13;2} ... 20.{13;12}
21. {21;0}22. {21;1}23. {21;2} ... 41. {21;20}
42. {34;0}43. {34;1}44. {34;2} ... 75. {34;33}
76. {55;0}77. {55;1} ... ....
I want to grab the first 8 [0-7], the next 13[8-20], the next 21[21-42] etc
so i have the (known fibonacci seq) list of numbers on the left here:
C S
8 0
13 8
21 21
34 42
55 76
89 131
144 220
233 364
and i need the list on the right, so that i can select items using a Series (N=1 and S and C from the list above) and a List Item component.
the simple question is:
is there a component that can take a list and accumulate it in this way that I need?
if not, is there anyone that can point me to a simple relevant VB example so i could easily adapt it?
many thanks,
gotjosh…
umbrella of Urban Heat Island (UHI) and I am going to try to separate them out in order to give you a sense of the current capabilities in LB+HB.
1) UHI as defined as a recorded elevated air temperature in an urban area:
If you have access to epw files for both an urban area and a rural area, you can use Ladybug to visualize and deeply explore the differences between the two weather files. Ladybug is primarily a tool for weather file visualization and analysis and it can be very helpful for understanding the consequences of UHI on strategies for buildings or on comfort. This said, if you do not have both rural and urban recorded weather data or you want to generate your own weather files based on criteria about urban areas (as it sounds like you want to do), this definition might not be so helpful.
2) UHI defined by air elevated air temperature but viewed as a computer model-able phenomenon resulting primarily from urban canyon geometry, building materials, and (to a lesser degree) anthropogenic heat:
This definition seems to fit more with they type of thing that you are looking for but it is unfortunately very difficult and computationally intensive such that we do not currently have anything within Ladybug to do this right now. I can say that the state-of-the art for this type of modeling is an application called Town Energy Budget (TEB) and this is what all of the advanced UHI researches that I know use (http://www.cnrm.meteo.fr/surfex/spip.php?article7). Unfortunately for those trying to use it in professional practice, it can take a while to get comfortable with it and it currently runs exclusively on Linux (this does mean that it is open source, though, and that you can really get deep into the assumptions of the model). A couple years ago, a peer of mine translated almost all of TEB into Matlab language making it possible to run it on Windows if you have Matlab. He wrapped everything together into a tool called the Urban Weather Generator (UWG), which can take an epw file of a rural area and warp it to an urban area based on inputs that you give of building height, materials, vegetation, anthropogenic heat, etc. I would recommend looking into this for your project, although, bear in mind that is it not open source like the original TEB tool and that you may need to get a (very expensive) copy of MATLAB (http://urbanmicroclimate.scripts.mit.edu/uwg.php).
3) UHI as defined by a thermal satellite image of an urban area depicting an elevated average radiant environment that reaches a maximum a the city center and changes by land use:
This is the definition of UHI that I am most familiar with and was the basis of much of my past research. I feel that it is also a definition of UHI that is a bit more in line with where a lot of contemporary UHI research is headed, which is away from the notion of UHI as a macro-scale meteorological phenomena that is averaged as an air temperature over a huge area towards one that accepts that different land uses have different microclimates and (importantly) different radiant environments. While the air temperature difference between urban and rural areas usually does not change more than 1-4 C, the radiant environment can be very different (on the order of 10-15 C differences). The best way to understand UHI in this context is with Thermal satellite images, for which there is ha huge database of publicly available data on NASA's glovis website (http://glovis.usgs.gov/) or their ECHO website (http://reverb.echo.nasa.gov/reverb/#utf8=%E2%9C%93&spatial_map=satellite&spatial_type=rectangle). I tend to use thermal data from LANDSAT 5-8 and ASTER satellites in my research. Unfortunately, there is a lot f bad data with a lot of cloud cover mixed in with the really good stuff and it can take some time to find good images. Also, there aren't too many programs that read the GeoTiff file format that you download the data as. I know that ArcGIS will read it, a program called ENVI will read it (I think that the open source QGIS can also red it). I have plans to write a set of components to bring this type of data into Rhino and GH (I may get to it a few months down the line).
