Search Results - 中国体育11选五走势图带连线-『1TBH·COM』大乐透17139开奖--2023年3月19日6时30分.H5c2a3.obgw1emkz

Comment on: Topic 'Curvy Lines on curve surface': lane that looks like the outline of a gear wheel 2. Scale a bunch of copies of the curve to different sizes (I use 11 different sized curves.) 3. Move each curve vertically to a different Z-height 4. Rotate each curve to get the desired wavy/wiggly effect 5. Create a Loft surface using all the curves. A critical step when creating the Loft is to add the curves in order - either top to bottom or bottom to top. Step 4 can be omitted if you want a constant curvature throughout the final part. In this case all you have to do is Twist by the desired amount the Loft surface made from un-rotated curves. …; Added by Birk Binnard at 2:18pm on October 15, 2016

Topic: Visualizing Trajectories [Excel - GH]: ings" [every person on the experiment is one ring] which show the time duration. The outer sphere is divided in 11 segments [which are basically the segments of a human brain] I hav imported the data so far but what i aim is to find a way to connect each moment[time, second] from the inner sphere to a number of points from a specific segment in the outer. For example for Person number1, at 5th second the segments that are activated are 4th , 6th, 11th with 2, 3, 2 points. It could be done manually but since the connections are a few thousands and i got the lists, i wonder whether there is a better way. Any help is appreciated, i do not attach files since you need the excel files aswell. If anyone would like to help i can email the files. Thanks in advance.…; Added by Andreas Iosif at 11:25am on June 15, 2016

Here are 50 of the most widely recognized tips and traps that have turned out to be a piece of the regular work process for some 3ds Max® clients.

1. Utilize the Rename…

Added by Leana Mirrow at 5:36am on March 18, 2016

Comment on: Topic 'Crenellation pattern trough a set of points': elated with the Topology outputs: So let's try to do (via components) the face reconstruction stage (the missing 4 as above): Alias crenelatedEdgesTree as polylineTree. Imagine a Lst that samples all the edges per Face ("changed" and "unchanged") as Curves. 1. Let's take face 3: this is surrounded by edges 10,11,12,13 and 37. 2. Has edge 10 "changed" (to polyline) ? No because in the polylineTree there's no branch {10} ... thus sample edge 10 from the EList (Note: apparently that's a boundary edge). Has edge 11 "changed" ? No ... blah, blah. 3. Has edge 12 "changed" ? Yes because in the polylineTree there's a branch {12} ... thus sample the item from that branch. Same for 13 ... etc etc. 4. Thus we have sampled all the surrounding edges as Curves and the next step is to join them > yielding a closed Curve. 5. Then we must "planarize" that Curve (by projecting it into the corresponding Brep Face plane) ... and the rest are history. So ... try it and report any issue encountered.…; Added by peter fotiadis at 8:29am on January 19, 2017

Topic: SURFACE POPULATING + OPEN & CLOSED COMPONENTS _: s the "Surface Populating" definition: I manage to populate my geometry over the surface, but after I bake it, I have to delete the boxes that define my components limits as well! Is there any way of populating and baking only the chosen component, without having to delete the boxes afterwards? Secondly: Basically: I am trying to cover a surface with two types of components [ an open one and a closed one] , which will be proliferated over my tubular surface according to the main sunlight direction. 1. I introduce the surface component. 2. I use "Divide Interval2" in order to have division into U and V. 3. i generate the target boxes [ "surfaceBox"] . 4. I use "Isotrim" ( same intervals) and "BRepArea" to find centroid of each area. 5. My "Curve" component introduces sun angle, with its "End Points". 6. I use "Vector 2Pt" to specify sun-light direction. 7. I want to measure the angle between sun-light and the surface normals, at the position of each component; after generating the centre points, I need the normals of each centre point to get the surface's points' UV, and "Evaluate" the srf at points. 8."Angle" and "Vector" components: I use them in order to evaluate the angle between the sun direction and the srf. 9. I convert this angle to degree by using a "Function" [ to see if the angle is bigger from the max.angle or not...] 10. Function "x,y" gives me boolean data. 11. Data become "Dispatch"ed... 12. Two "Morph" components , each one linked to one part of the "Dispatch" data, generate "closed" and "open" components over the srf. The result should have been different types of components, based on the surface's curvature, diraction and sun-light direction... I do not understand where the mistake is in this definition... Thx in advance1 Spyros K.…; Added by Spyridon Kaprinis at 6:09am on November 11, 2009

