PRE2020 4 Group5: Difference between revisions
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(still to be edited) | (still to be edited) | ||
Week 1: | |||
*Project Decision | |||
*Project Plan | |||
*Research (25 papers - 5 P.P.) | |||
Week 2: | |||
Before Meeting 1: | |||
*Research (5 P.P.) | |||
*Complete USEr research | |||
After Meeting 1: | |||
*List of topics for WIKI | |||
*RPC List | |||
*Start looking into design solutions | |||
*Specify Deliverable | |||
week 3: | |||
*Research | |||
*Prototype/deliverable development of idea | |||
*Update project plan for prototype/deliverable | |||
Week 4: | |||
*Additional research (if necissary) | |||
*Begin developping prototype | |||
*Addapt WIKI page with new information | |||
Week 5: | |||
*Run primary test on prototype | |||
*Fix any issues with prototype and further develop it | |||
*Addapt WIKI | |||
Week 6: | |||
*Complete Prototype | |||
*Test Prototype deliverable | |||
Week 7: | |||
*Final testing of deliverable | |||
*Fill in missing information from WIKI | |||
Week 8: | |||
*Prsentation | |||
*Finalize WIKI | |||
-------------------------------------------- | |||
*Create Milestones | *Create Milestones | ||
| Line 142: | Line 197: | ||
==Logbook and Structure:== | ==Logbook and Structure:== | ||
(Add logbook as hyperlink) | |||
=Research:= | =Research:= | ||
Revision as of 10:40, 26 April 2021
Team:
| Members | Student ID | Faculty | |
|---|---|---|---|
| Ive Harzing | 1325094 | AP | i.harzing@student.tue.nl |
| Tim Kolen | 1311506 | AP | t.kolen@student.tue.nl |
| Peter Duel | 1236313 | ME | p.m.duel@student.tue.nl |
| Quentin Missinne | 1435957 | ME | q.missinne@student.tue.nl |
| Johan van Tien | 1455788 | ME | f.j.m.v.tien@student.tue.nl |
Topic:
USEr's:
(TBD)
USE:
(to be edited)
User: Space agencies (NASA, ESA, JAXA, Roscosmos) astro-biologists
Society:
(To be edited) Society: Satisfying our curiosity primarily: scientists Long term: Everyone
Enterprise:
(to be edited) Enterprise: Space agencies Governmental: NASA, ESA, JAXA, Roscosmos) Commercial: SpaceX, Blue Origin
astrophysicists
Project Plan:
Milestones:
(still to be edited)
Week 1:
- Project Decision
- Project Plan
- Research (25 papers - 5 P.P.)
Week 2:
Before Meeting 1:
- Research (5 P.P.)
- Complete USEr research
After Meeting 1:
- List of topics for WIKI
- RPC List
- Start looking into design solutions
- Specify Deliverable
week 3:
- Research
- Prototype/deliverable development of idea
- Update project plan for prototype/deliverable
Week 4:
- Additional research (if necissary)
- Begin developping prototype
- Addapt WIKI page with new information
Week 5:
- Run primary test on prototype
- Fix any issues with prototype and further develop it
- Addapt WIKI
Week 6:
- Complete Prototype
- Test Prototype deliverable
Week 7:
- Final testing of deliverable
- Fill in missing information from WIKI
Week 8:
- Prsentation
- Finalize WIKI
- Create Milestones
- Develop plan around these milestones
- Research:
- Research previous/planned missions to Titan
- Voyager 1&2
- Cassini-Huygens 1997-2005
- Dragonfly 2027-2034
- How we plan on getting the tech into orbit of titan (or landing on titan)
- General space and orbital research
- Potential scanner types:
- For Land rover:
- Thermal sensors
- GPR system (ground penetrating radar)
- For satellite:
- simple scanning software (to map surface and activity)
- How thoroughly programmed the system will be.
- How much of this can be realised and hand in
- potential deliverable programs/software
- what would be used to create software.
- Conditions of life
- Deliverable:
- For technical (physical rover):
- RC cars of sorts hooked up with sensors which we can show the use of certain sensors for life detection (thermal and radiation sensors).
- Program/software:
- Show the program code and its effect on a simple arduino most notably:
- goal based decision making
- self learning system
- mapping software
- (Possible combination of both)
- Final Video:
- No further addition to this general goal as it is simply a presentation of what we have achieved.
- Make working camera mount with live feedback
- Reach xx% effectiveness in recognizing points of interest
- (Rover) Make virtual environment in which the set up can be tested (looking for patterns in a dynamic space)
- Subgoal: make database of all kind of surfaces found on Titan
- Subgoal: determine physics on the surface of Titan and how that impacts the movement of the rover.
- (Satellite) Determine ideal orbit (and adjustment propulsion) for the system
- Think of ideal camera resolution, geostatic orbit (is that possible for moons?)
- Design system to fit in a standard rocket (pretty high goal I know, but might be a fun thing to look into)
- decide on either a rover or a satellite
- For rover:
- Investigated all kinds of surfaces that are on Titan
- Rover is able to travel across the surface that has been chosen to be investigated
- a drill has been designed to obtain underground samples
- an energy source that last longer than the calculated mission length has been chosen (RTG for instance)
- the rover design fits into the rocket that will transport the rover to Titan
- the rover can be located from earth
- the rover is able to communicate with earth at certain defined intervals
- For satellite:
- The satellite can get and stay into orbit
- The satellite is able to establish its distance from the surface of Titan
- The satellite is able to obtain video in a resolution high enough to resolve objects that are 1 m long (min length can be adjusted)
- the satellite is able to obtain a heat profile of Titan in high resolution
- the satellite is able to communicate with earth at certain defined intervals
- looking for specific things of ‘life’ instead of thoroughly searching
- For the rover, material study has to be done
- Simulation with the program
- Communication with planet earth - all the time or only when necessary
Logbook and Structure:
(Add logbook as hyperlink)