4) UHI as a computer model-able notion of "Urban Microclimate" with consideration of local differences and the local radiant environment:
This is where a lot of my research has lead and, thankfully, is an area that Honeybee can help you out a lot with. EnergyPlus simulations can output information on outside building surface temperatures and these can be very helpful in helping get a sense of the radiant environment around individual buildings. Right now, I am focusing just on using this data to fully model the indoor environments of buildings as you see in this video:
https://www.youtube.com/watch?v=fNylb42FPIc&list=UUc6HWbF4UtdKdjbZ2tvwiCQ
I have plans to move this methodology to the outdoors once I complete this initial application to the indoors. For now, you can use the "Surface result reader" and the "color surfaces based on EP result" components to get a sense of variation in the outside temperature of your buildings.
I hope that this helped,
-Chris
…
oxes in the most efficient way within boundaries of object and follow the following constraints. The Goal: To fit 125 boxes in the most efficient way inside the total area. Starting Variables: (1) 40% of the Boxes need to be between 60 and 85MSQ. (2) 40% of the boxes need to be between 86 and 110MSQ.
(3) 20% of the boxes need to be between 111 and 125mSQ. The breakdown doesn’t have to be exact to give the script some flexibility. Meaning you can have 41% +39% +20% = 100%.
Constraints:
1. A total MAXIMUM area of approximately 1600M per layer.
2. A maximum of 8 layers for a total of 12,800M per layer. Optimization can make as little or as many as 8 layers vertical to accommodate all boxes. So if script can achieve with 3 levels great. If needed all 8 levels, that's fine too. However, pay attention to next constraint (#3).
3. Approximately 15% of that space on each layer is off limits. (internal area) (blue area in example script) and the shape of the boundary cannot be modified to accommodate box design resulting in jagged lines for the internal area.
4. All generated squares/rectangles must have at least 3m touching an outside border (The Green lines).
5. All boxes must also be touching minimum 1M of border of the blue line.
6. If the boxes generated go outside the green boundary, they must be fillet to maintain the straight lines of the green boundaries.
7. Get as many of the boxes as possible a view towards the dots.
Could any one provide me a method or a way to start, if there are any useful links, please share with me. Thank you!…
Boxes in the most efficient way within boundaries of object and follow the following constraints.
The Goal: To fit 125 boxes in the most efficient way inside the total area. Starting Variables:
(1) 40% of the Boxes need to be between 60 and 85MSQ. (2) 40% of the boxes need to be between 86 and 110MSQ.
(3) 20% of the boxes need to be between 111 and 125mSQ. The breakdown doesn’t have to be exact to give the script some flexibility. Meaning you can have 41% +39% +20% = 100%.
Constraints:
1. A total MAXIMUM area of approximately 1600M per layer.
2. A maximum of 8 layers for a total of 12,800M per layer. Optimization can make as little or as many as 8 layers vertical to accommodate all boxes. So if script can achieve with 3 levels great. If needed all 8 levels, that's fine too. However, pay attention to next constraint (#3).
3. Approximately 15% of that space on each layer is off limits. (internal area) (blue area in example script) and the shape of the boundary cannot be modified to accommodate box design resulting in jagged lines for the internal area.
4. All generated squares/rectangles must have at least 3m touching an outside border (The Green lines).
5. All boxes must also be touching minimum 1M of border of the blue line.
6. If the boxes generated go outside the green boundary, they must be fillet to maintain the straight lines of the green boundaries.
7. Get as many of the boxes as possible a view towards the dots.
Could any one provide me a method or a way to start, if there are any useful links, please share with me. Thank you!
…
re is my problem... I need to arrange Boxes in the most efficient way within boundaries of object and follow the following constraints.
The Goal: To fit 125 boxes in the most efficient way inside the total area. Starting Variables:
(1) 40% of the Boxes need to be between 60 and 85MSQ. (2) 40% of the boxes need to be between 86 and 110MSQ.
