(18, 11, 0, 17), also put in the assembly component.
How can I know which value of the reaction forces correspond to which support?
In the manual is stated that when the reaction force component is used, than the values are displayed in ascending sequence of the corresponding nodes.So if I input the support nodes like thispoint with index 18point with index 11point with index 0point with index 17are the reaction forces displayed like this (per loadcase)?0 - reaction forces in point with index 01 - reaction forces in point with index 112 - reaction forces in point with index 183 - reaction forces in point with index 17
Thanks!
BestLara…
into new tree, so that branch {0} has points from branch {0} {1} {2} combined, branch {1} has points from {2} {3} {4}... as it shows in the atached image.
The main problem is that points need to overlap in the new tree.
Any suggestions?…
the use of digital technologies as architectural design tools. The workshop " Computer Aided Design: parametric design and digital fabrication " aims to do some introductory teaching in the use of some of these tools.
The workshop will focus on the use of computational models of parametric behavior for generating architectural forms. The generative capacity of these models it will be tested in the development of designs defined by repetitive non-standard components, based on the parametric control of its variations and series differentiations. This process will be developed by the use of a three-dimensional modeling software - Rhinoceros, associated with an application for visual programming - Grasshopper.
The last day of the workshop is dedicated to the use of digital manufacturing tools in architecture. Part of the work will take place at the facilities of the Institute of Design of Guimarães (IDEGUI) providing for the use of their laboratories and manufacturing CNC machines (computer numerically controlled).
At the end of the workshop, it is intended the students to understand that the use of digital technologies in architecture can overcome representational functions, and their integration in the design conception, analysis and construction enriches the methodology of project development.
Terms & Participants
The workshop will take place at the School of Architecture of the University of Minho (Campus Azurém, Guimarães) and the Institute of Design of Guimarães (Couros, Guimarães).
The workshop is pointed at students who attend the 3rd year and 4th year from MiArq, EAUM.
The maximum acceptance is 20 students and a minimum of 10 students.
Deadline for entries is April 11 and must be performed by eaum.pac@gmail.com.
Program summary :
Day 23 April 14 -20h
Introduction to 3D modeling in Rhinoceros. Regular geometries, ruled surfaces and NURBS surfaces.
Day 30 April 14 -20h
Parametric design in architecture. Introduction to methods of visual programming.
May 1, 9 -13h 14 -18h
Development of a design idea by the use visual programming processes in Grasshopper.
May 2, 9 -13h 14 -18h
Introduction to methods of digital fabrication. Manufacture physical models of the proposals made.
It is expected that this meeting will take place in the IDEGUI labs.
team:
Bruno Figueiredo ( Lecturer, EAUM )
Paulo Sousa ( PhD candidate , EAUM )
Nuno Cruz ( Invited Lecturer , EAUM )
Cláudia Alvares ( 5th year MiArq student , EAUM )
Javier Bono ( 4th year MiArq student, EAUM )
João Amaro ( 5th year MiArq student, EAUM )…
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…
cognises the importance of providing space for the local creative economy of the Samba Schools within the Port of Rio de Janeiro, after having ignored their incorporation within the Porto Maravilha Waterfront Regeneration Project. Using this new incorporation strategy as our impetus, the Rio de Janeiro Visiting School will work directly with this initiative and aim to broaden its scope and accessibility in an attempt to foster a diverse public space for the Cidade de Samba (Samba City) infrastructure, a large warehouse complex built by the city for the top Samba Schools in the Port of Rio, which currently has no connection to the waterfront cruise-terminal tourist infrastructure, nor any type of amenities for the general public.
The projects will include the design of both permanent structures and temporary interactive installations transforming the existing closed production area of Samba City into an open space linked to proposed leisure itineraries along the waterfront. Structures will be designed with computational design methods and built with digital fabrication techniques with the assistance of local artisans combining new materials and processes with reappropriated Carnival paraphernalia. Students will build both models and partial one-to-one prototypes of their urban, architectural and interactive design proposals.
Instruction for the Visiting School workshop series will be led by AA Tutors and Assistants and local architects and specialists, the Escola de Carnaval Artistic Directors, and Carnival float-fabricators. Specifically, participants will learn computational design using rhino, grasshopper, processing, and arduino as well as the use of c.n.c. milling and routing, laser cutting and rapid-prototyping. No previous experience is necessary. The workshop is open to architecture and design students and professionals worldwide.
