested. This multi-field or matrix electrode approach brings many advantages to FES; among them it is the possibility of easily applying different stimulation methods and techniques. The main goal of this thesis is therefore, to test two stimulation methods, which are asynchronous and synchronous stimulation, in the upper limb with multi-field electrodes. To this end, a purpose-built wrist torque measuring system and a graphic user interface were developed to measure wrist torque produced with each of the methods and to efficiently carry out the experiments. Then, both methods were tested on 15 healthy subjects and sensitivity results were analyzed for different cases. Results show that there are significant differences between methods regarding sensation in some cases, which can affect effectiveness or success of FES.

Using the system dynamics paradigm in teaching and learning technological university subjets

2nd International Conference on Education and New Learning Technologies

Creating a German–Basque Electronic Dictionary for German Learners

Revista OJS

Desarrollo de software para la realización de ensayos dinámicos de mecanismos de cinemática paralela

[ES]El presente Trabajo de Fin de Grado tiene como objetivo contribuir al desarrollo de un proyecto de investigación mediante la programación y control del movimiento de mecanismos de cinemática paralela para la realización de ensayos dinámicos. Dicho proyecto está enmarcado dentro de una línea de investigación del grupo de investigación CompMech de la UPV-­‐EHU que gira en torno al desarrollo y estudio de este tipo de mecanismos. Esto es; este trabajo, más allá de la utilidad que pudiera tener por sí mismo, está pensado para formar parte de un proyecto de mayor envergadura, para cuyo éxito será imprescindible la colaboración con otros investigadores y la integración de este trabajo con los realizados por ellos. Consiste en la creación de un software para el control y movimiento de mecanismos, generando vibraciones para la realización de ensayos dinámicos. Para ello, se programarán sobre la plataforma LabVIEW la interfaz de usuario y el motor de cálculo. Una vez se compruebe que el programa funciona correctamente, se integrará dentro de un programa principal, un control articular que será el encargado de comunicarse con la máquina. Posteriormente, se procederá a la realización de ensayos experimentales sobre los propios robots, en taller. Se tomarán medidas mediante acelerómetros y otros dispositivos, determinando las medidas más adecuadas para su correcta validación. Finalmente, se generalizará el trabajo realizado para posibilitar su empleo futuro en diferentes mecanismos

Criterios para la aplicación de coeficientes modificativos de la curva S-N de fatiga

[ES]Este Trabajo de Fin de Grado tiene como objeto crear un programa que sirva como herramienta para los cálculos en las propiedades a fatiga de una pieza. El conjunto del trabajo se centra en su creación mediante la herramienta Excel. El programa cuenta con tres diferentes pestañas: una para los datos que debe introducir el usuario, otra correspondiente a los cálculos y por último una en la que aparecen los resultados. El usuario debe conocer las propiedades de la probeta del material a ensayar, así como el rango de ciclos en el cual se va a trabajar (siempre en un rango de ciclos medio alto). A partir de estas informaciones de la probeta, y gracias a la curva de Basquin y la ecuación de Marin, el programa será capaz de obtener la curva de resistencia a fatiga correspondiente para la pieza. Se incluyen también casos especiales en los que se realicen tratamientos mecánicos de mejora, con una tensión límite del proceso. Para obtener la curva S-N de la pieza se pedirá información en la pestaña de interfaz con el usuario sobre distintas propiedades de la pieza, que permitan así calcular los valores de los coeficientes de Marín gracias a la base de datos que contiene el programa. El usuario tiene también la opción de introducir él mismo los valores de los coeficientes para así obtener una curva que se aproxime más a sus resultados experimentales. En resumen, la función del programa es la de ser una calculadora de la resistencia fatiga de la pieza a partir de los datos que se disponen de la probeta.