(3) 20% of the boxes need to be between 111 and 125mSQ. The breakdown doesn’t have to be exact to give the script some flexibility. Meaning you can have 41% +39% +20% = 100%.
Constraints:
1. A total MAXIMUM area of approximately 1600M per layer.
2. A maximum of 8 layers for a total of 12,800M per layer. Optimization can make as little or as many as 8 layers vertical to accommodate all boxes. So if script can achieve with 3 levels great. If needed all 8 levels, that's fine too. However, pay attention to next constraint (#3).
3. Approximately 15% of that space on each layer is off limits. (internal area) (blue area in example script) and the shape of the boundary cannot be modified to accommodate box design resulting in jagged lines for the internal area.
4. All generated squares/rectangles must have at least 3m touching an outside border (The Green lines).
5. All boxes must also be touching minimum 1M of border of the blue line.
6. If the boxes generated go outside the green boundary, they must be fillet to maintain the straight lines of the green boundaries.
7. Get as many of the boxes as possible a view towards the dots.
Could any one provide me a method or a way to start, if there are any useful links, please share with me. Thank you!
…
H are automated by using them as an ActiveX, the C# script object fails on the simplest tasks. That is, when initiating Rhino and GH externally (as by the following C# code):
Rhino5Application rhino_app = new Rhino5Application();
dynamic grasshopper = newRhino.rhino_app.GetPlugInObject("b45a29b1-4343-4035-989e-044e8580d9cf", "00000000-0000-0000-0000-000000000000") as dynamic;
The following very simple C# script component fails because it cant cast its input:
The c# code at the component is only:
Line 89 is simply casting of the input. Clearly, this makes the usage of C# component, under automation, impossible which is a major loss.
As said, when initiating Rhino and GH manually , all works well as in the following:
Any ideas why it misbehaves under automation (as an Active X ) ?
I added the gh file of this example.…
he concept, moving on to decision making and continuing with digital and generative design tools TO GET THE BEST SOLUTION for each problem.
WHY? The world is complex and ever-changing and we need to be able to handle the volume of information we receive and, of course, to find and choose the best solution. Therefore, we direct our ATTENTION TO THE CAUSE, and not only on the effects/solutions.
We will learn from NATURE, the only “company” that has not gone bankrupt in over 4000M years, and it’s GENERATIVE SOLUTIONS.
> OBJECTIVES <
The participants will work in multidisciplinary groups (ex. architect + designer + business manager + constructor + communication specialist etc.) applying knowledge management tools, different approaches and nature-based optimization methods.
Listed objectives:
1. Improving the generative way of TURNING AN IDEA INTO A PROJECT through problem-solving thinking
2. Discovering nature’s ways of shaping evolutionary solutions
3. Getting out from our comfort zone and working together with other professionals in groups in order to achieve better solutions: Multidisciplinary Design Optimization
4. Learning to use technology to manage information in the decision making process
& surviving the whole week
> ATTENDANCE & COSTS <
> Early bird – until 17th March 2013
Lecture – 15 euro (includes presentations, food& drinks)
Workshop – 100 euro (includes lecture, food& drinks)
> Late bird – until 6th April 2013
Lecture – 25 euro (includes presentations, food& drinks)
Workshop – 120 euro (includes lecture, food& drinks)
…
[2 of 8] No context surfaces...5. [3 of 8] Writing geometry...6. [4 of 8] Writing Electric Load Center - Generator specifications ...7. [5 of 8] Writing materials and constructions...8. [6 of 8] Writing schedules...9. [7 of 8] Writing loads and ideal air system...10. [8 of 8] Writing outputs...11. ...... idf file is successfully written to : C:\Users\Personal\Desktop\TESI\x006\THOR001\EnergyPlus\THOR001.idf12. 13. Analysis is running!...14. C:\Users\Personal\Desktop\TESI\x006\THOR001\EnergyPlus\eplusout.csv15. ......
