2024Msc3-4LAI: Difference between revisions

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=='''MSc 3-4 LUNAR ARCHITECTURE & INFRASTRUCTURE'''==
=='''INTERFACULTY GRADUATION: LUNAR ARCHITECTURE & INFRASTRUCTURE'''==
[[File:Moonshot3.jpg | 850px]]<br><br>
[[File:Moonshot3.jpg | 850px]]<br><br>


Mirroring the interdisciplinary nature of space colonization projects where engineers, architects, roboticists, and space scientists work together to achieve common goals, the new interfaculty course, Lunar Architecture and Infrastructure (LA&I) is designedto foster collaboration and shared objectives among students from various faculties. It is open to all TU Delft students and addresses challenges of space colonization.  
Mirroring the interdisciplinary nature of space colonization projects where engineers, architects, roboticists, and space scientists work together to achieve common goals, the new interfaculty course, Lunar Architecture and Infrastructure (LA&I) is designed to foster collaboration and shared objectives among students from various faculties. It is open to all TU Delft students and addresses challenges of space colonization.  


To survive in outer space, humans need protection from radiation. Such protection requires architecture and infrastructure to ensure habitation and accommodate various activities ranging from living to working while relying heavily on In-situ Resource Utilization (ISRU) and a high degree of automation. Lunar architecture and infrastructure are designed by computational means and are constructed by robotic means involving Robot-Robot and Human-Robot Interaction (R/ HRI) supportedDesign-to-Robotic-Production-Assembly and -Operation (D2RPA&O). The construction relies on a swarm of mobile robots equipped with various end-effectors that are deployed to map the terrain and mine for materials used to 3D print building components. These are then assembled using R/ HRI-supported methods. The assembled structure is equipped with a Life Support System (LLS), which relies on D2RO methods. Both habitat construction and inhabitation are powered by an energy system space-based solar power. The ultimate goal is to develop an autarkic R/ HRI-supported D2RPA&O system employing ISRU for building and operating habitats and to transfer developed technology to terrestrial applications in due time.  
To survive in outer space, humans need protection from radiation. Such protection requires architecture and infrastructure to ensure habitation and accommodate various activities ranging from living to working while relying heavily on In-situ Resource Utilization (ISRU) and a high degree of automation.  


The themes from Aerospace Engineering (AE), Civil Engineering and Geoscience (CEG), and Electrical Engineering, Mathematics and Computer Science (EEMCS)  are summarized in the [http://www.roboticbuilding.eu/wp-content/uploads/2024/04/Fall-2024-LAI-Poster-Leaflet-ABE.pdf ABE], [http://www.roboticbuilding.eu/wp-content/uploads/2024/04/Fall-2024-LAI-Poster-Leaflet-A-E.pdf AE], [http://www.roboticbuilding.eu/wp-content/uploads/2024/04/Fall-2024-LAI-Poster-Leaflet-CEG.pdf CEG], and [http://www.roboticbuilding.eu/wp-content/uploads/2024/04/Fall-2024-LAI-Poster-Leaflet-CEG.pdf EEMCS] posters. Additional information is available in the course brief.
The themes from Aerospace Engineering (AE), Civil Engineering and Geoscience (CEG), and Electrical Engineering, Mathematics and Computer Science (EEMCS)  are summarized in the [http://www.roboticbuilding.eu/wp-content/uploads/2024/04/Fall-2024-LAI-Poster-Leaflet-ABE.pdf ABE], [http://www.roboticbuilding.eu/wp-content/uploads/2024/04/Fall-2024-LAI-Poster-Leaflet-A-E.pdf AE], [http://www.roboticbuilding.eu/wp-content/uploads/2024/04/Fall-2024-LAI-Poster-Leaflet-CEG.pdf CEG], and [http://www.roboticbuilding.eu/wp-content/uploads/2024/04/Fall-2024-LAI-Poster-Leaflet-EEM.pdf EEMCS] posters. Additional information is available in the course brief.
<br><br>
 