Desenvolvimento de interfaces gráficas para estatística Bayesiana aplicada à comparação mista de tratamentos

A partir dos avanços obtidos pela industria farmacêutica surgiram diversos medicamentos para o combate de enfermidades. Esses medicamentos possuem efeito tópico similar porém com suaves modificações em sua estrutura bioquímica, com isso a concorrência entre as industrias farmacêuticas se torna cada vez mais acirrada. Como forma de comparar a efetividade desses medicamentos, surgem diversas metodologias, com o objetivo de encontrar qual seria o melhor medicamento para uma dada situação. Uma das metodologias estudadas é a comparação mista de tratamentos, cujo objetivo é encontrar a efetividade de determinadas drogas em estudos e/ou ensaios clínicos que abordem, mesmo que de maneira indireta, os medicamentos estudados. A utilização dessa metodologia é demasiadamente complexa pois requer conhecimento de linguagens de programação em ambientes estatísticos além do domínio sobre as metodologias aplicadas a essa técnica. O objetivo principal desse estudo é a criação de uma interface gráfica que facilite a utilização do MTC para usuários que não possuam conhecimento em linguagens de programação, que seja de código aberto e multiplataforma. A expectativa é que, com essa interface, a utilização de técnicas mais abrangentes e avançadas seja facilitada, além disso, venha tornar o ensinamento sobre o tema mais facilitado para pessoas que ainda não conhecem o método

一种笔式用户界面软件领域模型及其应用

笔式用户界面软件以其自然、高效的交互方式，在很多领域中有着广泛的应用笔式用户界面软件具有以交互为中心、用户个性化需求高的特点，由此也决定了用户在软件设计中的主导地位“用户为中心的设计的关键问题在于，如何使用户的思想如实地反映到设计中通过建立笔式用户界面软件特征模型PUIDM(the domain model for pen—based user interface software)，构造了一个连接用户与软件设计的平台．从上下文、软件实体、界面特征、体系结构等角度，对该模型的建立进行分析．并给出了相应的XML描述在此基础上，描述了用户使用该模型进行软件设计的过程实例表明，PUIDM能够正确引导用户进行设计，将用户意图充分地引入到软件设计和最终实现中，使软件满足可用性要求。

CoPenML:基于XML的笔式用户界面构件体系结构

笔式用户界面在许多领域得到了广泛应用，但现有的笔式界面技术不能支持高层次、多领域的可视化界面制作，很难实现面向软件构件的重用．因而提出一个新的解决方案，面向构件的体系结构CoPenML．该方案基于XML语言抽象描述了笔式界面的配置组成．可用于快速生成界面原型及二次开发接口，并且在系统实现级以及场景图级两个层面上实现软件构件的重用．设计了CoPenML的体系结构并给出了界面描述语言规范．最后开发了基于CoPenML的笔式界面制作环境以及相关工具．结果表明该方案对于笔式用户界面制作是十分有效的．

PIBG Toolkit:一个笔式界面工具箱的分析与设计

PIBG Toolkit是一个基于PIBG交互范式构造而成的笔式应用开发平台:PIBG Toolkit中包含了纸、框等多种交互组件，定义了纸、框和内容三个层次之间的静态结构和动态机制: 开发者开发笔式交互系统时，可以用PIBG Toolkit来建立整体的软件框架和交互机制，并有选择地在系统中添加Toolkit中所提供的交互组件.这样，开发者的精力将会集中在应用领域的内容上.目前，基于该平台已经开发出多个具有很好应用前景的笔式应用系统.

一种新的笔式交互范式的可用性评估

笔式用户界面是Post-WIMP界面的一种重要形态，具有自然、和谐的交互特性。尽管笔式用户界面广泛应用于无处不在计算环境中，但很少专门对它的可用性进行评估。针对笔式用户界面的特征，提出了一种新的笔式用户界面范式，基于此范式设计并实现了一个面向教学的笔式交互系统(PenOffice)，利用此系统对范式从易学性、效率、出错率和用户满意度这几个方面进行了可用性评估，从中分析了笔式用户界面以及这种新的界面范式的优点和不足。