Done! Read below for errors and warnings:
16. 17. Program Version,EnergyPlus, Version 8.3.0-6d97d074ea, YMD=2016.01.17 17:56,IDD_Version 8.3.018. 19. ** Warning ** IP: Note -- Some missing fields have been filled with defaults. See the audit output file for details.20. 21. ************* Beginning Zone Sizing Calculations22. 23. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)24. 25. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=00126. 27. ** ~~~ ** because vertex 1 of back surface=PELLE_NORD1 is in front of receiving surface=PELLE_COMUNIONE00128. 29. ** ~~~ ** (Dot Product indicator=184.4593)30. 31. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.32. 33. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)34. 35. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=00136. 37. ** ~~~ ** because vertex 2 of back surface=PELLE_NORD1 is in front of receiving surface=PELLE_COMUNIONE00138. 39. ** ~~~ ** (Dot Product indicator=184.4593)40. 41. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.42. 43. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)44. 45. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=00146. 47. ** ~~~ ** because vertex 3 of back surface=PELLE_NORD1 is in front of receiving surface=PELLE_COMUNIONE00148. 49. ** ~~~ ** (Dot Product indicator=184.4593)50. 51. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.52. 53. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)54. 55. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=00156. 57. ** ~~~ ** because vertex 4 of back surface=PELLE_NORD1 is in front of receiving surface=PELLE_COMUNIONE00158. 59. ** ~~~ ** (Dot Product indicator=184.4593)60. 61. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.62. 63. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)64. 65. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=00166. 67. ** ~~~ ** because vertex 1 of back surface=PELLE_NORD2 is in front of receiving surface=PELLE_COMUNIONE00168. 69. ** ~~~ ** (Dot Product indicator=184.4593)70. 71. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.72. 73. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)74. 75. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=00176. 77. ** ~~~ ** because vertex 2 of back surface=PELLE_NORD2 is in front of receiving surface=PELLE_COMUNIONE00178. 79. ** ~~~ ** (Dot Product indicator=184.4593)80. 81. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.82. 83. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)84. 85. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=00186. 87. ** ~~~ ** because vertex 3 of back surface=PELLE_NORD2 is in front of receiving surface=PELLE_COMUNIONE00188. 89. ** ~~~ ** (Dot Product indicator=184.4593)90. 91. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.92. 93. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)94. 95. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=00196. 97. ** ~~~ ** because vertex 4 of back surface=PELLE_NORD2 is in front of receiving surface=PELLE_COMUNIONE00198. 99. ** ~~~ ** (Dot Product indicator=184.4593)100. 101. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.102. 103. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)104. 105. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001106. 107. ** ~~~ ** because vertex 1 of back surface=PELLE_COMUNIONE002 is in front of receiving surface=PELLE_COMUNIONE001108. 109. ** ~~~ ** (Dot Product indicator=184.4593)110. 111. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.112. 113. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)114. 115. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001116. 117. ** ~~~ ** because vertex 2 of back surface=PELLE_COMUNIONE002 is in front of receiving surface=PELLE_COMUNIONE001118. 119. ** ~~~ ** (Dot Product indicator=184.4593)120. 121. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.122. 123. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)124. 125. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001126. 127. ** ~~~ ** because vertex 1 of back surface=WIN_006_GLZP_0 is in front of receiving surface=PELLE_COMUNIONE001128. 129. ** ~~~ ** (Dot Product indicator=182.6148)130. 131. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.132. 133. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)134. 135. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001136. 137. ** ~~~ ** because vertex 2 of back surface=WIN_006_GLZP_0 is in front of receiving surface=PELLE_COMUNIONE001138. 139. ** ~~~ ** (Dot Product indicator=92.2297)140. 141. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.142. 143. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)144. 145. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001146. 147. ** ~~~ ** because vertex 3 of back surface=WIN_006_GLZP_0 is in front of receiving surface=PELLE_COMUNIONE001148. 149. ** ~~~ ** (Dot Product indicator=92.2297)150. 151. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.152. 153. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)154. 155. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001156. 