Topic: Computational Environmental and Energy Design workshop with full scholarship.: Target group The workshop is fully funded and is addressed to students of architecture and civil engineering faculties at master level from Estonia (11 seats), Latvia (3 seats), Lithuania (3 seats) and Sweden (3 seats). The selected students will have full scholarship that will include travel, board and lodging in Tallinn for 10 days (arrival on Sunday 03.07.2016 departure on Wednesday 13.07.2016). The workshop is funded by the NORDPLUS programme of the Nordic Council of Ministers (NCM) - Higher Education objective. Description The use of digital and computational design tools is increasingly important for the activity of design and research for architects and engineers. It permits to integrate environmental and energy aspects from the very early stages of the design and planning process to achieve more performative, efficient and integrated buildings and urban environments. The workshop attendants will broaden their design and technical knowledge with solar design, daylighting and energy efficiency topics and will learn how to integrate environmental analysis and building performance analysis tools with parametric and generative methodologies in architecture and planning. Location Tallinn University of Technology – Departments of Structural Design and Environmental Engineering Dates From 04 to 12 July 2016 Workshop blog For detailed program, info and registration visit the blog at ceedtut.blogspot.com In the weeks just before the workshop the blog will present also materials and tutorials to get a basic knowledge of the topics prior to the beginning of the workshop. …; Added by Francesco De Luca to Ladybug Tools at 4:03am on May 6, 2016

Topic: New Firefly Website with Shop: ells new products like the Firefly Interactive Prototyping Shield which mounts on top of your Arduino Uno and provides access to a number of useful input (ie. sensors) and output (ie. motors) devices. It includes features like: Three linear slide potentiometers connected to analog pins 0, 1, and 2 Two-axis joystick connected to analog pins 3 and 4 Light sensor (photocell) connected to analog pin 5 Three push buttons connected to digital pins 2, 4, and 7 Red LED connected to digital pin 13 RGB LED connected to digital pins 3, 5, and 6 Two servo connections on digital pins 8 and 9 A connection to the Easy Stepper Driver (co-designed by Sparkfun Electronics and Brian Schmalz) to control stepper motors. The direction of the motor is controlled through digital pin 10 and the number of steps through digital pin 12 High-voltage MOSFET circuit capable of driving lights, valves, DC motors, solenoids, or anything else requiring higher voltage or current. The gate of the MOSFET is connected to digital pin 11 (PWM). Some come take a look and let us know what you think! …; Added by Andy Payne to Firefly at 9:22am on July 2, 2014

Event: Curso intensivo de Grasshopper, Madrid: para poder parametrizarla - Entender cómo se gestionan los datos con Grasshopper - Asociar formulaciones matemáticas a modelos paramétricos - Panelizar y triangular superficies - Parametrizar estructuras sencillas - Saber deformar modelos tridimensionales paramétricamente - Elaboración de algoritmos simples y aplicarlos a modelos tridimensionales - Exportar e importar tablas de datos El curso será impartido por dos Authorized Rhino Trainers. También te informamos de que hemos renovado el temario del curso, preparado específica y exclusivamente por nosotros, y que es revisado y ampliado continuamente, gracias a la experiencia de cursos anteriores. El curso tiene un formato intensivo de 18 horas, cuyo horario es: - viernes, de 16 a 20; - sábado, de 10 a 14 y de 16 a 20; - domingo, de 11 a 14 y de 16 a 19. Si estás interesado en apuntarte, contáctanos en: cursos@frikearq.com…; Added by Miguel Vidal at 5:28am on March 14, 2011