For more info: brazilvisitingschool@aaschool.ac.uk or +55 11 3062-3522…
ización de estructuras, panelización de superficies, gestión y conexión con tablas de datos, automatización de dibujo, programación visual … Adjuntamos el temario del cuso. El contenido del curso ha sido revisado y ampliado, gracias a la experiencia de nuestros anteriores. Está orientado a profesionales y estudiantes de arquitectura y diseño en general.
Será impartido por dos Authorized Rhino Trainers en Madrid, en la calle Bailén. Tiene un formato intensivo de 18 horas; el horario es: viernes, de 17 a 21; sábado, de 10 a 14 y de 16 a 20; y domingo, de 11 a 14 y de 16 a 19. El número de asistentes está limitado a un máximo de 8 personas.…
Added by Miguel Vidal at 11:11am on December 17, 2009
}
0,3
{7}
1,2
{8}
1,3
{9}
2,3
{10}
0,1,2
{11}
0,1,3
{12}
0,2,3
{13}
1,2,3
{14}
0,1,2,3
I want it to be parametric so I can have it for any set of indexes
I have tried to solve it with points and then removing duplicate points but it's not helping much
any help is truly appreciated
…
be done easier, but later on the geometry will change and therefore this seems the better option. But coming back to the problem
First, there were some problems concerning the zone, although it seems solved still the “runenergysimulation” gives the following warning:
1. The simulation has not run correctly because of this severe error:
** Severe ** UpdateZoneSizing: Cooling supply air temperature (calculated) within 2C of zone temperature
Do one of you know what went wrong? It probably will solve most of it.
Second, “set Zone Thresholds” gives the following warning:
1. Solution exception:global name 'maxHumidity_' is not defined
However, the component is missing the max humidity input on the list, has this to do something with the error?
All the components are up to date.
I hope it will be an easy fix.
Gr Lars
“set Zone Thresholds” runtime error
{0;0;0}0. Runtime error (UnboundNameException): global name 'maxHumidity_' is not defined1. Traceback: line 80, in checkTheInputs, "<string>" line 282, in script
"runenergysimulation” report
{0;0}0. Current document units is in Meters1. Conversion to Meters will be applied = 1.0002. TypeError('Waarde kan niet null zijn.\r\nParameternaam: source',)3. Failed to copy the object. Returning the original objects...This can cause strange behaviour!4. [1 of 8] Writing simulation parameters...5. [2 of 8] No context surfaces...6. [3 of 8] Writing geometry...7. [4 of 8] Writing Electric Load Center - Generator specifications ...8. [5 of 8] Writing materials and constructions...9. [6 of 8] Writing schedules...10. [7 of 8] Writing loads and ideal air system...11. [8 of 8] Writing outputs...12. ...... idf file is successfully written to : c:\ladybug\unnamed\EnergyPlus\unnamed.idf13. 14. Analysis is running!...15. c:\ladybug\unnamed\EnergyPlus\eplusout.csv16. ......