157. ** ~~~ ** because vertex 1 of back surface=WIN_006_GLZP_1 is in front of receiving surface=PELLE_COMUNIONE001158. 159. ** ~~~ ** (Dot Product indicator=182.6148)160. 161. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.162. 163. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)164. 165. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001166. 167. ** ~~~ ** because vertex 2 of back surface=WIN_006_GLZP_1 is in front of receiving surface=PELLE_COMUNIONE001168. 169. ** ~~~ ** (Dot Product indicator=92.2297)170. 171. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.172. 173. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)174. 175. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001176. 177. ** ~~~ ** because vertex 3 of back surface=WIN_006_GLZP_1 is in front of receiving surface=PELLE_COMUNIONE001178. 179. ** ~~~ ** (Dot Product indicator=182.6148)180. 181. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.182. 183. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)184. 185. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001186. 187. ** ~~~ ** because vertex 1 of back surface=WIN_006_GLZP_2 is in front of receiving surface=PELLE_COMUNIONE001188. 189. ** ~~~ ** (Dot Product indicator=92.2297)190. 191. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.192. 193. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)194. 195. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001196. 197. ** ~~~ ** because vertex 2 of back surface=WIN_006_GLZP_2 is in front of receiving surface=PELLE_COMUNIONE001198. 199. ** ~~~ ** (Dot Product indicator=1.8446)200. 201. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.202. 203. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)204. 205. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001206. 207. ** ~~~ ** because vertex 3 of back surface=WIN_006_GLZP_2 is in front of receiving surface=PELLE_COMUNIONE001208. 209. ** ~~~ ** (Dot Product indicator=1.8446)210. 211. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.212. 213. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)214. 215. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001216. 217. ** ~~~ ** because vertex 1 of back surface=WIN_006_GLZP_3 is in front of receiving surface=PELLE_COMUNIONE001218. 219. ** ~~~ ** (Dot Product indicator=92.2297)220. 221. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.222. 223. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)224. 225. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001226. 227. ** ~~~ ** because vertex 2 of back surface=WIN_006_GLZP_3 is in front of receiving surface=PELLE_COMUNIONE001228. 229. ** ~~~ ** (Dot Product indicator=1.8446)230. 231. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.232. 233. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)234. 235. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001236. 237. ** ~~~ ** because vertex 3 of back surface=WIN_006_GLZP_3 is in front of receiving surface=PELLE_COMUNIONE001238. 239. ** ~~~ ** (Dot Product indicator=92.2297)240. 241. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.242. 243. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)244. 245. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001246. 247. ** ~~~ ** because vertex 3 of back surface=PELLE_COMUNIONE003 is in front of receiving surface=PELLE_COMUNIONE001248. 249. ** ~~~ ** (Dot Product indicator=184.4593)250. 251. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.252. 253. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)254. 255. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001256. 257. ** ~~~ ** because vertex 4 of back surface=PELLE_COMUNIONE003 is in front of receiving surface=PELLE_COMUNIONE001258. 259. ** ~~~ ** (Dot Product indicator=184.4593)260. 261. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.262. 263. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)264. 265. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001266. 267. ** ~~~ ** because vertex 1 of back surface=PELLE_EST is in front of receiving surface=PELLE_COMUNIONE001268. 269. ** ~~~ ** (Dot Product indicator=184.4593)270. 271. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.272. 273. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)274. 275. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001276. 277. ** ~~~ ** because vertex 2 of back surface=PELLE_EST is in front of receiving surface=PELLE_COMUNIONE001278. 279. ** ~~~ ** (Dot Product indicator=184.4593)280. 281. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.282. 283. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)284. 285. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001286. 287. ** ~~~ ** because vertex 1 of back surface=WIN_001_GLZP_0 is in front of receiving surface=PELLE_COMUNIONE001288. 289. ** ~~~ ** (Dot Product indicator=180.7210)290. 291. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.292. 293. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)294. 295. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001296. 