WO2021103399A1 - 基于云计算的跨面复杂铺贴统一设计方法 - Google Patents
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- the invention relates to the field of home improvement design tools, in particular to a unified design method for cross-surface complex paving based on cloud computing.
- the design of paving is an important means to show the sense of design and enhance the taste of home decoration design.
- the design of paving presents the characteristics of increasing complexity and increasing demand for multi-faceted design.
- the designer needs to manually adapt the different surfaces. That is, the final paving plan is designed in advance, and then the paving plan is manually divided, and then the single-sided design method provided is used on each surface according to the splitting result, and the cross-surface may be required. Additional adaptations are made in the inter-design, and finally spliced together to obtain the final result.
- the purpose of the present invention is to provide a unified design method for cross-surface complex paving based on cloud computing, which can solve the problem that existing cloud computing-based home improvement design software cannot perform unified and complex paving scheme design on multiple surfaces. Using this method can relatively efficiently support the design of complex paving schemes across surfaces, and automatically adapt to the processing of cross-surface materials between surfaces.
- the technical solution of the present invention is: a unified design method for cross-surface complex paving based on cloud computing, which specifically includes the following steps:
- Step 1 Paving surface selection, the user selects the surface or surface group to be designed through the browser or client, and determines the selected surface or surface group in an interactive or non-interactive manner, and confirms the target surface or surface Group to carry out unified paving design;
- Step 2 Paving surface determination, the system will screen and determine the selected surface or quilt group, and determine the paving route; the steps include:
- Step 201 If the paving surface is judged to be a single-sided paving design, it will degenerate to the existing single-sided paving scheme design logic in the system, and the system will guide the user to design, and finally enter the subsequent use link;
- Step 202 If the paving surface is determined to be a multi-sided paving design, enter the cross-surface paving plan design process.
- Step 3 Enter preview, rendering, construction drawing, and calculation list.
- the step 202 further includes: Step 212: preprocessing of multiple paving surfaces, solving the mapping relationship of the coordinate systems of different paving schemes, obtaining the connectivity relationship between the faces in the quilt group and taking the quilt group as the The unit's unified paving plan design area;
- Step 222 Multi-paving veneer design, which is used to guide users to use existing paving plan design tools to carry out complex paving plans oriented to multiple sides;
- Step 232 post-processing of multiple paving surfaces, transforming the paving plan that spans multiple surfaces to each corresponding surface.
- multi-ply veneer pretreatment further includes the following steps:
- Step 312 Perform basic processing on the source information of each face in the pair of face groups, including face type and id, face position, and face outline, shave off part of the face that is too small, and verify the outline information of each face , To ensure that it meets the right-hand coordinate system;
- Step 412 Perform 2D mapping on all faces in the face group based on the application rule
- Step 512 Sort the contours of the faces, and determine the topological and geometric relationship between the faces;
- Step 612 According to the topological and geometric relationship between the surface and the surface, the unified paving plan design area of the entire surface group is calculated.
- the preprocessing of the multi-ply veneer also calculates the mapping between the surface contour and the 2D contour, and a K-ary tree with the smallest unit of the surface can be obtained, and each surface is associated with and only with the parent node and the child node in the tree. Relevant; at the same time, we also get the way of each facing 2D mapping and the way back from 2D mapping, and a paving design area for the current quilt.
- Step 432 Adaptation of paving materials, used to process the adaptation of different types of paving materials, so as to achieve a final effect that remains continuous on different surfaces.
- paving materials include: ordinary continuous paving, single free paving, and special paving;
- the starting point, offset, rotation, scaling and determination of the area to which the single free paving belongs are calculated, and the corresponding single free paving only appears in the area to which it belongs.
- For the special paving calculate its actual paving according to its original attribution area, and perform corresponding cutting through the paving boundary after the calculation is completed to obtain the final paving result.
- the present invention can effectively solve the design problem of continuous paving across surfaces in the cloud computing environment, and at the same time greatly improve the repetitive and inefficient work in paving design work, and provide a more personalized multi-faceted overall design. may.
- the beneficial effects of the present invention are as follows: (1) Greatly reduce the number of paving scheme design times, from the original one side once to multiple sides once; (2) Solve the problem of a large number of manual accurate calculations in the previous cross-surface paving scheme design, and reduce the design (3) Reduce the difficulty of cross-surface paving scheme design, and improve the personalized support ability of cross-surface paving scheme design.
- Figure 1 Unified design of the waistline of the whole house
- Figure 2 Continuous wall covering and wall design across the wall
- Figure 4 is a flow chart of the unified design method for cross-surface paving of the present invention.