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Course brief: https://docs.google.com/document/d/1lMTP4VkGaMt3LC8QoMnk7eOucjX2QO4vT0mnZjjXHBw/edit
Course brief: https://docs.google.com/document/d/1lMTP4VkGaMt3LC8QoMnk7eOucjX2QO4vT0mnZjjXHBw/edit
<br>
<br>
Course schedule: https://docs.google.com/spreadsheets/d/1I50YBblbCyktGv6ZfUP6Mbsg6Srr-idP9S9JxFOekXw/edit?gid=0#gid=0
<br>
Logbook lava tube mapping: https://docs.google.com/document/d/19blH4ntxKKKgeqUAtcFrHr6BRlm6CGMXhIXU-w2_Xk4/edit?usp=sharing
<br>
<br>
----
=='''TUTORIALS'''==
CV for terrain mapping: https://drive.google.com/file/d/1w30kUVbcGAPP42MiXRTDrb1RXZ--pCSJ/view
<br>
Functional distribution: https://drive.google.com/file/d/1PSHX4wPpugNyhZmvrUqbiY4c7w1f9Khf/view
<br>
<br>
----
=='''ACTIVITIES'''==
Workshop RB: Design-to-Robotic-Production (13-20 Sept.)
<br>
Symposium DSI: Moonshot & Off-Earth Environments (19.Sept.): http://www.roboticbuilding.eu/2024/08/21/moonshot_symposium/
<br>
Lava tube mission (18-22 Nov.): Robotic Terrain Mapping http://www.roboticbuilding.eu/project/robotic-terrain-mapping/
<br>
<br>
=='''TUTORS'''==
Midterm review (7 Nov.)
Henriette Bier and Arwin Hidding (RB lab)  
<br>
Luka Peternel and Micah Prendergast (CoR lab)
Workshop CoR: HRI-supported assembly (11-15 Nov.)
<br>
Final review (30 Jan.)
<br>
<br>
<br>
<br>
----
----
=='''COORDINATORS/ TUTORS'''==
Coordinator: Henriette Bier (ABE)
<br>
Tutors: Raj Rajan, Prem Sundaramoorthy, Chris Verhoeven, Fabio Sebastiano, and Seyran Khademi (EEMCS); Henriette Bier, Ferry Adema, Arwin Hidding, and Vera Laszlo (ABE); Luka Peternel and Micah Prendergast (ME; Robin Oval and Mariana Popescu (CEG); Alessandra Menicucci, Angelo Cervone, and Reza Sabzevari (AE).
<br>
<br>
----
=='''STUDENTS'''==
'''[[project01:Main|Jonathan Jonathan]]'''
<br>'''[[project02:Main|Regina Regina Tania Tan]]'''
<br>'''[[project03:Main|Sophia Benfield]]'''
<br>'''[[project04:Main|Walter Chung]]'''
<br>'''[[project05:Main|Alexander James Becoy]]'''
<br>'''[[project06:Main|Radha Dinesh Dave]]'''
<br>'''[[project07:Main|Alessandro Bategazzore]]'''
<br>'''[[project08:Main|Nick Felten]]'''
<br>
<br>
----
=='''REFERENCES'''==
Rhizome 1: http://cpa.roboticbuilding.eu/index.php?title=Rhizome1
<br>
Rhizome 2: http://cpa.roboticbuilding.eu/index.php?title=Rhizome2 and http://cs.roboticbuilding.eu/index.php/Shared:2023W4G4Design
<br>
Space Architecture 23: http://cs.roboticbuilding.eu/index.php/Shared:2023W4G4Design
<br>
Space Architecture 24: http://cpa.roboticbuilding.eu/index.php?title=Shared:WS2024MSc2SAG3Presentations
<br>
RB studies: http://100ybp.roboticbuilding.eu/index.php/project01:Main, http://100ybp.roboticbuilding.eu/index.php/project01:P1, http://100ybp.roboticbuilding.eu/index.php/project01:P2, http://100ybp.roboticbuilding.eu/index.php/project01:P2context, and http://100ybp.roboticbuilding.eu/index.php/project01:P3
<br>
ESA: https://www.esa.int/ESA_Multimedia/Images/2021/01/OSIP_December_2020_ideas_Off-Earth_Manufacturing_and_Construction_Campaign (construction),
https://blogs.esa.int/exploration/take-refuge-in-a-cave-on-the-moon/ (lava tubes), https://www.theregister.com/2021/02/26/esa_moon_rovers/?fbclid=IwAR0XOu3jJBF962t8dFZnxkT9jh-EX_iYz8gUIDYZWT5nKaAGx3cH2zNNAOw (rovers in lava tubes),
https://www.esa.int/Science_Exploration/Human_and_Robotic_Exploration/Exploration/European_Large_Logistics_Lander (logistic lander), https://www.esa.int/Enabling_Support/Preparing_for_the_Future/Discovery_and_Preparation/ESA_plans_mission_to_explore_lunar_caves (caves), and https://www.esa.int/Science_Exploration/Human_and_Robotic_Exploration/CAVES_and_Pangaea (exploration)
<br>
NASA: https://www.nasa.gov/prizes-challenges-and-crowdsourcing/centennial-challenges/3d-printed-habitat-challenge/
<br>
Lava tubes and scanning: https://www.sciencedirect.com/science/article/abs/pii/S0012825220303342 (lava tubes size and morphology)
https://www.sciencedirect.com/science/article/pii/S0019103521003171?via%3Dihub (lava tubes shield from radiation)
https://www.sciencedirect.com/science/article/pii/S1674775517301622 (scanning)
<br>
Robots and 3D printing:
https://cjme.springeropen.com/articles/10.1186/s10033-018-0267-9 (cable robots)
https://ieeexplore.ieee.org/document/8376287 (cable robots)
https://www.archdaily.com/966349/big-nasa-and-icon-reveal-3d-printed-research-habitats-for-mars (3D printing)
<br>
HRI: Loopik, H., & Peternel, L. (2021). A Multi-Modal Control Method for a Collaborative Human-Robot Building Task in Off-Earth Habitat Construction. Workshop on Design, Learning, and Control for Safe Human-Robot Collaboration (ICAR 2021).
<br>
<br>
----
=='''TEMPLATES'''==
Report:
<br>https://docs.google.com/document/d/1fNNps7UfgIfoOH8G0ar-5Bzz26-up8Y4/edit
<br><br>
Video & instructions:
<br>https://drive.google.com/file/d/1eb58-dR2yR7Ulc5dQq765uEKmdqVlVhV/view
<br> - In the zip file, check the file named 'AI_Msc2_Video Template. prproj' file, other files are just reference images and videos used for the template.
<br> - Replace the movies to keep the current effects on the video.
<br> -  You will see the following titles on the template: '3D Printing', 'Design', 'Node', and 'Robotic Arm': These are just the sections in the template. You can also reach those sections by double-clicking from the general video section, which is 'Movie 1'
<br> - If you do not have the font used on the video on your laptop, upload those to your laptop/computer: settings > control panel > fonts. You(at least Windows users) can copy-paste the font to the 'fonts folder' on your laptop.
<br><br>
Archive:
<br>https://drive.google.com/file/d/1MsjV7GPDhpol1BUl02_tLhqz6iUiKADP/view
<br><br>
-----