297. ** ~~~ ** because vertex 3 of back surface=WIN_001_GLZP_0 is in front of receiving surface=PELLE_COMUNIONE001298. 299. ** ~~~ ** (Dot Product indicator=180.7210)300. 301. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.302. 303. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)304. 305. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001306. 307. ** ~~~ ** because vertex 2 of back surface=WIN_001_GLZP_1 is in front of receiving surface=PELLE_COMUNIONE001308. 309. ** ~~~ ** (Dot Product indicator=180.7210)310. 311. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.312. 313. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)314. 315. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001316. 317. ** ~~~ ** because vertex 3 of back surface=WIN_001_GLZP_2 is in front of receiving surface=PELLE_COMUNIONE001318. 319. ** ~~~ ** (Dot Product indicator=180.7210)320. 321. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.322. 323. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)324. 325. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001326. 327. ** ~~~ ** because vertex 3 of back surface=PELLE_OVEST is in front of receiving surface=PELLE_COMUNIONE001328. 329. ** ~~~ ** (Dot Product indicator=184.4593)330. 331. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.332. 333. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)334. 335. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001336. 337. ** ~~~ ** because vertex 4 of back surface=PELLE_OVEST is in front of receiving surface=PELLE_COMUNIONE001338. 339. ** ~~~ ** (Dot Product indicator=184.4593)340. 341. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.342. 343. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)344. 345. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001346. 347. ** ~~~ ** because vertex 1 of back surface=WIN_002_GLZP_0 is in front of receiving surface=PELLE_COMUNIONE001348. 349. ** ~~~ ** (Dot Product indicator=180.7210)350. 351. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.352. 353. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)354. 355. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001356. 357. ** ~~~ ** because vertex 3 of back surface=WIN_002_GLZP_0 is in front of receiving surface=PELLE_COMUNIONE001358. 359. ** ~~~ ** (Dot Product indicator=180.7210)360. 361. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.362. 363. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)364. 365. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001366. 367. ** ~~~ ** because vertex 2 of back surface=WIN_002_GLZP_1 is in front of receiving surface=PELLE_COMUNIONE001368. 369. ** ~~~ ** (Dot Product indicator=180.7210)370. 371. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.372. 373. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)374. 375. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001376. 377. ** ~~~ ** because vertex 1 of back surface=WIN_002_GLZP_2 is in front of receiving surface=PELLE_COMUNIONE001378. 379. ** ~~~ ** (Dot Product indicator=180.7210)380. 381. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.382. 383. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)384. 385. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001386. 387. ** ~~~ ** because vertex 3 of back surface=PELLE_SOTTO is in front of receiving surface=PELLE_COMUNIONE001388. 389. ** ~~~ ** (Dot Product indicator=184.4593)390. 391. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.392. 393. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)394. 395. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001396. 397. ** ~~~ ** because vertex 4 of back surface=PELLE_SOTTO is in front of receiving surface=PELLE_COMUNIONE001398. 399. ** ~~~ ** (Dot Product indicator=184.4593)400. 401. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.402. 403. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)404. 405. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001406. 407. ** ~~~ ** because vertex 7 of back surface=PELLE_SOTTO is in front of receiving surface=PELLE_COMUNIONE001408. 409. ** ~~~ ** (Dot Product indicator=184.4593)410. 411. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.412. 413. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)414. 415. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001416. 417. ** ~~~ ** because vertex 8 of back surface=PELLE_SOTTO is in front of receiving surface=PELLE_COMUNIONE001418. 419. ** ~~~ ** (Dot Product indicator=184.4593)420. 421. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.422. 423. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)424. 425. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001426. 427. ** ~~~ ** because vertex 1 of back surface=PELLE_SOPRA_DUP is in front of receiving surface=PELLE_COMUNIONE001428. 429. ** ~~~ ** (Dot Product indicator=184.4593)430. 431. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.432. 433. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)434. 435. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001436. 437. ** ~~~ ** because vertex 4 of back surface=PELLE_SOPRA_DUP is in front of receiving surface=PELLE_COMUNIONE001438. 