- Embodiment 1 As shown in Figure 4, the present invention is a cloud computing-based unified design method for cross-surface complex paving, including the following steps: Step 1: Paving surface selection, the user selects the desired design through the browser or the client Faces or quilts, and determine the selected face or quilt through interactive or non-interactive methods, and confirm the unified paving design for the target face or quilt;
- Step 3 Enter preview, rendering, construction drawing, and calculation list.
- Embodiment 2 As shown in Figure 4, the present invention is a cloud computing-based unified design method for cross-surface complex paving, including the following steps: Step 1: Paving surface selection, the user selects the desired design through the browser or the client Faces or quilts, and determine the selected face or quilt through interactive or non-interactive methods, and confirm the unified paving design for the target face or quilt;
- Step 2 Paving surface judgment, the system will screen and judge the selected surface or quilt, and determine the paving route; if the paving surface is judged to be a multi-sided paving design, enter the cross-surface paving plan design process;
- Step 3 Enter preview, rendering, construction drawing, and calculation list.
- Step 212 preprocessing of multiple paving surfaces, solving the mapping relationship of the coordinate systems of different facing paving schemes, and obtaining the connectivity relationship between the surfaces in the quilt group and the unified paving scheme design area with the quilt group as the unit;
- Step 222 Multi-paving veneer design, which is used to guide users to use existing paving plan design tools to carry out complex paving plans oriented to multiple sides;
- Step 232 post-processing of multiple paving surfaces, transforming the paving plan that spans multiple surfaces to each corresponding surface.
- the pretreatment of the multi-ply veneer further includes the following steps:
- Step 312 Perform basic processing on the source information of each face in the pair of face groups, including face type and id, face position, and face outline, shave off part of the face that is too small, and verify the outline information of each face , To ensure that it meets the right-hand coordinate system;
- Step 412 Perform 2D mapping on all faces in the face group based on the application rule
- Step 512 Sort the contours of the faces, and determine the topological and geometric relationship between the faces;
- Step 612 According to the topological and geometric relationship between the surface and the surface, the unified paving plan design area of the entire surface group is calculated.
- the preprocessing of the multi-ply veneer also calculates the mapping between the surface contour and the 2D contour, and can obtain a K-ary tree with the surface as the smallest unit, and each surface is related to and only related to the parent node and child node in the tree; at the same time; , Also get the way of each facing 2D mapping and mapping back from 2D, and a paving design area for the current quilt.
- the post-processing of the multi-ply veneer further includes:
- Step 332 Self-adaptation of the paving area, intersect the mapped outer contour of each face in the quilt with the paving design, and keep the result obtained as a candidate design on the current face, and then cut each candidate design away The contour of the mapping hole of the surface to obtain the actual paving design of each surface;
- Step 432 Adaptation of paving materials, used to process the adaptation of different types of paving materials, so as to achieve a final effect that remains continuous on different surfaces.
- the different types of paving materials include: ordinary continuous paving, single free paving, and special paving;
- the corresponding starting point, offset, rotation, and scaling information is calculated, and the actual paving is generated using the given parameters.
- the starting point, offset, rotation, scaling and determination of the area to which the single free paving belongs are calculated, and the corresponding single free paving only appears in the area to which it belongs.
- For the special paving calculate its actual paving according to its original attribution area, and perform corresponding cutting through the paving boundary after the calculation is completed to obtain the final paving result.
