L.A.M.P: Lunar, Autonomous, Modular Platform: Difference between revisions

Latest revision as of 16:22, 1 August 2025

LAMP is the hands of the LUMIN control system. It is a highly modular robotic platform designed to enforce safety protocols, develop lunar infrastructure, and generally do what LUMIN requires. Through coordination with LUMIN, LAMPs in the field will work together to achieve tasks that would be extremely difficult or impossible for a single robot to accomplish.

For more information and visuals, watch the RobotMoose YouTube video about LAMP and Astra (A.K.A LAMP v1).

Overview

LAMP's modularity will allow it to serve a wide range of needs on the Moon. LAMP robots might:

Enforce general safety (like patrolling safety zone borders, decommissioning or disabling rogue agents, or developing and maintaining reliable infrastructure)
Collect data (for use in research, decision-making processes, and policy refinement)
Distribute resources (by hauling tools, materials, or power across the lunar surface)
Act as communication relays (before communication infrastructure is in place and during its development, or in especially remote locations)

LAMP's modularity allows it to complete a large variety of tasks. For example, materials transport may require a flatbed or dump bed, communications infrastructure development may need a specialized tool-head for trenching and a rear payload for spools of wire or tubing.

Previous LAMP candidates:

Excahauler (created before the LAMP concept)
LAMP v1 (A.K.A. Astra)

Design Philosophy

LAMP's design revolves around its versatility for ranges of tasks on the Moon. Specialized tools for LAMP should always be built as attachments that can be easily interchanged to maintain said versatility. Any permanent additions to the main frame should be carefully designed to function across multiple purposes.

To meet the demands of lunar infrastructure, LAMP must maintain simplicity without compromising its abilities in order to:

Keep manufacturing costs down.
Encourage simpler parts, which are ultimately easier to make durable and repair.
Encourage extension through the system's modularity.

@@ Line 1: / Line 1: @@
-<h1>L.A.M.P.</h1>
+LAMP is the hands of the [[LUMIN]] control system. It is a highly modular robotic platform designed to enforce safety protocols, develop lunar infrastructure, and generally do what [[LUMIN]] requires. Through coordination with [[LUMIN]], LAMPs in the field will work together to achieve tasks that would be extremely difficult or impossible for a single robot to accomplish.
-<h2>Lunar, Autonomous, Modular, Platform</h2>
+For more information and visuals, watch the [https://www.youtube.com/watch?v=GwJjh-E93ZA&ab_channel=RobotMoose RobotMoose YouTube video] about LAMP and [[LAMP v1|Astra]] (A.K.A LAMP v1).
-<h3>Intro</h3>
+== Overview ==
+LAMP's modularity will allow it to serve a wide range of needs on the Moon. LAMP robots might:
-<p>LAMP is the "hands" of the [[LUMIN]] control system. It is a modular robotic platform designed to be a general-purpose construction robot for the lunar environment. This first iteration is specifically designed to build lunar garages out of arches, which are then buried under lunar regolith to protect astronauts and their tools.</p>
+* Enforce general safety (like patrolling safety zone borders, decommissioning or disabling rogue agents, or developing and maintaining reliable infrastructure)
+* Collect data (for use in research, decision-making processes, and policy refinement)
+* Distribute resources (by hauling tools, materials, or power across the lunar surface)
+* Act as communication relays (before communication infrastructure is in place and during its development, or in especially remote locations)
-<p>The modularity of LAMP is critical to its ability to serve a wide range of needs on the Moon. From making haul runs between bases to laying cable for new construction, modularity is key. One task might simply require a flatbed for transporting materials, while another might need a specialized toolhead for trenching and a rear payload for spools of wire or tubing.</p>
+LAMP's modularity allows it to complete a large variety of tasks. For example, materials transport may require a flatbed or dump bed, communications infrastructure development may need a specialized tool-head for trenching and a rear payload for spools of wire or tubing.
-<h3>Design Philosophy</h3>
+=== Previous LAMP candidates: ===
+* [[Excahauler]] (created before the LAMP concept)
+* [[LAMP v1]] (A.K.A. Astra)
-<p>A critical aspect of the design process is ensuring that LAMP remains versatile for multiple tasks on the Moon. Any design choices should avoid being overly specific to one task. Specialized tools for LAMP should always be built as attachments that can be easily removed when not needed. Any additions to the main frame should be designed to serve multiple purposes.</p>
+== Design Philosophy ==
+<p>LAMP's design revolves around its versatility for ranges of tasks on the Moon. Specialized tools for LAMP should always be built as attachments that can be easily interchanged to maintain said versatility. Any permanent additions to the main frame should be carefully designed to function across multiple purposes.</p>
-<p>Another key aspect of building this platform is maintaining simplicity without compromising its ability to meet the demands of lunar infrastructure. This approach helps in several ways: (1) it keeps manufacturing costs down by simplifying the process, (2) simpler parts are easier to make durable, (3) re-using simpler parts across different areas of the robot becomes easier, and (4) by applying points 2 and 3, repairing the robot on the Moon becomes much simpler.</p>
+To meet the demands of lunar infrastructure, LAMP must maintain simplicity without compromising its abilities in order to:
+# Keep manufacturing costs down.
+# Encourage simpler parts, which are ultimately easier to make durable and repair.
+# Encourage extension through the system's modularity.__FORCETOC__