Project reflection: Difference between revisions

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== Introduction ==
== Introduction ==
As mentioned earlier about halfway through the project a paradigm shift occurred in which the goal of the project switched from designing a prototype to obtaining a more in depth knowledge about the dynamics and parameters of the reforestation process such that a recommendation for a robotic solution could be made in terms of a design. This page gives further details about the differences between the first and second phases of the project and as to why this was necessary as well as an identification of error in judgement which were made during the project such that they may help for future projects.  
As mentioned earlier about halfway through the project a paradigm shift occurred in which the goal of the project switched from designing a prototype to obtaining a more in depth knowledge about the dynamics and parameters of the reforestation process such that a recommendation for a robotic solution could be made in terms of a design. This page gives further details about the differences between the first and second phases of the project and as to why this was necessary as well as an identification of error in judgement which were made during the project such that they may help for future projects.  


The general information about the project can be found in [[PRE2017 4 Groep6]].
The general information about the project can be found in [[PRE2017 4 Groep6]].


== Old formulation of the project ==
== Old formulation of the project ==
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<sup>*</sup> The current division of task is a rough estimate for the next 7 weeks. New tasks may pop up or task division may be rotated, and is hence subject to change during the progress of the course.
<sup>*</sup> The current division of task is a rough estimate for the next 7 weeks. New tasks may pop up or task division may be rotated, and is hence subject to change during the progress of the course.


=== Old problem approach ===
=== Old problem approach ===
The problem will be approached by a design question. What is the best design for a robot to combat deforestation which will be build modular so that it can be implemented for other purposes with minor changes. The first 2 weeks the approach will primarily be sequential, as user analysis, use cases and requirements/preferences/constraints need to be done sequentially before the rest of the project can start. Once this is over, the project will run in a parallel fashion where building and modelling will happen simultaneously.  
The problem will be approached by a design question. What is the best design for a robot to combat deforestation which will be build modular so that it can be implemented for other purposes with minor changes. The first 2 weeks the approach will primarily be sequential, as user analysis, use cases and requirements/preferences/constraints need to be done sequentially before the rest of the project can start. Once this is over, the project will run in a parallel fashion where building and modelling will happen simultaneously.  


=== Old milestones & deliverables ===
=== Old milestones & deliverables ===
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== Differences between project phases ==
== Differences between project phases ==


== Reflection ==
== Reflection ==
Heel handig om te mentionen --> anchoring bias!
Heel handig om te mentionen --> anchoring bias!

Revision as of 12:10, 1 June 2018

Introduction

As mentioned earlier about halfway through the project a paradigm shift occurred in which the goal of the project switched from designing a prototype to obtaining a more in depth knowledge about the dynamics and parameters of the reforestation process such that a recommendation for a robotic solution could be made in terms of a design. This page gives further details about the differences between the first and second phases of the project and as to why this was necessary as well as an identification of error in judgement which were made during the project such that they may help for future projects.

The general information about the project can be found in PRE2017 4 Groep6.


Old formulation of the project

Old planning

Table 1: Preliminary planning for the project
Week number Task Person*
1
Choose definitive subject Collaborative effort of all members
Define problem statement and objectives David
Define users Adine
Obtain user requirements Gerben
Work out typical use cases Luc
Define the milestones and deliverables Maikel
Define the approach of the problem Collaborative effort of all members
Search for relevant state-of-the-art (SotA) sources, categories:
  1. Modularity
  2. (Semi-) Autonomous cars
  3. Sensors for prospecting/evaluating ground
  4. Drilling/plowing/seeding mechanism
  5. Current Forestation combat methods
All divided into the subcategories:
  1. Maikel
  2. David
  3. Luc
  4. Gerben
  5. Adine
Make project planning Collaborative effort of all members
2
Review user requirements and use cases Collaborative effort of all members
Finish collecting SotA articles and write SotA section Each member for their respective subcategory
Compile list of potential robot designs Collaborative effort of all members
Make some concept design sketches Maikel
Make a preliminary list of required parts Gerben
Define embedded software environment Luc
Preliminary elimination session for designs based on user requirements Adine
Start compiling list of design preferences/requirements/constraints David
3
Finish list of preferences/requirements/constraints Adine
Further eliminate designs due to constraints Collaborative effort of all members
Rank remaining designs and select a winner Collaborative effort of all members
Develop a building plan/schemata for the winner design Gerben, Luc
Start acquiring physical quantities for modelling design Maikel, David
Start with a simple model of some system parameters Maikel, David
4
Commence robot assembly according to highest priority of building schemata Gerben, David
Continue modelling/simulating Maikel
Start coding robot functionalities Luc
Catch up on documenting the wiki Adine
5
Continue robot assembly and coding Gerben, David, Luc
Continue modelling/simulating Maikel
Catch up on documenting the wiki Collaborative effort of all members
6
Continue robot assembly and coding Gerben, Luc
Test the first (few) finished sub-system(s) of the robot. Collaborative effort of all members
Finish modelling/simulating Maikel, David
Finish catching up on documenting the wiki Collaborative effort of all members
7
Finish robot assembly Gerben
Make concept designs for possible modules Luc
Make a draft for final presentation Maikel, David, Adine
Test the first (few) finished sub-system(s) of the robot. Collaborative effort of all members
8
Buffer time Collaborative effort of all members
Finish final presentation Maikel, David, Adine
Complete wiki Gerben, Luc

* The current division of task is a rough estimate for the next 7 weeks. New tasks may pop up or task division may be rotated, and is hence subject to change during the progress of the course.


Old problem approach

The problem will be approached by a design question. What is the best design for a robot to combat deforestation which will be build modular so that it can be implemented for other purposes with minor changes. The first 2 weeks the approach will primarily be sequential, as user analysis, use cases and requirements/preferences/constraints need to be done sequentially before the rest of the project can start. Once this is over, the project will run in a parallel fashion where building and modelling will happen simultaneously.


Old milestones & deliverables

Table 2: Milestones
Date Accomplished
30-04-2018 SotA research done
03-05-2018 User analysis/use cases done
07-05-2018 Have a partially eliminated list of designs
10-05-2018 Pick final “winner” design
21-05-2018 Have the first working subsystem
25-05-2018 Finish modelling
31-05-2018 Have an operational prototype running
with at least 2 subsystems
07-06-2018 Made several concepts for modules
11-06-2018 Presentation is finished
14-06-2018 Wiki is completely updated


Differences between project phases

Reflection

Heel handig om te mentionen --> anchoring bias!