| ²é¿´: 20033 | »Ø¸´: 189 | ||||
¼«¶ÈÁé¸ÐÒø³æ (ÕýʽдÊÖ)
|
[½»Á÷]
¡¾Ô´´¡¿×ܽáÎÄÏ×µÄ˼· ÒÑÓÐ81È˲ÎÓë
|
|||
|
¿´µ½Ò»¸ö²»´íµÄдÎÄÏ××ܽáµÄÌá¸Ù£¬ÁгöÀ´·ÖÏíһϡ£ Ô±¾ÊÇÒ»ÃſεÄ×÷Òµ£¬ÀÏʦ²¼ÖÃÁ˼¸ÆªÂÛÎÄ£¬ÈÃд¸öÒ»Ò³µÄ×ܽᣬpaper summary¡£Õâ¸öÈç¹ûÏëºýŪ£¬ÆäʵÊǺÜÈÝÒ׵ģ¬Ëæ±ãcopy¼¸¶ÎÎÄ×ÖÏÂÀ´£¬¾ÍÒ»Ò³ÁË¡£µ«ÎÒÏëÕâÑù×öûʲôÒâÒ壬²»ÈçÈÏÈÏÕæÕæµÄÀíһЩ˼·³öÀ´¡£ÓÚÊÇÔÚÍøÉÏËѵ½ÁËÕâ¸öÑù°åÌá¸Ù¡£ ÎÒÈÏΪÕâ¸öÌá¸ÙºÃÔÚ£¬Ëû±È½ÏÖØÊÓintroduction²¿·ÖµÄÔĶÁ£¬Ç°Èý¸öÎÊÌⶼÊÇintroÀïÃæµÄ¡£Åª¶®ÕâÈý¸öÎÊÌ⣬²ÅÄܸüºÃµÄ°ÑÎÕÎÄÕ±³¾°ÐÅÏ¢¡£»°Ëµ»ØÀ´£¬ÒªÐ´Ò»ÆªºÃµÄÎÄÕ£¬Ç°8µãÄÚÈÝÊDZØȻҪ½»´úÇå³þµÄ¡£Èç¹û´ÓÎÄÕÂÀïÌáÈ¡²»µ½ÕâЩÐÅÏ¢£¬ÄÇÎÄÕ²»ÄÜ˵Êdzɹ¦µÄÎÄÕ£¬¹Ø¼üµÄÎÊÌⶼû½»´úÇå³þ¡£ Ä£°å¾«¼ò²¢·ÒëÈçÏ£º 1. What is the problem the authors are trying to solve? ×÷ÕßÏë½â¾öʲôÎÊÌ⣿(Ñо¿Ä¿µÄ) 2. What other approaches or solutions existed at the time that this work was done? Õâ¸öÎÊÌâÏÖÔÚÓÐʲô½â¾ö·½·¨£¿ 3. What was wrong with the other approaches or solutions? ÕâЩ·½·¨´æÔÚʲôÎÊÌ⣿ 4. What is the authors' approach or solution? ×÷ÕßÌá³öÁËʲô·½·¨£¿ 5. Why is it better than the other approaches or solutions? Ϊʲô˵×÷ÕßµÄÕâ¸ö·½·¨ºÃÓÚÆäËû·½·¨£¿ 6. How did they test their solution? ×÷ÕßÈçºÎ¼ìÑé×Ô¼ºµÄ·½·¨£¿ 7. How does it perform? ·½·¨¼ìÑéЧ¹ûÈçºÎ£¿ 8. Why is this work important? Ϊʲô¸ÃÎĵÄÑо¿±È½ÏÖØÒª£¿£¨Ñо¿ÒâÒ壩 more comments/questions ¸½¼ÓÆÀ×¢£¬»òÕßÎÊÌâ¡£Ëæ¶ÁÕß±³¾°ºÍÈÏʶ³Ì¶ÈµÄ²»Í¬£¬¿ÉÒÔÁé»îµÄÌá³öһЩÎÊÌâ¡£ Á´½ÓÔÚ´Ë£º http://users.soe.ucsc.edu/~sbrandt/221/samplesummary.shtml [ Last edited by ¼«¶ÈÁé¸Ð on 2010-1-22 at 12:22 ] |
»Ø¸´´ËÂ¥» ÊÕ¼±¾ÌûµÄÌÔÌûר¼ÍƼö
 ¿ÆÑÐÏà¹Ø |
» ±¾ÌûÒÑ»ñµÃµÄºì»¨£¨×îÐÂ10¶ä£©
ËÄÔµÄÌì» ²ÂÄãϲ»¶
µØÇòÎïÀíѧºÍ¿Õ¼äÎïÀíѧÂÛÎÄÈóÉ«/·ÒëÔõôÊÕ·Ñ?
