视觉欣赏下小型室内环境感官体验建模研究
|
摘要
传统建模方法仅针对某一感官模块进行分析,导致用户感官体验效果较差。为解决该问题,提出视觉欣赏下小型室内环境感官体验建模研究。依据建模原理处理感官信息粒子,通过外设传感装置采集视觉、听觉和触觉输入信号,将信号转化为数据形式,通过动态粒子滤波对数据进行优化处理。人为控制光源渲染度,从中提取物体几何信息和纹理特征,使用平面构建策略剔除错误离散点,构建精准室内三维环境。在三维环境下,剔除光线影响和信号干扰错觉点,构建视觉感官体验模型;通过实体行为描述确开始和停止声音,构建听觉感官体验模型;使用不同软件设计交互功能,构建触觉感官体验模型。由实验结果可知,该方法用户体验满意度最高为98%,为大型室外环境感官体验研究提供技术支持。
The traditional modeling method is only analyzed for a certain sensory module, resulting in a poor sensory experience for the user. In order to solve this problem, a sensory experience modeling study of small indoor environment under visual appreciation is proposed. The sensory information particles are processed according to the modeling principle, and the visual, auditory and tactile input signals are collected by the peripheral sensing device, the signal is converted into a data form, and the data is optimized by dynamic particle filtering. Artificially control the rendering degree of the light source, extract the geometric information and texture features of the object, use the plane construction strategy to eliminate the false discrete points, and construct a precise indoor three-dimensional environment. In the three-dimensional environment, the visual impact sensory model is constructed by eliminating the influence of light and signal interference. The physical behavior description is used to determine the start and stop sounds, and the auditory sensory experience model is constructed. The interaction function of different software is used to construct the tactile sensory experience model. It can be seen from the experimental results that the user experience satisfaction of this method is up to 98%, providing technical support for large outdoor environmental sensory experience research.
The traditional modeling method is only analyzed for a certain sensory module, resulting in a poor sensory experience for the user. In order to solve this problem, a sensory experience modeling study of small indoor environment under visual appreciation is proposed. The sensory information particles are processed according to the modeling principle, and the visual, auditory and tactile input signals are collected by the peripheral sensing device, the signal is converted into a data form, and the data is optimized by dynamic particle filtering. Artificially control the rendering degree of the light source, extract the geometric information and texture features of the object, use the plane construction strategy to eliminate the false discrete points, and construct a precise indoor three-dimensional environment. In the three-dimensional environment, the visual impact sensory model is constructed by eliminating the influence of light and signal interference. The physical behavior description is used to determine the start and stop sounds, and the auditory sensory experience model is constructed. The interaction function of different software is used to construct the tactile sensory experience model. It can be seen from the experimental results that the user experience satisfaction of this method is up to 98%, providing technical support for large outdoor environmental sensory experience research.
引文
[1]董秋敏,孙凰耀,刘芳.室内观设计中的视觉感官建模[J].现代电子技术,2018, 32(02):159-162
[2]吕科,施泽南,李一鹏.微型无人机视觉位与环境建模研究[J].电子科技大学学报,2017, 46(3):543-548
[3]朱力.基于视觉传达的环境艺术设计感官体验建模[J].现代电子技术,2018,31(11):28-41
[4]杨钢.基于简约理念的现代茶馆室内环境设计研究[J].福建茶叶,2017, 39(11):55-56
[5]郭文斌,郭晓勇.点光源小扰动环境空间布局室内优化设计[J].科技通报,2016, 32(01):128-132
[6]杨丽,钱锋,宋德萱.建筑室内空间环境舒适性的数值模拟研究[J].建筑科学,2017, 33(08):129-134
[7]王丹婷,蒋友.古建筑三维虚拟建模与虚实交互软件实现[J].计算机应用,2017, 31(02):186-189
[8]王云舒,刘建业,曾庆化,等.结构光辅助的惯性/视觉室内导航三维环境重构方法[J].中国惯性技术学报,2016, 24(01):51-58
[9]周先春,徐浩捷,石兰芳.室内环境下指数分布非对称几何统计信道模型[J].计算机工程,2018, 44(03):73-77
[10]刘丹白.关于视觉随机街三维仿真建模研究[J].计算机仿真,2016, 33(04):438-441
[2]吕科,施泽南,李一鹏.微型无人机视觉位与环境建模研究[J].电子科技大学学报,2017, 46(3):543-548
[3]朱力.基于视觉传达的环境艺术设计感官体验建模[J].现代电子技术,2018,31(11):28-41
[4]杨钢.基于简约理念的现代茶馆室内环境设计研究[J].福建茶叶,2017, 39(11):55-56
[5]郭文斌,郭晓勇.点光源小扰动环境空间布局室内优化设计[J].科技通报,2016, 32(01):128-132
[6]杨丽,钱锋,宋德萱.建筑室内空间环境舒适性的数值模拟研究[J].建筑科学,2017, 33(08):129-134
[7]王丹婷,蒋友.古建筑三维虚拟建模与虚实交互软件实现[J].计算机应用,2017, 31(02):186-189
[8]王云舒,刘建业,曾庆化,等.结构光辅助的惯性/视觉室内导航三维环境重构方法[J].中国惯性技术学报,2016, 24(01):51-58
[9]周先春,徐浩捷,石兰芳.室内环境下指数分布非对称几何统计信道模型[J].计算机工程,2018, 44(03):73-77
[10]刘丹白.关于视觉随机街三维仿真建模研究[J].计算机仿真,2016, 33(04):438-441