====== Jae's beverage container ======

I did two different approaches to build my model. 
In the first figurative approach (main work), I decided three different drivers and goals according to three different configurations. Then, I made a set of geometric parameters focused on how to draw three different shapes exactly in software.
In the second work, I focused on making parameters which could be combined to decide geometric elements, as the sample did. 

==== Description of design drivers / goals ====

  * **Goal for config. 1(Housewife in Egypt)** - In desert area, housewife need to store water for a long time after conveying water from somewhere once in a while. So, I set "long duration of storage" as a main goal and set "max in volume", "stable standing", "adjustable usage", and "stable grip for conveying as a sub goals.  
  * **Goal for config. 2(Bikers in Himalaya)** - In unpaved, rocky area, bikers need water beverage that does not break easily when falling, and is easily gripable and drinkable. Therefore, I set "easy to grasp", "easy to drink", and "sufficient capacity" as drivers and goals.    
  * **Goal for config. 3(Kids in Tokyo)** - In Tokyo where people are sensitive to character design (sth in japanese manga, comic books), kids need beverage container of interesting shape. So, I focus on "figurative shape" and "easiness in use" as main goals.

 


  



====Logic diagram ====

{{:name:diagram4.jpg|}}
{{:name:diagram5.jpg|}}
{{:name:diagram3.jpg|}}

==== CAD models ====

  *{{:name:assignment2b_jae.catpart|}}
  *{{:name:housewife_in_egyot_3d_.catpart|}}
  *{{:name:bikers_in_himalaya_3d_.catpart|}}
  *{{:name:kids_in_tokyo_3d_.catpart|}}

==== Parametric variations: Images ====

**First Approach**

{{:name:sample1.jpg|}}

**Second Approach**

{{:name:sample2.jpg|}}

==== Lessons learned ====
  *Strong point of parametric design
  *Importance of setting proper parameters