Zhao Lingnong1, Zhou zhen2
1. Sichuan Agricultural University, Chengdu, Sichuan, 610213, China
2. China Southwest Architectural Design & Research Institute Co., Ltd., Chengdu, Sichuan, 610213, China
With the rapid economic development, the living and consumption level of residents has reached a relatively high level. With the improvement of living standards, the demands on living conditions and quality of life will increase. From the perspective of residential architectural design and planning, the residential environment should form the core part of residential planning. Residential buildings in residential environment have a very unique style, which is not only reflected in the appearance of residential buildings, but also the connotation of residential buildings. It can be seen that the key of residential planning and architectural design should be to create a good living environment and a harmonious living atmosphere. Under the premise of people-oriented, the housing designers must choose a reasonable housing mode, improve the housing environment and the quality of life as much as possible. Based on the visual factors, this paper studies and analyzes the planning and design of residential buildings and the living environment, in order to provide some reference for the follow-up work of relevant designers.
Residential environment, Residential planning, Architectural design, Vision
Zhao Lingnong, Zhou zhen. Analysis on the Agreement between Architectural Planning and Design and Human Settlement Environment Based on Visual Impact. Academic Journal of Humanities & Social Sciences (2019) Vol. 2, Issue 6: 78-85. https://doi.org/10.25236/AJHSS.2019.020611.
 Vitaliev B. Inside the 'machine for living' [Built Environment Architecture][J]. Engineering & Technology, 2016, 10(9):48-51.
 Almassalha L M, Bauer G M, Chandler J E, et al. Label-free imaging of the native, living cellular nanoarchitecture using partial-wave spectroscopic microscopy[J]. Proceedings of the National Academy of Sciences, 2016, 113(42):6372-6381.
 Jiang H T, Ban Q C. Energy-Saving Performance Investigation on Sustainable Architecture Design of Open-Plan Housing in Temperate Region[J]. Applied Mechanics and Materials, 2014, 484-485:768-773.
 Konstantinidis E, Bamparopoulos G, Bamidis P. Moving Real Exergaming Engines on the Web: The webFitForAll case study in an active and healthy ageing living lab environment[J]. IEEE J Biomed Health Inform, 2017, 21(3):859-866.
 Khadiyanto P, Soetomo S, Hadi S P. Settlement adaptation on a seawater tide overflow area at the north part of Semarang, Indonesia[J]. Journal of Flood Risk Management, 2017, 10(4):535-545.
 Chen J, Wang F, Liu J. Traditional Huizhou architectural elements design features and their impact on modern architecture[J]. Xi'an Jianzhu Keji Daxue Xuebao/Journal of Xi'an University of Architecture & Technology, 2014, 46(5):716-720.
 Schulte-Fortkamp B. Soundscape as a resource to balance the quality of an acoustic environment[J]. The Journal of the Acoustical Society of America, 2015, 137(4):2255-2255.
 Young K B. Mount Tom Self-Transformation Retreat: Designing Experiential Architecture to Provoke Stimulatory, Expressive and Sensory Self-Exploration[J]. American Journal of Medicine & Medical Sciences, 2014, 4(6):223-229.
 Beuters P, Eichert T, Scherer H W. Influence of pre-crop and root architectureon the mobilization of non-exchangeable NH4 +[J]. Plant Soil and Environment, 2014, 60(8):372-378.
 Abbas M Y, Nafisi N, Nafisi S. Persian Garden, Cultural Sustainability and Environmental Design Case Study Shazdeh Garden[J]. Procedia - Social and Behavioral Sciences, 2016, 222:510-517.
 Derix C. The Space of People in Computation[J]. Architectural Design, 2014, 84(5):14-23.
 Saarikangas K. Sandboxes and Heavenly Dwellings[J]. Home Cultures, 2014, 11(1):33-64.
 Naz A. Interactive Living Space Design for Neo-Nomads: Anticipation Through Spatial Articulation[J]. Cognitive Systems Monographs, 2016, 29:393-403.