Tuesday, February 25, 2014

FlowLines - Another Failed Attempt

We tried again...



And again...


and again...



and one last time, before we gave up.






Monday, February 10, 2014

Project 02_Flow Lines

Tyler Smith, Chris Makoweicki, Robyn Wolochow, Ric Fuley
Project 02_Flow Lines
02.10.14
base surface

the all important supermatter tools toolpath selection diagram...

the pen fitted to Mighty

teaching the tool

locating the surface corner points


drawing




VIDEO TO COME







Monday, February 3, 2014

Tyler Smith - Towards a Bespoke Building Process

Reading Response 02 _towards a bespoke building process
Tyler Smith
02.03.14


     The mobile robotic fabrication unit, R-O-B, argues for a new process of construction. One which forgoes traditional, simple task and standardization driven means of robotic integration in construction, and instead embraces the inherent flexibility of industrial robots. By utilizing the potential for flexible, adaptive techniques with robots, designers can create a resource which can be deployed onsite for a variety of design solutions. Rather than deploy robots to complete on task, designers and architects are beginning to utilize the technology as a way to solve problems unique to individual projects and create designs which would not be possible without the robotic equipment.
      By embracing the flexibility of robots, designers can take control of the material, assembly, and process of fabrication. Rather than relying on traditional fabrication techniques with one end goal, like laser cutters or CNC milling machines, which have a distinct material and sought outcome, designers can use robots to customize a unique and specialized fabrication process that fits a unique design.

Chris Makowiecki- Towards a Bespoke Building Process

        In recent years, the power of robotic fabrication in the architectural field has become increasingly tangible.  In an age when the architect is seeking more control of the design process, robotic fabrication is providing a prefabrication quality controlled environment merged with on-site production.  Initially, robots were imagined as means of replacing physical labor in the manufacturing field.  Providing a more cost effective manufacturing process and letting the machines do the more trying work.  Robots were later conceived to perform more specialized tasks that began to reveal the potential they possessed and the opportunities the robot provided the designer.  The recent increase in applying robotic fabrication to the design field can be relayed to the increasing availability of the technology.  Cost has decreased and the technology has become more user-friendly.  As a result, more designers have been applying the technology to their work.  Robotic fabrication not only provides the designer digital control over their work but also an expanded option for physical intervention.  The architect is allowed to take his conceptual intentions and engineer a fabricated product.  With R-O-B, this potential for designers is being packaged up into a transportable container allowing the designer a tool to work raw materials on site.  As robotic fabrication continues to become an integrated part of the design field, it will be on the designer to gain an understanding of the technology to best use it in their work.  As that understanding grows, so will the possibilities of robotic fabrication in design.  

Project 02_Flow Lines Surface

RoboFab Project 02_Flow Lines Surfaces

Ric Foley, Chris Makowiecki, Tyler Smith, Robyn Wolochow


                                            Super Matter Tools animation_iteration 01



                                    surface pre-wax



                                     Walter Whiting

                                             wax snot

                                     waxing



Sunday, February 2, 2014

Robyn Wolochow - Towards a Bespoke Building Process

Reading Response: Week 2

Robots were originally conceived of as being able to quickly do precise tasks and allow for maximum flexibility. However as the use and abilities of robots have grown, particularly in the automotive and manufacturing industries, the use of robots has instead shifted towards repetitive, standardized, and consistent tasks.

What is exciting about the new applications of robotic fabrication into the realms of architecture is the re-imagination of the use of robots for unique, experimental, and specialized operations. As is discussed in "Towards a Bespoke Building Process," robotic fabrication offers new possibilities in material studies, and assembly techniques, and "continues and extends the tradition of constructive thinking in architecture." Instead of using robots as they were used in the mid-twentieth century to focus on efficiency, and economic value through the replacement of human labour, we instead should think of robots as tools with which we can accomplish things that can be done no other way.

What the article discusses, and what I find to be one of the most exciting elements of digital/robotic fabrication as it applies to architecture is the ability for designers to play a larger role, and exercise increased control, in the manufacturing and construction process.