ÒѾÓÐ292È˻ظ´
» ±¾Ö÷ÌâÏà¹Ø¼ÛÖµÌùÍƼö£¬¶ÔÄúͬÑùÓаïÖú:
- ÅðÇ⻯ÄÆ»¹Ôõ¥µ½´¼µÄ´ß»¯Ìõ¼þºÍºó´¦Àí×ܽᣨСľ³æÊ×·¢£©
ÒѾÓÐ46È˻ظ´
- ×Ô¼ºËÑË÷ÎÄÏ×¹ý³ÌÖÐһЩ¾Ñé
ÒѾÓÐ19È˻ظ´
- Èý´óÅ£ÈË¿´Íâ¹úÎÄÏ׵ķ½·¨(ËÑË÷ÎÞÖظ´)
ÒѾÓÐ47È˻ظ´
- ʵÑéûÓÐÒ»µã˼·
ÒѾÓÐ20È˻ظ´
- ¿´ÎÄÏ×¾¿¾¹ºóÓ¦¸Ã˼¿¼Ê²Ã´
ÒѾÓÐ225È˻ظ´
- Ϊʲôµ½ÏÖÔÚÎÒ»¹ÊÇ¿´ÎÄÏ×¾õµÃѧ²»µ½Ê²Ã´¶«Î÷£¬¿´ÎÄÏ×µ½µ×¿´Ê²Ã´ÄØ£¿
ÒѾÓÐ49È˻ظ´
- ´ó¼ÒÊÇÈçºÎÔÚÔĶÁ´óÁ¿ÎÄÏ×µÄͬʱ±£³ÖÇåÐÑ˼·£¿
ÒѾÓÐ38È˻ظ´
¼«¶ÈÁé¸Ð
Òø³æ (ÕýʽдÊÖ)
- Ó¦Öú: 0 (Ó׶ùÔ°)
- ¹ó±ö: 0.6
- ½ð±Ò: 266.6
- ºì»¨: 2
- Ìû×Ó: 304
- ÔÚÏß: 1.4Сʱ
- ³æºÅ: 409311
- ×¢²á: 2007-06-22
- ÐÔ±ð: GG
- רҵ: Geo Math&Computing
Ìṩһ¸öcase
¡ï ¡ï
xinmeng8803(½ð±Ò+2,VIP+0):»¶ÓÔ´´ 12-27 11:09
xinmeng8803(½ð±Ò+2,VIP+0):»¶ÓÔ´´ 12-27 11:09
|
±¾ÈË×¾×÷£¬Ò²¾ÍÊÇ×÷Òµ¡£»¶ÓÅÄש¡£ summary on ¡°A. Boucher (2009): Considering complex training images with search tree partitioning, Computers & Geosciences, 35, 1151-1158.¡± 1. What is the problem the authors are trying to solve? To solve the difficulty of large complex TI to be used in SNESIM. 2. What other approaches or solutions existed at the time that this work was done? To decrease the size of search tree, general approaches are taking a smaller TI or using a smaller template. Besides, there are two alternative approaches in current practice: 1) region approach 2) probability field approach. 3. What was wrong with the other approaches or solutions? A major issue with the region approach is that there is no guarantee that the different TIs used are compatible with one another. The problem with this probability field approach is that integration changes the conditional probability derived from the search tree and affects the pattern reproduction in an unknown manner. 4. What is the authors' approach or solution? The authors proposed a search tree partitioning approach which includes: Applying the filters on the TI to gain a series of filter scores that are indicative of the underlying patterns. Defining partition classes through the filter scores with a clustering algorithm Building search tree for each partition class At each pixel along the simulation path, the partition class is retrieved first and used to select the appropriate search tree. 5. Why is it better than the other approaches or solutions? The proposed algorithm adds local information without using a probability field which distorts the conditional distribution obtained from the TI. It improves the region approach by requiring a single complete TI and implicitly models the transitions between regions. It facilitates the use of hierarchical framework by identifying the hierarchy structures with partition classes. 6. How did they test their solution? They gave two examples of implementation of their approach. The first example is to simulate a series of fracture. The second is to simulate Shallow-water tidal system. They also made the comparison to the result pattern by global search tree approach. 7. How does it perform? Performance is very good. In the fracture case, the trend in orientation is well reproduced. In the second one the geological consistency of the TI is reproduced. These features are not exhibited in the realization by global search tree approach. Besides, the speed improved. 8. Comments & other questions *The simulation grid can be obtained in many ways. Do the different simulation grids influence realization? *FILTERSIM as a similar approach is interesting to compare with the authors approach. *A. Boucher¡¯s effort to integrate new algorithm to SGeMS is interesting and respectable. Open Geostatistic software will allow more researchers to test, apply and extend the algorithm in an easier manner. [ Last edited by ¼«¶ÈÁé¸Ð on 2009-12-27 at 06:59 ] |
2Â¥2009-12-27 06:54:57
 |
3Â¥2009-12-27 09:34:10
1
|
|
4Â¥2009-12-27 11:09:18
XQXKXKXQ
ľ³æ (СÓÐÃûÆø)
- Ó¦Öú: 0 (Ó׶ùÔ°)
- ½ð±Ò: 1540.9
- ºì»¨: 1
- Ìû×Ó: 167
- ÔÚÏß: 27Сʱ
- ³æºÅ: 624117
- ×¢²á: 2008-10-12
- ÐÔ±ð: GG
- רҵ: º£ÑóµØÖÊѧ
5Â¥2009-12-27 11:19:31
baobiao007
ľ³æ (Ö°Òµ×÷¼Ò)
ÖйúÌØÉ«
- Ó¦Öú: 201 (´óѧÉú)
- ½ð±Ò: 6482.7
- É¢½ð: 557
- ºì»¨: 40
- Ìû×Ó: 3050
- ÔÚÏß: 1009.9Сʱ
- ³æºÅ: 505962
- ×¢²á: 2008-02-18
- רҵ: Ó¦ÓõØÇòÎïÀíѧ
6Â¥2009-12-27 22:15:03
1
|
? |
7Â¥2009-12-27 22:18:40
earth7678
ľ³æ (ÖøÃûдÊÖ)
- Ó¦Öú: 0 (Ó׶ùÔ°)
- ½ð±Ò: 6495.7
- Ìû×Ó: 1754
- ÔÚÏß: 357.7Сʱ
- ³æºÅ: 709989
- ×¢²á: 2009-02-27
8Â¥2009-12-28 07:51:56
1
 |
9Â¥2009-12-28 08:00:27
1
|
|
10Â¥2009-12-28 08:11:37