Revision as of 08:17, 21 November 2024

INTERFACULTY GRADUATION: LUNAR ARCHITECTURE & INFRASTRUCTURE



Mirroring the interdisciplinary nature of space colonization projects where engineers, architects, roboticists, and space scientists work together to achieve common goals, the new interfaculty course, Lunar Architecture and Infrastructure (LA&I) is designed to foster collaboration and shared objectives among students from various faculties. It is open to all TU Delft students and addresses challenges of space colonization.

To survive in outer space, humans need protection from radiation. Such protection requires architecture and infrastructure to ensure habitation and accommodate various activities ranging from living to working while relying heavily on In-situ Resource Utilization (ISRU) and a high degree of automation.

The themes from Aerospace Engineering (AE), Civil Engineering and Geoscience (CEG), and Electrical Engineering, Mathematics and Computer Science (EEMCS) are summarized in the ABE, AE, CEG, and EEMCS posters. Additional information is available in the course brief.



DOCUMENTS

Course brief: https://docs.google.com/document/d/1lMTP4VkGaMt3LC8QoMnk7eOucjX2QO4vT0mnZjjXHBw/edit
Course schedule: https://docs.google.com/spreadsheets/d/1I50YBblbCyktGv6ZfUP6Mbsg6Srr-idP9S9JxFOekXw/edit?gid=0#gid=0
Logbook lava tube mapping: https://docs.google.com/document/d/19blH4ntxKKKgeqUAtcFrHr6BRlm6CGMXhIXU-w2_Xk4/edit?usp=sharing


TUTORIALS

CV for terrain mapping: https://drive.google.com/file/d/1w30kUVbcGAPP42MiXRTDrb1RXZ--pCSJ/view
Functional distribution: https://drive.google.com/file/d/1PSHX4wPpugNyhZmvrUqbiY4c7w1f9Khf/view


ACTIVITIES

Workshop RB: Design-to-Robotic-Production (13-20 Sept.)
Symposium DSI: Moonshot & Off-Earth Environments (19.Sept.): http://www.roboticbuilding.eu/2024/08/21/moonshot_symposium/
Lava tube mission (18-22 Nov.): Robotic Terrain Mapping http://www.roboticbuilding.eu/project/robotic-terrain-mapping/
Midterm review (7 Nov.)
Workshop CoR: HRI-supported assembly (11-15 Nov.)
Final review (30 Jan.)