Comment on: Topic 'Running Simulation...': ay be other issues with your geometry, but this is usually the issue people run into.) Rays will lose energy much more slowly when a room is very reflective, but such conditions only really exist with polished painted concrete. I don't know how many such rooms you've ever been in. I can count them on one hand - and I've been to acoustic reverberation chambers on 3 continents. Pachyderm works with a ray decimation algorithm. This means that a ray will be traced out to the cutoff time, unless it has lost enough energy that its further contribution to the impulse response is negligible. At this time, the ray is discontinued. So, the more absorption in the room, the less time it will take to run the simulation. So, more realistic absorption coefficients will allow a model to run in a more reasonable amount of time. Gypsum board/Plasterboard will typically be between 8 and 11 percent at mid and high frequencies, and higher at low frequencies, for example. Concrete, unless polished and painted, is still a little porous, so you can probably make it 3 to 5 percent. Regarding sources and receivers, adding more receivers adds almost nothing to calculation time (until the every end, when it extrapolates a pressure response, anyway). This is because the receivers are entered into a spatial partition system, which allows it to be done in an optimized way. Adding multiple sources will effectively multiply the calculation time by the number of sources, because the simulation needs to be repeated for each source individually. Hopefully this helps you figure out how to run simulations with reasonable run times. Arthur…; Added by Arthur van der Harten to Pachyderm Acoustic at 7:33pm on October 12, 2021

Event: Ciclo de Workshops “ADN Methodology” / México 2011: sando las nuevas tecnologías de la información en la arquitectura para la gestión del conocimiento de sistemas que desarrollen estructuras sustentables, desde los procesos de diseño generativos o algorítmicos. Donde se contempla la P.O.O. (programación orientada a objetos) como nuevo lenguaje de expresión para el arquitecto-diseñador en el siglo XXI.Los talleres están pensados para sigan un hilo conductual en el que al mismo tiempo que se enseña se investiga y experimenta. Por primera vez se contará con diversos miembros de SEED como docentes de forma presencial y por video conferencia, logrando de esta forma acercar a los especialistas que se encuentran en Europa a los asistentes de los talleres sin encarecer los costos.+info:http://www.studioseed.net/ adn-methodology/ Los talleres están dirigidos a personas que tengan o quieran conseguir un perfil alto de innovación, creatividad, flexibilidad: profesionales con actividades de dirección, gerencia, proyectistas, investigadores, así como a estudiantes a partir de 5to semestre en adelante. Cada taller abarca perfiles diversos de profesionales, mientras unos están más orientados a directivos y gerencias, otros más a proyectistas. LOS TALLERES:FAB DIG I / ITESM – CEM / Estado de México / 20 hrs / 8 – 11 al de diciembre 2011 (En este taller no se aplican descuentos ni becas)PARAMETRIC GREEN HOUSING / Colegio de Arquitectos del estado de Jalisco (Por confirmar Sede) / Guadalajara / 20h + 5h proyecto / 30 enero 2012 al 4 de diciembre 2012FAB DIG II / ITESM – CEM / Estado de México / 30h + 5h proyecto / 8 a 12 febrero 2012TERCERA REVOLUCIÓN INDUSTRIAL: TIC`s + SOSTENIBILIDAD. Procesos y paradigmas emergentes / Querétaro / 20 hrs / 15 al 18 de febrero 2012INTRODUCCIÓN AL DISEÑO GENERATIVO / UAM-azc / DF / 8hrs / 13, 14 de enero (Costo representativo $650, máximo 40 personas, mínimo 15 personas)INTRODUCCIÓN A: SCRIPTING CON GRASSHOPPER ( Python) Y PLUGINS / Estudio SEED México / Estado de México / 30 hrs / 23, 24, 25 febrero y 1,2, 3 de marzo 2012…; Added by SEED studio at 3:30am on November 24, 2011