439. ** ~~~ ** (Dot Product indicator=184.4593)440. 441. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.442. 443. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)444. 445. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001446. 447. ** ~~~ ** because vertex 5 of back surface=PELLE_SOPRA_DUP is in front of receiving surface=PELLE_COMUNIONE001448. 449. ** ~~~ ** (Dot Product indicator=184.4593)450. 451. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.452. 453. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)454. 455. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001456. 457. ** ~~~ ** because vertex 8 of back surface=PELLE_SOPRA_DUP is in front of receiving surface=PELLE_COMUNIONE001458. 459. ** ~~~ ** (Dot Product indicator=184.4593)460. 461. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.462. 463. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)464. 465. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001466. 467. ** ~~~ ** because vertex 1 of back surface=PELLE_NORD2 is in front of receiving surface=PELLE_COMUNIONE002468. 469. ** ~~~ ** (Dot Product indicator=167.5695)470. 471. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.472. 473. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)474. 475. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001476. 477. ** ~~~ ** because vertex 2 of back surface=PELLE_NORD2 is in front of receiving surface=PELLE_COMUNIONE002478. 479. ** ~~~ ** (Dot Product indicator=167.5695)480. 481. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.482. 483. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)484. 485. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001486. 487. ** ~~~ ** because vertex 3 of back surface=PELLE_NORD2 is in front of receiving surface=PELLE_COMUNIONE002488. 489. ** ~~~ ** (Dot Product indicator=195.1092)490. 491. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.492. 493. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)494. 495. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001496. 497. ** ~~~ ** because vertex 4 of back surface=PELLE_NORD2 is in front of receiving surface=PELLE_COMUNIONE002498. 499. ** ~~~ ** (Dot Product indicator=195.1092)500. 501. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.502. 503. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)504. 505. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001506. 507. ** ~~~ ** because vertex 3 of back surface=PELLE_COMUNIONE001 is in front of receiving surface=PELLE_COMUNIONE002508. 509. ** ~~~ ** (Dot Product indicator=167.5695)510. 511. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.512. 513. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)514. 515. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001516. 517. ** ~~~ ** because vertex 4 of back surface=PELLE_COMUNIONE001 is in front of receiving surface=PELLE_COMUNIONE002518. 519. ** ~~~ ** (Dot Product indicator=167.5695)520. 521. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.522. 523. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)524. 525. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001526. 527. ** ~~~ ** because vertex 1 of back surface=WIN_005 is in front of receiving surface=PELLE_COMUNIONE002528. 529. ** ~~~ ** (Dot Product indicator=32.0568)530. 531. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.532. 533. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)534. 535. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001536. 537. ** ~~~ ** because vertex 2 of back surface=WIN_005 is in front of receiving surface=PELLE_COMUNIONE002538. 539. ** ~~~ ** (Dot Product indicator=139.1556)540. 541. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.542. 543. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)544. 545. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001546. 547. ** ~~~ ** because vertex 3 of back surface=WIN_005 is in front of receiving surface=PELLE_COMUNIONE002548. 549. ** ~~~ ** (Dot Product indicator=139.1556)550. 551. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.552. 553. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)554. 555. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001556. 557. ** ~~~ ** because vertex 4 of back surface=WIN_005 is in front of receiving surface=PELLE_COMUNIONE002558. 559. ** ~~~ ** (Dot Product indicator=32.0568)560. 561. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.562. 563. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)564. 565. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001566. 567. ** ~~~ ** because vertex 1 of back surface=PELLE_COMUNIONE003 is in front of receiving surface=PELLE_COMUNIONE002568. 569. ** ~~~ ** (Dot Product indicator=167.5695)570. 571. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.572. 573. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)574. 575. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001576. 577. ** ~~~ ** because vertex 2 of back surface=PELLE_COMUNIONE003 is in front of receiving surface=PELLE_COMUNIONE002578. 