自然与建筑
出版时间: 2017年版
丛编项: 跨界设计
内容简介
《跨界设计——自然与建筑》从自然形成的地形地貌中截取相应的形态,并以此进一步地对形态本身进行空间层面的观察与操作是该书的主旨。通过对所选取的地形进行空间图式的抽取与建模,进而整理出由地形所产生的拥有建筑含义的空间形态,其过程本身不仅仅是对于空间的观察,其所做的一切,事实上也是一种对于所谓地域性问题的描写与诠释。从俯瞰的视点对“地域性”表达进行新的思考和观测是本书的主要特质。本书适合从事建筑设计、研究及评论者阅读。
目录
序
导读
1 非“透视学”视点下的“写生”
2 从地形到空间的19 个实例
实例 2-1 从“北纬23.45'36.63,东经117.22'11.19 ”周边地形所选择出的建筑
实例 2-2 从“北纬23.54'55.90,东经57.06'02.58 ” 周边地形所选择出的建筑
实例 2-3 从“北纬31.52'20.67,东经36.58'39.98 ” 周边地形所选择出的建筑
实例 2-4 从“北纬31.53'02.68,东经36.52'23.09 ” 周边地形所选择出的建筑
实例 2-5 从“北纬32.11'20.17,东经36.08'46.05 ” 周边地形所选择出的建筑
实例 2-6 从“北纬23.45'01.54,东经117.14'03.03 ”周边地形所选择出的建筑
实例 2-7 从“北纬32.13'03.67,东经36.08'35.01 ” 周边地形所选择出的建筑
实例 2-8 从“北纬32.13'10.41,东经36.14'03.79 ” 周边地形所选择出的建筑
实例 2-9 从“北纬23.54'27.80,东经117.28'36.57 ”周边地形所选择出的建筑
实例2-10 从“北纬32.06'07.90,东经37.22'11.49 ” 周边地形所选择出的建筑
实例2-11 从“北纬14.56'29.75,东经43.23'25.95 ” 周边地形所选择出的建筑
实例2-12 从“北纬14.52'56.87,东经43.17'50.12 ” 周边地形所选择出的建筑
实例2-13 从“北纬32.16'08.40,东经36.05'48.26 ” 周边地形所选择出的建筑
3 从自然中直接截取的建筑
实例2-14 从“北纬53.50'51.13,东经73.24'12.32 ” 周边地形所选择出的建筑
实例2-15 从“北纬34.17'24.41,东经57.33'20.18 ” 周边地形所选择出的建筑
实例2-16 从“北纬39.59'50.83,东经120.43'55.90 ”周边地形所选择出的建筑
实例2-17 从“北纬37.30'33.17,东经122.00'32.90 ”周边地形所选择出的建筑
实例2-18 从“北纬35.38'12.54,东经120.46'43.01 ”周边地形所选择出的建筑
实例2-19 从“北纬40.45'16.15,东经144.52'45.92 ”周边地形所选择出的建筑
实例3-1 直接截取“北纬36.75'84.63,东经110.49'35 ” 周边隆起的地形所获得的空间形态
实例3-2 直接截取“北纬37.46'65.09,东经110.99'91.12”周边隆起的地形所获得的正向空间形态
实例3-3 直接截取“北纬37.46'65.09,东经110.99'91.12”周边隆起的地形所获得的负向空间形态
实例3-4 直接截取“北纬24.38'16.94,东经121.11'84.74”周边隆起的地形所获得的空间形态
实例3-5 直接截取“北纬7.32'52.19,东经134.49'15.70” 周边隆起的地形所获得的空间形态
Contents
Preface
Introduction
1 “Paint from life” based on “non-perspective science”
2 19 samples of transformation from landform to space
Sample 2-1
Sample 2-2
Sample 2-3
Sample 2-4
Sample 2-5
Sample 2-6
Sample 2-7
Sample 2-8
Sample 2-9
Sample 2-10
Sample 2-11
Sample 2-12
Sample 2-13
Sample 2-14
Sample 2-15
Architecture chosen from landform around 23.45'36.63 N, 117.22'11.19 E
Architecture chosen from landform around 23.54'55.90 N, 57.06'02.58 E
Architecture chosen from landform around 31.52'20.67 N, 36.58'39.98 E
Architecture chosen from landform around 31.53'02.68 N, 36.52'23.09 E
Architecture chosen from landform around 32.11'20.17 N, 36.08'46.05 E
Architecture chosen from landform around 23.45'01.54 N, 117.14'03.03 E
Architecture chosen from landform around 32.13'03.67 N, 36.08'35.01 E
Architecture chosen from landform around 32.13'10.41 N, 36.14'03.79 E
Architecture chosen from landform around 23.54'27.80 N, 117.28'36.57 E
Architecture chosen from landform around 32.06'07.90 N, 37.22'11.49 E
Architecture chosen from landform around 14.56'29.75 N, 43.23'25.95 E
Architecture chosen from landform around 14.52'56.87 N, 43.17'50.12 E
Architecture chosen from landform around 32.16'08.40 N, 36.05'48.26 E
Architecture chosen from landform around 53.50'51.13 N, 73.24'12.32 E
Architecture chosen from landform around 34.17'24.41 N, 57.33'20.18 E
3 Architecture directly extracted from nature
Sample 2-16
Sample 2-17
Sample 2-18
Sample 2-19
Sample 3-1
Sample 3-2
Sample 3-3
Sample 3-4
Sample 3-5
Architecture chosen from landform around 39.59'50.83 N, 120.43'55.90 E
Architecture chosen from landform around 37.30'33.17 N, 122.00'32.90 E
Architecture chosen from landform around 35.38'12.54 N, 120.46'43.01 E
Architecture chosen from landform around 40.45'16.15 N, 144.52'45.92 E
Spatial patterns acquired by directly extracting upheaval area
around 36.75'84.63N, 110.49'35 E
Spatial patterns of forward direction acquired from upheaval landform
around 37.46'65.09 N, 110.99'91.12 E
Spatial patterns of negative direction acquired from upheaval landform
around 37.46'65.09 N, 110.99'91.12 E
Spatial patterns acquired by directly extracting upheaval area
around 24.38'16.94N, 121.11'84.74 E
Spatial patterns acquired by directly extracting upheaval area
around 7.32'52.19N, 134.49'15.70 E