Five-Step Parametric Prediction and Optimization Tool for Lunar Surface Systems Excavation Tasks

机译：月球表面系统开挖任务的五步参数预测和优化工具

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NASA systems engineers require an accurate assessment of excavator mass, power and energy requirements to correctly design lunar surface systems' overall architecture. In order to properly determine excavator mass and energy for various excavation tasks, we recommend a 5-step process. It starts with selection of appropriate soil that is analogous to lunar regolith. The second step refers to soil preparation methods; the desire is to make the soil's relative density similar to in-situ lunar regolith's relative density. The third step requires measuring excavation forces by deploying instrumented digging end effectors in carefully prepared soil bins and preferably in vacuum. After forces are measured, they need to be scaled for lunar gravity. The scaling factor varies depending on soil properties (cohesion and friction angle) and also on the size of an excavating blade/scoop. Once the forces are scaled they can be used to accurately estimate excavators' parameters for various tasks. This paper describes in detail all of the 5 steps mentioned above.

机译：NASA系统工程师要求对挖掘机的质量，功率和能量需求进行准确评估，以正确设计月球表面系统的总体架构。为了正确确定各种挖掘任务的挖掘机质量和能量，我们建议您进行5个步骤。首先要选择类似于月球巨石的合适土壤。第二步指的是整地方法。人们的愿望是使土壤的相对密度类似于原地雷戈石的相对密度。第三步需要通过在精心准备的土壤箱中，最好是在真空中部署仪器化的挖掘端部执行器，来测量挖掘力。测量力之后，需要针对月球重力对它们进行缩放。比例系数根据土壤特性（内聚力和摩擦角）以及挖掘铲刀/铲子的尺寸而变化。一旦按比例缩放了力，就可以将其用于各种作业的准确估算挖掘机的参数。本文详细描述了上述5个步骤。

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《Earth and SPACE 2010;International conference on engineering, science, construction, and operations in challenging environments;NASA/ARO/ASCE workshop on granular materials in lunar and martian exploration》|2011年|p.1128-1151|共24页
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Kris Zacny; Robert P. Mueller; Jack Craft; Jack Wilson; Magnus Hedlund; et al;
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1. Parametric review of existing regolith excavation techniques for lunar In Situ Resource Utilisation (ISRU) and recommendations for future excavation experiments [J] . Planetary and space science . 2020,第Jana期

机译：用于月球原位资源利用（ISRU）的现有重碎石开挖技术的参数审查以及对未来开挖实验的建议
2. Tool flank wear model and parametric optimization in end milling of metal matrix composite using carbide tool: Response surface methodology approach [J] . Arokiadass R., Palaniradja K., Alagumoorthi N. International Journal of Industrial Engineering Computations . 2012,第3期

机译：硬质合金刀具铣削金属基复合材料的刀具侧面磨损模型和参数优化：响应面方法
3. Impact-Actuated Digging Tool for Lunar Excavation [J] . NASA Tech Briefs . 2013,第8期

机译：冲击驱动挖掘工具，用于月球挖掘
4. Five-Step Parametric Prediction and Optimization Tool for Lunar Surface Systems Excavation Tasks [C] . Kris Zacny, Robert P. Mueller, Jack Craft, International Conference on Engineering, Science, Construction, and Operations in Challenging Environments . 2010

机译：用于月球表面系统挖掘任务的五步参数预测和优化工具
5. Improving Efficiency of Truck-Shovel Materials Handling Systems in Surface Mining through Simulation and Optimization Tools [D] . Ozdemir, Burak. 2019

机译：通过仿真和优化工具提高CARCUP-SHOVEL材料处理系统的效率
6. Optimization of Cutting Data and Tool Inclination Angles During Hard Milling with CBN Tools Based on Force Predictions and Surface Roughness Measurements [O] . Andrzej Matras, Wojciech Zębala 2020

