Page 47 - 《应该声学》2022年第2期
P. 47
第 41 卷 第 2 期 张芮宁等: 城市社区公园声景分布与景观特征关联性研究 215
the interaction effect between landscape and soundscape [25] Komal S, Prashant K, Gaurav S, et al. Mapping spatial
experience in city parks[J]. Chinese Landscape Architec- distribution of particulate matter using Kriging and in-
ture, 2017, 33(12): 86–90. verse distance weighting at supersites of megacity Delhi[J].
[16] 马蕙, 王丹丹. 城市公园声景观要素及其初步定量化分析 [J]. Sustainable Cities & Society, 2019, 54: 101997.
噪声与振动控制, 2012, 32(1): 81–85, 118. [26] Setianto A, Triandini T. Comparison of kriging and in-
Ma Hui, Wang Dandan. Primary quantification of sound- verse distance weighted (IDW) interpolation methods in
scape elements in urban parks[J]. Noise and Vibration lineament extraction and analysis[J]. Journal of Applied
Control, 2012, 32(1): 81–85, 118. Geology, 2013, 5(1): 21–29.
[17] 康健, 杨威. 城市公共开放空间中的声景 [J]. 世界建筑, [27] 蒿奕颖. 声景中声掩蔽效应导向的规划设计 [J]. 新建筑,
2002(6): 76–79. 2014(5): 36–39.
Kang Jian, Yang Wei. Soundscape in urban open public Hao Yiying. Urban design and planning from the perspec-
spaces[J]. World Architecture, 2002(6): 76–79. tive of “masking effects” in soundscape[J]. New Architec-
[18] Zhang R, Zhu L, Zhang Y. Investigation on the restoration ture, 2014(5): 36–39.
effect of soundscape in parks in high-density cities: taking
[28] Zhang Y, Kang J. Effects of soundscape on the envi-
Lu Xun Park in Shenyang, China as an example[C]. Pro- ronmental restoration in urban natural environments[J].
ceedings of the 23rd International Congress on Acoustics, Noise & Health, 2017, 19(87): 56–72.
Aachen, Germany, 2019: 876–883.
[29] 刘江, 杨玲, 黄丽坤. 生态型城市公园声景体验的影响因素研
[19] Hong J, Jeon J. Exploring spatial relationships among
究 [J]. 风景园林, 2019, 26(5): 89–93.
soundscape variables in urban areas: a spatial statistical
Liu Jiang, Yang Ling, Huang Likun. Research on the in-
modelling approach[J]. Landscape and Urban Planning,
fluential factors of soundscape experience in urban ecolog-
2017, 157: 352–364.
ical park[J]. Landscape Architecture, 2019, 26(5): 89–93.
[20] 扈军, 葛坚, 李东浩. 基于 GIS 的声景观地图制作与分析 ——
[30] Shumaker S A, Taylor R B. Toward a clarification of peo-
以杭州柳浪闻莺公园为例 [J]. 浙江大学学报 (工学版), 2015,
ple place relationships: a model of attachment to place[J].
49(7): 1295–1304.
Environmental Psychology: Directions and Perspectives,
Hu Jun, Ge Jian, Li Donghao. Analysis and construction
1983, 2: 19–25.
of sounds cape mapping based on GIS—A case of orioles
[31] 熊向艳, 韩永伟, 高馨婷, 等. 北京市城乡结合部 17 种常
singing in Willows Park, Hangzhou[J]. Journal of Zhejiang
用绿化植物固碳释氧功能研究 [J]. 环境科学文摘, 2014(3):
University (Engineering Science), 2015, 49(7): 1295–1304.
248–255.
[21] Mitchell A, Oberman T, Aletta F, et al. The soundscape
Xiong Xiangyan, Han Yongwei, Gao Xinting, et al. Anal-
indices (SSID) protocol: a method for urban soundscape
ysis of carbon fixation and oxygen release capabilities of
surveys-questionnaires with acoustical and contextual in-
17 afforestation plants in Rural-urban Fringe in Beijing[J].
formation[J]. Applied Sciences, 2020, 10(7): 2397.
Abstracts of Environmental Sciences, 2014(3): 248–255.
[22] Aletta F, Oberman T, Mitchell A, et al. Assessing the
changing urban sound environment during the COVID- [32] 公园设计规范: GB 51192–2016[S].
19 lockdown period using short-term acoustic measure- [33] Lu X, Tang J, Zhu P, et al. Spatial variations in pedes-
ments[J]. Noise Mapping, 2020, 7(1): 123–134. trian soundscape evaluation of traffic noise[J]. Environ-
[23] Acoustics-soundscape-part 2: data collection and report- mental Impact Assessment Review, 2020, 83: 106399.
ing requirements: ISO 12913–2–2018[S]. [34] Yang X, Zhang Y, Guo S. Investigation and study on the
[24] 陈怡冰, 黄建锋, 谢嘉琪, 等. 基于 GIS 的高密度城市声景质 influence of high-density urban traffic noise on the acous-
量及其影响因素研究 ——以广州天河区为例 [J]. 应用声学, tic environment of urban parks[C]. Proceedings of the 23rd
2021, 40(4): 619–627. International Congress on Acoustics, Aachen, Germany,
Chen Yibing, Huang Jianfeng, Xie Jiaqi, et al. Sound- 2019: 6713–6720.
scape quality and its influencing factors of high-density [35] Zhang Y, Kang J, Jin H. An experimental study on the
city based on GIS: a case study of Tianhe District, restorative experience of typical urban soundscape based
Guangzhou[J]. Journal of Applied Acoustics, 2021, 40(4): on EDA[C]. The 22 nd International Congress on Sound
619–627. and Vibration, Florence, Italy, 2015.