579. ** ~~~ ** (Dot Product indicator=167.5695)580. 581. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.582. 583. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)584. 585. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001586. 587. ** ~~~ ** because vertex 3 of back surface=PELLE_COMUNIONE003 is in front of receiving surface=PELLE_COMUNIONE002588. 589. ** ~~~ ** (Dot Product indicator=167.5695)590. 591. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.592. 593. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)594. 595. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001596. 597. ** ~~~ ** because vertex 4 of back surface=PELLE_COMUNIONE003 is in front of receiving surface=PELLE_COMUNIONE002598. 599. ** ~~~ ** (Dot Product indicator=167.5695)600. 601. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.602. 603. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)604. 605. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001606. 607. ** ~~~ ** because vertex 1 of back surface=PELLE_EST is in front of receiving surface=PELLE_COMUNIONE002608. 609. ** ~~~ ** (Dot Product indicator=195.1092)610. 611. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.612. 613. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)614. 615. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001616. 617. ** ~~~ ** because vertex 2 of back surface=PELLE_EST is in front of receiving surface=PELLE_COMUNIONE002618. 619. ** ~~~ ** (Dot Product indicator=195.1092)620. 621. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.622. 623. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)624. 625. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001626. 627. ** ~~~ ** because vertex 3 of back surface=PELLE_EST is in front of receiving surface=PELLE_COMUNIONE002628. 629. ** ~~~ ** (Dot Product indicator=195.1092)630. 631. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.632. 633. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)634. 635. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001636. 637. ** ~~~ ** because vertex 4 of back surface=PELLE_EST is in front of receiving surface=PELLE_COMUNIONE002638. 639. ** ~~~ ** (Dot Product indicator=195.1092)640. 641. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.642. 643. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)644. 645. ** ~~~ ** Solar Distribution = FullInteriorExterior will not work in Zone=001646. 647. ** ~~~ ** because vertex 5 of back surface=PELLE_EST is in front of receiving surface=PELLE_COMUNIONE002648. 649. ** ~~~ ** (Dot Product indicator=195.1092)650. 651. ** ~~~ ** Check surface geometry; if OK, use Solar Distribution = FullExterior instead.652. 653. ** Severe ** Problem in interior solar distribution calculation (CHKBKS)654. [...]
thisthe errorthat appen when i lunch E+ with only one zone....what is going on???? …
being driven by the wii nunchuck... But, here's my issue. I tried it first by having the output from the listener be a 6-digit number... so, I'm using the (CInt(Val(StoredValue))) command and it's writing out 181130... and I can easily split it up selecting the Left(x,3) or Right(x,3)... I first rant that number through a Format("{0:000000}",x) so that even if one of the accx or accy numbers were a 2-digit number (so my overall number would only have 5-digits)... with this Format function... I'm always assured a 6-digit number. And this method works... except...
If the first group of numbers coming in only has 2-digits... So, lets say the accelerometer read out of the first one (accx) is 89. Let's say the accy read out is 119. So, when I run this through the Format function to make it have at least 6 digits, my number now reads 011989. So, if I were to take the first three numbers on the right, my read out would be 989... which is much higher than my expected (60-180 range that is really coming over the Serial Port)... So, I'm back to where I started... in that I need to figure out a better way to split up the data.
Which brings me to your method. I tried it as well... in fact, I added a comma in the serial readout, so the string coming out of the listener reads 89,119. So, I can use your trick to go look for a delimeter and then read to the left and right a certain number of digits... The problem I still have is that the data going into the function is a string, and thus even if I split the 3 digits to the right of the comma out (so, my output says 119)... it's still a string, and my number parameter is still red. In your picture above, was your original 181 130 a number or a string? My guess is that it was understood as a number, because your number parameters at the end are accepting the value. But, in my case... I'm still stuck with the inability to convert a string to a number... Does this make sense? And are their any other workarounds?…
Added by Andy Payne at 9:42am on September 3, 2009
m
-Area of blue line: min. 80% of the rectangel a x b
-Max. hight h of the top point: h,max = a
-Min. Volume between rectangel a x b and membrane: 500 m3
Can anyone help me?…