机译：基于力预测和表面粗糙度测量的CBN刀具硬铣削过程中的切削数据和刀具倾斜角的优化
7. : "This paper deals with the functionality of the flaked stone assemblages from several Neolithic sites of the NE of the Iberian Peninsula. The chronological framework ranges from the mid-6th to the mid-4th millennium cal. BCE, which corresponds to the Early and Middle Neolithic. This long period ranges from the arrival of the first farming communities in the Iberian Peninsula, around 5600-5500 cal. BCE, to 3600-3500 cal. BCE, two millennia later, when Neolithic communities had stably occupied most of the available territory, from the mountainous areas of the Pyrenees to the coastal areas of the Mediterranean.In this context, the NE of the Iberian Peninsula is one of the areas where a major number of use-wear analyses have been carried out, especially for what concerns the Neolithic period. This is mainly due to the interest shown by the directors of the excavations and by the Spanish use-wear specialists as well; both participated and cooperated in order to enlarge the number of contexts studied, making the NE of the Iberian Peninsula one of the areas of Europe with the largest number of ‘functional studies’. As a result, today we have a reliable picture of the type of lithic tools used by the first farming groups, how they were used, and which needs they were satisfying.The methodology employed for this type of analysis is today broadly shared by most use-wear specialists. A stereoscopic microscope is used together with a reflected-light microscope for the analysis of the archaeological specimens. Afterwards, the observed use-wear traces are compared with the traces from experimental tools. This study primarily made use of the tools preserved at the ‘Traceoteque’ of the Institución Milà y Fontanals of the CSIC of Barcelona.This paper presents the results obtained for the different types of analysed sites and the relative lithic assemblages. In this way, tools from different contexts are compared: open-air sites, caves and rock-shelters, pit-sites, burials, and mining sites. Such a diversity of contexts allowed for the exploration of the existence of recurrences and differences in the functionality of the lithic tools from one site to another. The results obtained have also provided information on some aspects related to the economic processes carried out at the different sites, caves, rock-shelters and open-air contexts. It has been possible to gain fresh data on the types of tasks carried out and their relative importance for each site, their relation with the geographical and environmental context and the natural resources available there. In addition, analysing tools recovered from burials – mainly individual inhumations – provided information on the relationships between the buried individuals and the working tools, in particular exploring the relationships between sex and age patterns and the types of tools deposited as goods.In conclusion, use-wear analysis allowed for the exploration of a variety of issues; from technical aspects related to the production and management of the lithic resources to social aspects related to the subsistence activities and the individuals that carried them out." [O] . Gibaja Bao, Juan Francisco, Mazzucco, Niccolo 2015

机译：：“本文研究了伊比利亚半岛东北部几个新石器时代遗址的片状石材组合的功能。时间框架从公元前6世纪中叶到4世纪中叶，分别对应于早期和早期。新石器时代中期，这段时间的长短是从伊比利亚半岛的第一个农业社区到来，大约在公元前5600-5500 cal，到了两千年后的3600-3500 BCE，当时新石器时代的社区稳定地占据了大部分可用土地。从比利牛斯山脉山区到地中海沿岸地区。在这种情况下，伊比利亚半岛东北部是进行过大量使用磨损分析的地区之一，尤其是在关注方面新石器时代，这主要是由于发掘负责人和西班牙使用服装专家表现出的浓厚兴趣；他们参与和合作以扩大孔蒂的数量xts进行了研究，使伊比利亚半岛的NE成为“功能研究”数量最多的欧洲地区之一。结果，今天我们可以可靠地了解第一批耕作小组使用的石器工具的类型，使用方法以及它们满足的需求。今天，大多数使用方法广泛共享用于这种类型的分析的方法穿专家。立体显微镜与反射光显微镜一起用于分析考古样本。然后，将观察到的使用磨损痕迹与实验工具的痕迹进行比较。这项研究主要利用了巴塞罗那CSIC的米拉·丰塔纳尔研究所的“ Traceoteque”中保存的工具。本文介绍了针对不同类型的分析地点和相对石器组合所获得的结果。通过这种方式，可以比较来自不同环境的工具：露天场所，洞穴和岩石避难所，露天场所，埋葬场所和采矿场所。如此多样的上下文允许探索重复性的存在以及从一个站点到另一个站点的石器工具的功能差异。所获得的结果还提供了与在不同地点，洞穴，避难所和露天环境中进行的经济过程有关的某些方面的信息。可以获得有关所执行任务的类型及其对每个站点的相对重要性，它们与地理和环境环境以及那里可用自然资源的关系的新数据。此外，对从墓葬中回收的工具（主要是个人遗体）进行分析，可提供有关被掩埋的个体与工作工具之间关系的信息，尤其是探索性别与年龄模式之间的关系以及作为商品存放的工具的类型。磨损分析允许探索各种问题；从与石器资源的生产和管理有关的技术方面到与自给活动及其实施者有关的社会方面。”

Five-Step Parametric Prediction and Optimization Tool for Lunar Surface Systems Excavation Tasks

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