COORDINATORS/ TUTORS

Coordinator: Henriette Bier (ABE)
Tutors: Raj Rajan, Prem Sundaramoorthy, Chris Verhoeven, Fabio Sebastiano, and Seyran Khademi (EEMCS); Henriette Bier, Ferry Adema, Arwin Hidding, and Vera Laszlo (ABE); Luka Peternel and Micah Prendergast (ME; Robin Oval and Mariana Popescu (CEG); Alessandra Menicucci, Angelo Cervone, and Reza Sabzevari (AE).


STUDENTS

Jonathan Jonathan
Regina Regina Tania Tan
Sophia Benfield
Walter Chung
Alexander James Becoy
Radha Dinesh Dave
Alessandro Bategazzore
Nick Felten


REFERENCES

Rhizome 1: http://cpa.roboticbuilding.eu/index.php?title=Rhizome1
Rhizome 2: http://cpa.roboticbuilding.eu/index.php?title=Rhizome2 and http://cs.roboticbuilding.eu/index.php/Shared:2023W4G4Design
Space Architecture 23: http://cs.roboticbuilding.eu/index.php/Shared:2023W4G4Design
Space Architecture 24: http://cpa.roboticbuilding.eu/index.php?title=Shared:WS2024MSc2SAG3Presentations
RB studies: http://100ybp.roboticbuilding.eu/index.php/project01:Main, http://100ybp.roboticbuilding.eu/index.php/project01:P1, http://100ybp.roboticbuilding.eu/index.php/project01:P2, http://100ybp.roboticbuilding.eu/index.php/project01:P2context, and http://100ybp.roboticbuilding.eu/index.php/project01:P3
ESA: https://www.esa.int/ESA_Multimedia/Images/2021/01/OSIP_December_2020_ideas_Off-Earth_Manufacturing_and_Construction_Campaign (construction), https://blogs.esa.int/exploration/take-refuge-in-a-cave-on-the-moon/ (lava tubes), https://www.theregister.com/2021/02/26/esa_moon_rovers/?fbclid=IwAR0XOu3jJBF962t8dFZnxkT9jh-EX_iYz8gUIDYZWT5nKaAGx3cH2zNNAOw (rovers in lava tubes), https://www.esa.int/Science_Exploration/Human_and_Robotic_Exploration/Exploration/European_Large_Logistics_Lander (logistic lander), https://www.esa.int/Enabling_Support/Preparing_for_the_Future/Discovery_and_Preparation/ESA_plans_mission_to_explore_lunar_caves (caves), and https://www.esa.int/Science_Exploration/Human_and_Robotic_Exploration/CAVES_and_Pangaea (exploration)
NASA: https://www.nasa.gov/prizes-challenges-and-crowdsourcing/centennial-challenges/3d-printed-habitat-challenge/
Lava tubes and scanning: https://www.sciencedirect.com/science/article/abs/pii/S0012825220303342 (lava tubes size and morphology) https://www.sciencedirect.com/science/article/pii/S0019103521003171?via%3Dihub (lava tubes shield from radiation) https://www.sciencedirect.com/science/article/pii/S1674775517301622 (scanning)
Robots and 3D printing: https://cjme.springeropen.com/articles/10.1186/s10033-018-0267-9 (cable robots) https://ieeexplore.ieee.org/document/8376287 (cable robots) https://www.archdaily.com/966349/big-nasa-and-icon-reveal-3d-printed-research-habitats-for-mars (3D printing)
HRI: Loopik, H., & Peternel, L. (2021). A Multi-Modal Control Method for a Collaborative Human-Robot Building Task in Off-Earth Habitat Construction. Workshop on Design, Learning, and Control for Safe Human-Robot Collaboration (ICAR 2021).


TEMPLATES

Report:
https://docs.google.com/document/d/1fNNps7UfgIfoOH8G0ar-5Bzz26-up8Y4/edit

Video & instructions:
https://drive.google.com/file/d/1eb58-dR2yR7Ulc5dQq765uEKmdqVlVhV/view
- In the zip file, check the file named 'AI_Msc2_Video Template. prproj' file, other files are just reference images and videos used for the template.
- Replace the movies to keep the current effects on the video.
- You will see the following titles on the template: '3D Printing', 'Design', 'Node', and 'Robotic Arm': These are just the sections in the template. You can also reach those sections by double-clicking from the general video section, which is 'Movie 1'
- If you do not have the font used on the video on your laptop, upload those to your laptop/computer: settings > control panel > fonts. You(at least Windows users) can copy-paste the font to the 'fonts folder' on your laptop.

Archive:
https://drive.google.com/file/d/1MsjV7GPDhpol1BUl02_tLhqz6iUiKADP/view