LAMP v1: Difference between revisions

From Aurora Robotics
Created page with "<h1>LAMP v1 (Astra)</h1> <p><strong>LAMP v1, also known as Astra</strong>, is the first version of the LAMP (Lunar, Autonomous, Modular, Platform) mining robot. Astra was developed and rigorously tested in the <strong>LUMINSim</strong> environment to assess its capabilities in mining, mobility, and transport on the lunar surface. Although intended to serve as the primary LAMP robot, Astra's design flaws revealed during testing have led to the development of a new ve..."
 
Simplified reference to Excahauler
 
(3 intermediate revisions by 2 users not shown)
Line 1: Line 1:
<h1>LAMP v1 (Astra)</h1>
<h1>LAMP v1 (Astra)</h1>
 
[[File:Astra Digging.png|alt=Astra in LUMINSim, digging on a hill.|thumb|Astra in LUMINSim, digging on a hill.]]
<p><strong>LAMP v1, also known as Astra</strong>, is the first version of the LAMP (Lunar, Autonomous, Modular, Platform) mining robot. Astra was developed and rigorously tested in the <strong>[[LUMINSim]]</strong> environment to assess its capabilities in mining, mobility, and transport on the lunar surface. Although intended to serve as the primary LAMP robot, Astra's design flaws revealed during testing have led to the development of a new version.</p>
<p><strong>LAMP v1, also known as Astra</strong>, is the first version of the [[L.A.M.P: Lunar, Autonomous, Modular Platform|LAMP (Lunar, Autonomous, Modular, Platform)]] mining robot. Astra was developed and rigorously tested in the <strong>[[LUMINSim]]</strong> environment to assess its capabilities in mining, mobility, and transport on the lunar surface. Although intended to serve as the primary LAMP robot, Astra's design flaws revealed during testing have led to the development of a new version.</p>


<h2>Design Overview</h2>
<h2>Design Overview</h2>


<p>Astra features a single arm equipped with a modular tool coupler, allowing it to switch between various attachments. Unlike other mining robots such as the <strong>[[Excahauler]]</strong>, Astra does not have a pre-attached bucket; instead, it relies on its modular design for different excavation tasks. The tool coupler on Astra also has tilt functionality, providing greater versatility in handling a range of tools during mining operations.</p>
<p>Astra features a single arm equipped with a modular tool coupler, allowing it to switch between various attachments. Unlike <strong>[[Excahauler]]</strong>, Astra does not have a pre-attached bucket; instead, it relies on its modular design for different excavation tasks. The tool coupler on Astra also has tilt functionality, providing greater versatility in handling a range of tools during mining operations.</p>


<h2>Key Components</h2>
<h2>Key Components</h2>
Line 12: Line 12:
   <li><strong>Arm and Tool Coupler:</strong> Astra’s arm is designed for multi-purpose use, with a tool coupler that allows quick switching between attachments. The coupler's tilt functionality provides added flexibility during excavation and material handling.</li>
   <li><strong>Arm and Tool Coupler:</strong> Astra’s arm is designed for multi-purpose use, with a tool coupler that allows quick switching between attachments. The coupler's tilt functionality provides added flexibility during excavation and material handling.</li>
   <li><strong>Mobility:</strong> Astra's mobility system was designed to navigate lunar terrain, with emphasis on transporting materials and tools across various conditions.</li>
   <li><strong>Mobility:</strong> Astra's mobility system was designed to navigate lunar terrain, with emphasis on transporting materials and tools across various conditions.</li>
   <li><strong>Modular Bed Interface:</strong> The robot features a modular robot bed interface instead of a built-in hopper, allowing it to be adapted for different tasks by attaching various payloads.</li>
   <li><strong>Semi-Modular Bed Interface:</strong> The robot features bolt on and off rear payload, currently equipped with a hopper for hauling lunar regolith.</li>
</ul>
</ul>


Line 21: Line 21:
<ul>
<ul>
   <li>The arm's hinge point was positioned too far forward, causing the robot to tip over easily, especially during lifting operations.</li>
   <li>The arm's hinge point was positioned too far forward, causing the robot to tip over easily, especially during lifting operations.</li>
   <li>The original built-in hopper design was deemed inefficient, leading to the adoption of the modular bed interface for greater adaptability.</li>
   <li>The original built-in hopper design was deemed inefficient, leading to the adoption of a modular bed interface for greater adaptability.</li>
</ul>
</ul>



Latest revision as of 11:54, 16 September 2024

LAMP v1 (Astra)

Astra in LUMINSim, digging on a hill.
Astra in LUMINSim, digging on a hill.

LAMP v1, also known as Astra, is the first version of the LAMP (Lunar, Autonomous, Modular, Platform) mining robot. Astra was developed and rigorously tested in the LUMINSim environment to assess its capabilities in mining, mobility, and transport on the lunar surface. Although intended to serve as the primary LAMP robot, Astra's design flaws revealed during testing have led to the development of a new version.

Design Overview

Astra features a single arm equipped with a modular tool coupler, allowing it to switch between various attachments. Unlike Excahauler, Astra does not have a pre-attached bucket; instead, it relies on its modular design for different excavation tasks. The tool coupler on Astra also has tilt functionality, providing greater versatility in handling a range of tools during mining operations.

Key Components

  • Arm and Tool Coupler: Astra’s arm is designed for multi-purpose use, with a tool coupler that allows quick switching between attachments. The coupler's tilt functionality provides added flexibility during excavation and material handling.
  • Mobility: Astra's mobility system was designed to navigate lunar terrain, with emphasis on transporting materials and tools across various conditions.
  • Semi-Modular Bed Interface: The robot features bolt on and off rear payload, currently equipped with a hopper for hauling lunar regolith.

Design Flaws and Testing

During its development and testing in LUMINSim, several design flaws in Astra were identified:

  • The arm's hinge point was positioned too far forward, causing the robot to tip over easily, especially during lifting operations.
  • The original built-in hopper design was deemed inefficient, leading to the adoption of a modular bed interface for greater adaptability.

These flaws, along with other mobility and mining challenges, were observed during LUMINSim testing. These insights have been instrumental in guiding the design improvements for the next version of LAMP, which aims to address Astra's limitations.

Legacy and Future Development

Astra's development laid the groundwork for the modular approach and tool versatility that define the LAMP project. While Astra itself will not be used in future missions due to its design flaws, its testing in LUMINSim has provided valuable lessons that are shaping the next iteration of LAMP.

Related Projects

  • LUMINSim - The simulation environment where Astra was developed and tested, revealing the design flaws that are being addressed in future versions.
  • LAMP - The overarching project aimed at creating a versatile lunar mining and construction robot, with Astra serving as the initial prototype.
  • Excahauler - Another mining robot project with different design characteristics, such as a pre-attached bucket, compared to Astra's modular tool coupler.

For more information or to contribute to the development of the LAMP project, visit the team's GitHub page.