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Abstract
一种基于云计算的跨面复杂铺贴统一设计方法,首先用户通过浏览器或客户端选取所需进行设计的面或面组,并通过交互或非交互的方式确定所选取的面(组),并确认对目标面(组)进行统一铺贴设计;系统对所选取的面(组)进行初步筛选,明确后续的逻辑路线:若选定的面仅有一个,则退化至系统中已存在的单面铺贴方案设计逻辑,系统引导用户进行设计,并最终进入后续的使用环节;若面组中包含多个面,则进入跨面铺贴方案设计流程;其中跨面铺贴方案设计包括铺贴面的预处理,铺贴方案的统一整体设计、铺贴面的后处理。使用本方法可以相对高效地支持跨面的复杂铺贴方案设计,并自动适应面与面之间的跨面素材处理。
Description
本发明涉及家装设计工具领域,具体讲是一种基于云计算的跨面复杂铺贴统一设计方法。
现有的家装设计中,铺贴的设计是展现设计感、提升家装设计品味的一个重要手段。作为家装设计的一个核心内容,铺贴的设计呈现出复杂度不断提升、多面设计需求不断增加的特点。
在现存的基于云计算的家装设计软件中,几乎都提供了针对铺贴的设计功能。但是,现存的铺贴方案的设计工具往往是针对单个铺贴面的,特别是铺贴方案较为复杂的设计,都被限制为仅能在单个铺贴面上使用;同时,铺贴方案设计工具也提供了极少量的面向多个面的设计方法,但此类设计方法所能支持的铺贴方案往往非常简单,只能支持非常基础的需求,无法提供高级的铺贴方案设计能力,更遑论提供高度自由、可定制化的铺贴方案设计了。
现有家装设计中,存在很多对于多个面进行组合并进行统一、个性化设计的诉求。如全屋腰线的统一设计(图1),跨墙的连续墙布与墙面设计(图2),跨垭口的多面墙统一设计(图3)等等。同时,随着家装设计的不断发展,设计个性化和复杂化也成为一个常态。
在实际的多面铺贴方案的设计中,由于设计方法和最终设计目标之间的不匹配,设计师需要人工适配不同的面。即预先进行最终铺贴方案的设计,之后将这个铺贴方案进行手动切分,随后根据切分结果在每个面上使用提供的单面设计方法进行单面设计,并针对可能需要的跨面间设计进行额外的适配,最终拼接起来得到最终结果。
这种设计方式下,存在设计效率低下、精准度过于依赖设计师经验、复杂的面铺贴设计难以有效重用等问题。
发明内容:
本发明的在于提供一种基于云计算的跨面复杂铺贴统一设计方法,可以解决现有基于云计算的家装设计软件中存在的无法对多面进行统一、复杂的铺贴 方案设计的问题。使用本方法可以相对高效地支持跨面的复杂铺贴方案设计,并自动适应面与面之间的跨面素材处理。
本发明的技术解决方案是:一种基于云计算的跨面复杂铺贴统一设计方法,具体包括如下步骤:
步骤1:铺贴面选择,用户通过浏览器或客户端选取所需进行设计的面或面组,并通过交互或非交互的方式确定所选取的面或面组,并确认对目标面或面组进行统一铺贴设计;
步骤2:铺贴面判定,系统对所选取的面或面组进行筛选判定,确定铺贴路线;其步骤包括:
步骤201:若铺贴面判定为单面铺贴设计,则退化至系统中已存在的单面铺贴方案设计逻辑,系统引导用户进行设计,并最终进入后续的使用环节;
步骤202:若铺贴面判定为多面铺贴设计,则进入跨面铺贴方案设计流程。
步骤3:进入预览、渲染、施工图、算料清单。
作为优选,所述步骤202还包括:步骤212:多铺贴面预处理,解决不同面向铺贴方案坐标系的映射关系,得到面组中面与面之间的连通性关系和以面组为单位的统一铺贴方案设计区域;
步骤222:多铺贴面设计,用于引导用户使用已有的铺贴方案设计工具,进行面向多面的复杂铺贴方案;
步骤232:多铺贴面后处理,将跨多个面的铺贴方案转化到对应的每个面上。
进一步地,所述多铺贴面预处理还包括以下步骤:
步骤312:将所述对面组中每个面的源信息含面的类型和id、面的位置、面的轮廓进行基础处理,剃除部分过小的面,并校验每个面的轮廓信息,保证其满足右手坐标系;
步骤412:基于应用规则对面组中的所有面进行2D映射;
步骤512:对面轮廓排序,厘定面与面之间的拓扑和几何关系;
步骤612:根据面与面之间的拓扑和几何关系,计算出整个面组的统一铺贴方案设计区域。