Done! Read below for errors and warnings:
17. 18. Program Version,EnergyPlus, Version 8.3.0-6d97d074ea, YMD=2016.03.02 20:55,IDD_Version 8.3.019. 20. ** Warning ** IP: Note -- Some missing fields have been filled with defaults. See the audit output file for details.21. 22. ************* Beginning Zone Sizing Calculations23. 24. ** Warning ** GetInternalHeatGains: People="CLASSROOMOFFICEPEOPLE", Activity Level Schedule Name values25. 26. ** ~~~ ** fall outside typical range [70,1000] W/person for Thermal Comfort Reporting.27. 28. ** ~~~ ** Odd comfort values may result; Schedule="SCHOCCUPANCYSCHEDULE".29. 30. ** ~~~ ** Entered min/max range=[0.0,1.0] W/person.31. 32. ** Warning ** Calculated design heating load for zone=CLASSROOM is zero.33. 34. ** ~~~ ** Check Sizing:Zone and ZoneControl:Thermostat inputs.35. 36. ** Severe ** UpdateZoneSizing: Cooling supply air temperature (calculated) within 2C of zone temperature37. 38. ** ~~~ ** ...check zone thermostat set point and design supply air temperatures39. 40. ** ~~~ ** ...zone name = CLASSROOM41. 42. ** ~~~ ** ...design sensible cooling load = 25499.10 W43. 44. ** ~~~ ** ...thermostat set point temp = 0.000 C45. 46. ** ~~~ ** ...zone temperature = 15.334 C47. 48. ** ~~~ ** ...supply air temperature = 15.000 C49. 50. ** ~~~ ** ...temperature difference = -0.33433 C51. 52. ** ~~~ ** ...calculated volume flow rate = 197273.21341 m3/s53. 54. ** ~~~ ** ...calculated mass flow rate = 237634.19357 kg/s55. 56. ** Warning ** ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.57. 58. ************* Testing Individual Branch Integrity59. 60. ************* All Branches passed integrity testing61. 62. ************* Testing Individual Supply Air Path Integrity63. 64. ************* All Supply Air Paths passed integrity testing65. 66. ************* Testing Individual Return Air Path Integrity67. 68. ************* All Return Air Paths passed integrity testing69. 70. ************* No node connection errors were found.71. 72. ************* Beginning Simulation73. 74. ************* Simulation Error Summary *************75. 76. ** Warning ** The following Report Variables were requested but not generated77. 78. ** ~~~ ** because IDF did not contain these elements or misspelled variable name -- check .rdd file79. 80. ************* Key=*, VarName=ZONE PACKAGED TERMINAL HEAT PUMP TOTAL COOLING ENERGY, Frequency=Hourly81. 82. ************* Key=*, VarName=ZONE PACKAGED TERMINAL HEAT PUMP TOTAL HEATING ENERGY, Frequency=Hourly83. 84. ************* Key=*, VarName=CHILLER ELECTRIC ENERGY, Frequency=Hourly85. 86. ************* Key=*, VarName=BOILER HEATING ENERGY, Frequency=Hourly87. 88. ************* Key=*, VarName=FAN ELECTRIC ENERGY, Frequency=Hourly89. 90. ************* Key=*, VarName=ZONE VENTILATION FAN ELECTRIC ENERGY, Frequency=Hourly91. 92. ************* Key=*, VarName=EARTH TUBE FAN ELECTRIC ENERGY, Frequency=Hourly93. 94. ************* Key=*, VarName=PUMP ELECTRIC ENERGY, Frequency=Hourly95. 96. ************* Key=*, VarName=ZONE VENTILATION TOTAL HEAT LOSS ENERGY, Frequency=Hourly97. 98. ************* Key=*, VarName=ZONE VENTILATION TOTAL HEAT GAIN ENERGY, Frequency=Hourly99. 100. ************* Key=*, VarName=EARTH TUBE ZONE SENSIBLE COOLING ENERGY, Frequency=Hourly101. 102. ************* Key=*, VarName=EARTH TUBE ZONE SENSIBLE HEATING ENERGY, Frequency=Hourly103. 104. ************* EnergyPlus Warmup Error Summary. During Warmup: 0 Warning; 0 Severe Errors.105. 106. ************* EnergyPlus Sizing Error Summary. During Sizing: 3 Warning; 1 Severe Errors.107. 108. ************* EnergyPlus Completed Successfully-- 5 Warning; 1 Severe Errors; Elapsed Time=00hr 00min 4.65sec109.…
7 -18.2
8 5.02
9 12.4
10 18.1
11 7.01
12 5.11
13 2.35
this data is waveform data.
i want to pick out only climax(for example in upper data, number 1 and 10) from this data.
i have this problem...that is, i do not know to do what.
i think my English is strange...so you are difficult to understanding my question.…
nother nurbs surface that is built from control points extracted from the other two (3 three rows of control points shown in the picture are the ones I would like to use).
When I try to use the "Surface from Points" component, however, I cannot get the surface to generate properly. From my understanding of previous discussions on this forum, the U parameter should be U+1 which in my case would be 11. No parameter from 0-11 is producing the results I'm looking for, however.
My attempted solution is attached. I get the feeling the solution will be quite straightforward...
Thanks,
Austin
…