进一步地,所述多铺贴面预处理,还计算了面轮廓与2D轮廓的映射,可以得到一个以面为最小单位的K叉树,每个面与且仅与树中的父节点和子节点相关;同时,也得到每个面向2D映射与从2D映射回来的方式和一个针对当前面组的铺贴设计区域。
更进一步地,所述多铺贴面后处理还包括:
步骤332:铺贴区域的自适应,将面组中每个面的映射外轮廓与铺贴设计求交,保留得到的结果作为当前面上的备选设计,之后将备选设计切割掉每个面的映射洞轮廓,得到每个面的实际铺贴设计;
步骤432:铺贴素材的自适应,用于处理不同铺贴素材类型的自适应,以达到最终在不同面上仍然保持连续的效果。
进一步地,所述不同铺贴素材类型包括:普通连续铺贴、单体自由铺贴、特殊铺贴;
其中,所述普通连续铺贴,计算其相应的起铺点、偏移、旋转、缩放信息,并使用给定的参数生成实际的铺贴。
所述单体自由铺贴,计算起铺点、偏移、旋转、缩放以及单体自由铺贴所属区域的判定,对应的单体自由铺贴仅仅出现在所属的区域。
所述特殊铺贴,根据其原始归属区域计算其实际的铺贴,并在计算完成后通过铺贴边界进行相应的裁切,得到最终铺贴结果。
通过本发明,可以有效的解决云计算环境下,跨面的连续铺贴的设计问题,同时大幅提升了铺贴设计工作中的重复、低效的工作,为更加个性化的多面整体设计提供了可能。
本发明的有益效果如下:(一)大大减少铺贴方案设计次数,由原来的一面一次降低到多面一次;(二)解决之前跨面铺贴方案设计中需要大量人工精准计算的问题,减少设计中的无效损耗;(三)降低了跨面铺贴方案设计的难度,提高了跨面铺贴方案设计的个性化支持能力。
图1全屋腰线统一设计;
图2跨墙的连续墙布与墙面设计;
图3垮垭口的多面墙统一设计;
图4为本发明跨面铺贴统一设计方法的流程图;
图5跨面的铺贴方案统一设计图;
图6跨面复杂铺贴的最终效果。
下面就具体实施方式对本发明作进一步说明:
为了使本发明的目的、技术方案及优点更加清楚明白,以下结合具体实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。
实施例1:如图4所示,本发明为基于云计算的跨面复杂铺贴统一设计方法,包括如下步骤:步骤1:铺贴面选择,用户通过浏览器或客户端选取所需进行设计的面或面组,并通过交互或非交互的方式确定所选取的面或面组,并确认对目标面或面组进行统一铺贴设计;
步骤2:铺贴面判定,系统对所选取的面或面组进行筛选判定,确定铺贴路线;若铺贴面判定为单面铺贴设计,则退化至系统中已存在的单面铺贴方案设计逻辑,系统引导用户进行设计,并最终进入后续的使用环节;
步骤3:进入预览、渲染、施工图、算料清单。
实施例2:如图4所示,本发明为基于云计算的跨面复杂铺贴统一设计方法,包括如下步骤:步骤1:铺贴面选择,用户通过浏览器或客户端选取所需进行设计的面或面组,并通过交互或非交互的方式确定所选取的面或面组,并确认对目标面或面组进行统一铺贴设计;
步骤2:铺贴面判定,系统对所选取的面或面组进行筛选判定,确定铺贴路线;若铺贴面判定为多面铺贴设计,则进入跨面铺贴方案设计流程;
步骤3:进入预览、渲染、施工图、算料清单。
其中,所述多面铺贴设计的跨面铺贴方案设计流程还包括以下步骤:
步骤212:多铺贴面预处理,解决不同面向铺贴方案坐标系的映射关系,得到面组中面与面之间的连通性关系和以面组为单位的统一铺贴方案设计区域;
步骤222:多铺贴面设计,用于引导用户使用已有的铺贴方案设计工具,进行面向多面的复杂铺贴方案;
步骤232:多铺贴面后处理,将跨多个面的铺贴方案转化到对应的每个面上。
所述多铺贴面预处理还包括以下步骤:
步骤312:将所述对面组中每个面的源信息含面的类型和id、面的位置、面的轮廓进行基础处理,剃除部分过小的面,并校验每个面的轮廓信息,保证其满足右手坐标系;
步骤412:基于应用规则对面组中的所有面进行2D映射;
步骤512:对面轮廓排序,厘定面与面之间的拓扑和几何关系;
步骤612:根据面与面之间的拓扑和几何关系,计算出整个面组的统一铺贴方案设计区域。
所述多铺贴面预处理,还计算了面轮廓与2D轮廓的映射,可以得到一个以面为最小单位的K叉树,每个面与且仅与树中的父节点和子节点相关;同时,也得到每个面向2D映射与从2D映射回来的方式和一个针对当前面组的铺贴设计区域。
所述多铺贴面后处理还包括:
步骤332:铺贴区域的自适应,将面组中每个面的映射外轮廓与铺贴设计求交,保留得到的结果作为当前面上的备选设计,之后将备选设计切割掉每个面的映射洞轮廓,得到每个面的实际铺贴设计;
步骤432:铺贴素材的自适应,用于处理不同铺贴素材类型的自适应,以达到最终在不同面上仍然保持连续的效果。
所述不同铺贴素材类型包括:普通连续铺贴、单体自由铺贴、特殊铺贴;
其中,所述普通连续铺贴,计算其相应的起铺点、偏移、旋转、缩放信息,并使用给定的参数生成实际的铺贴。
所述单体自由铺贴,计算起铺点、偏移、旋转、缩放以及单体自由铺贴所属区域的判定,对应的单体自由铺贴仅仅出现在所属的区域。
所述特殊铺贴,根据其原始归属区域计算其实际的铺贴,并在计算完成后通过铺贴边界进行相应的裁切,得到最终铺贴结果。
在完成多面铺贴设计之后,即可进入后续的预览、渲染、施工图、算料清单等逻辑,得到图7跨面复杂铺贴的最终效果。
以上仅就本发明较佳的实施例作了说明,但不能理解为是对权利要求的限制。凡是利用本发明说明书所做的等效结构或等效流程变换,均包括在本发明的专利保护范围之内。
Claims (6)
- 一种基于云计算的跨面复杂铺贴统一设计方法,其特征在于,所述设计方法包括如下步骤:步骤1:铺贴面选择,用户通过浏览器或客户端选取所需进行设计的面或面组,并通过交互或非交互的方式确定所选取的面或面组,并确认对目标面或面组进行统一铺贴设计;步骤2:铺贴面判定,系统对所选取的面或面组进行筛选判定,确定铺贴路线;其步骤包括:步骤201:若铺贴面判定为单面铺贴设计,则退化至系统中已存在的单面铺贴方案设计逻辑,系统引导用户进行设计,并最终进入后续的使用环节;步骤202:若铺贴面判定为多面铺贴设计,则进入跨面铺贴方案设计流程;步骤3:进入预览、渲染、施工图、算料清单。
- 根据权利要求1所述的跨面复杂铺贴统一设计方法,其特征在于,所述步骤202还包括:步骤212:多铺贴面预处理,解决不同面向铺贴方案坐标系的映射关系,得到面组中面与面之间的连通性关系和以面组为单位的统一铺贴方案设计区域;步骤222:多铺贴面设计,用于引导用户使用已有的铺贴方案设计工具,进行面向多面的复杂铺贴方案;步骤232:多铺贴面后处理,将跨多个面的铺贴方案转化到对应的每个面上。
- 根据权利要求1所述的跨面复杂铺贴统一设计方法,其特征在于,所述多铺贴面预处理还包括以下步骤:步骤312:将所述对面组中每个面的源信息含面的类型和id、面的位置、面的轮廓进行基础处理,剃除部分过小的面,并校验每个面的轮廓信息,保证其满足右手坐标系;步骤412:基于应用规则对面组中的所有面进行2D映射;步骤512:对面轮廓排序,厘定面与面之间的拓扑和几何关系;步骤612:根据面与面之间的拓扑和几何关系,计算出整个面组的统一铺贴方案设计区域。
- 根据权利要求2或3所述的基于云计算的跨面复杂铺贴统一设计方法,其特征在于,所述多铺贴面预处理,还计算了面轮廓与2D轮廓的映射,可以得到一个以面为最小单位的K叉树,每个面与且仅与树中的父节点和子节点相关;同时,也得到每个面向2D映射与从2D映射回来的方式和一个针对当前面组的铺贴设计区域。
- 根据权利要求1所述的跨面复杂铺贴统一设计方法,其特征在于,所述多铺贴面后处理还包括:步骤332:铺贴区域的自适应,将面组中每个面的映射外轮廓与铺贴设计求交,保留得到的结果作为当前面上的备选设计,之后将备选设计切割掉每个面的映射洞轮廓,得到每个面的实际铺贴设计;步骤432:铺贴素材的自适应,用于处理不同铺贴素材类型的自适应,以达到最终在不同面上仍然保持连续的效果。
- 根据权利要求5所述的跨面复杂铺贴统一设计方法,其特征在于,所述不同铺贴素材类型包括:普通连续铺贴、单体自由铺贴、特殊铺贴;其中,所述普通连续铺贴,计算其相应的起铺点、偏移、旋转、缩放信息,并使用给定的参数生成实际的铺贴。所述单体自由铺贴,计算起铺点、偏移、旋转、缩放以及单体自由铺贴所属区域的判定,对应的单体自由铺贴仅仅出现在所属的区域。所述特殊铺贴,根据其原始归属区域计算其实际的铺贴,并在计算完成后通 过铺贴边界进行相应的裁切,得到最终铺贴结果。
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