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RAM | Real Additive Manufacturing | Conference 2015 |FRIDAY 23rd OCTOBER | 09:00 HRS

On Friday October 23 the first Real Additive Manufacturing conference will be hosted at TU Delft - Architecture. During this event insight will be generated on real potential of additive manufacturing for the built environment industry.


OUTLINE | Additive Manufacturing (AM) is referred to as a very promissing technique, but what are the important functions and characteristics of produced building components. Can additive manufactured elements already be implemented widely in the building industry, or should the performance be improved first?

This Think Tank will focus on the implementation of AM in the building industry, trying to answer questions regarding durability, (anisotropic) material behaviour and what kind of materials can be used. Can different materials be combined in an AM production process, or are ‘new’ materials with matching production techniques desired is a question that will arise, but there are more challanges. During the discussion we want to invite you to be creative and think about the application of AM, but regulation is also a topic. How does AM fit in the building industry’s standards and legislation?

Let’s give the building industry a boost with Real Additive Manufacturing!

Date: Friday October 23, 09.00 - 18.00

Location: Delft University of Technology Faculty of Architecture, Berlage Rooms (ground floor) Julianalaan 134 Delft


Performing vs Forming Programming Matter for Adaptive Buildings | Areti Markopoulou


The novel aspect of the Digital Matter research agenda presented is the process of implementation of smart materials in architectural systems and the exploration of how digital design- fabrication and physical computing can contribute on the implementation of dynamic systems in the architectural scale.

The new challenges in architecture, the impacts of the Information Era Technologies and the advances on digital manufacturing techniques bring new or adapted concepts, where physical space seamlessly intertwines with digital content. Our buildings and cities will need new interfaces to communicate with the environment and embedded systems of performance that do not rely on existing urban infrastructures.

Material Intelligence in combination with Artificial and Computational Intelligence, sensors, actuators, as well as bio-mimetic and digital manufacturing innovations will play a critical role in this development providing revolutionary ideas on growth, adaptability, repair and energy savings in architecture.

Should we continue constructing rigid and fixed structures?

Or can buildings and cities begin to think?

Designing Engaging Interactions through Movement Experiments with Near Living Architecture | Dana Kufic


Can architectural environments provide an engaging and emphathetic interaction with occupants? In this talk, we describe our work designing movement based interaction strategies for the Hylozoic Series architectural environments. In the first part of the talk, we will describe affective movement based interaction. Human body movements are a significant source of non-verbal communication that are used to convey affective state. The ability to recognize affective expressions and generate appropriate responses with recognizable affective content is a key component for creating an engaging, entertaining, and empathic human-machine interaction. This talk will present our recent work on developing approaches to systematically identify movement features most salient to affective expressions and to exploit these features to design computational models for the automatic recognition and generation of affective movements. We describe a comprehensive framework to for understanding which features of movement convey affective expressions, the automatic recognition of affective expressions encoded in movements, and adapting pre-defined motion paths to overlay affective content.

In the second part of the talk, we will describe an approach for adapting the Intelligent Adaptive Curiosity learning algorithm previously introduced in the developmental robotic literature to distributed interactive sculptural systems. This Curiosity-Based Learning Algorithm (CBLA) allows the system to learn about its own mechanisms and its surrounding environment s through self-experimentation and interaction. A novel formulation using multiple agents as learning subsets of the system that communicate through shared input variables enables us to scale the learning algorithm to a much larger system with diverse types of sensors and actuators. Experiments on a prototype interactive sculpture installation demonstrate the exploratory patterns of CBLA and the collective learning behaviours through the integration of multiple learning agents.


Notes on Space | Raul Forsoni

The novel aspect of the Digital Matter research agenda presented is the process of implementation of smart materials in architectural systems and the exploration of how digital design- fabrication and physical computing can contribute on the implementation of dynamic systems in the architectural scale.

| Sang Lee

The novel aspect of the Digital Matter research agenda presented is the process of implementation of smart materials in architectural systems and the exploration of how digital design- fabrication and physical computing can contribute on the implementation of dynamic systems in the architectural scale.


Digital Craftsmanship: thinking - scripting/modeling - building | Anurag Bhattacharya | ZJA (Zwarts & Jansma Architects)


ABSTRACT The explosion of digital technologies highlighted the complexity and nonlinearity of the process that we as architects and computational designers experience daily in practice, while massively expanding the ability to visualize and represent forms and to analyse their functional, performative and structural behavior. Parametric and computational approaches have obviously changed both architecture and engineering, and so also the potential for interaction. That is the subject of the research and discourse presented in the lecture. There is a newfound appreciation of the breadth and depth of ways in which architecture and engineering can interact. The projects and methodology shown will provide a shared context to provoke thinking about design, develop new viewpoints, and approaches across disciplinary boundaries in practice, and construction, unlocking the potential to discover new underpinned meanings.

ZJA draws on state-of-the-art technical expertise thanks to amongst others its independent R&D group. In addition, our office collaborates with inspiring international network of interdisciplinary expertise, ranging from structural engineers, urban designers, acoustic engineers, and sustainability experts to universities, research groups and software developers. We got fascinated into computation design approach as an experiment at a time when markets were expanding and architecture faced the challenge of responding to new popular imaginations and accountability. The discourse aims to get acquainted with practical side of the computation design. There will be an attempt to reveal the dichotomy between conventional and advanced models of practice using a series of carefully selected office projects. Many of the projects discussed would be almost impossible to deliver without recent developments in parametric design technology and computation processes, and their relative accessibility gives insight into how projects unfolded. This interplay of technology with core ideas of thinking, explanation and reasoning, exploring, questioning is the next modus operandi.

ABOUT ZJA is an internationally oriented office founded in 1990 and specialises in infrastructure, public transport, sport and leisure. Wherever we go, we take cues at how people move in a park, cyclists, queues, building physics, materials, spectators, at history, at a dune, flowing rivers... everything we see finds its way back into our work, often translating complex assignments into unexpected solutions. We do this in a distinct manner, based on our many years of experience with large-scale building projects. We value our reputation as designers of stadiums, bridges, stations and motorways.

Recommended Readings • FROM CONTROL TO DESIGN by Tomoko Sakamoto • Digital Fabrication in Architecture by Nick Dunn • Computational Design Thinking: Computation Design Thinking by Achim Menges • Material Strategies in Digital Fabrication by Christopher Beorkrem • Computation Works: The Building of Algorithmic Thought by Xavier De Kestelier • Modular Structures in Design and Architecture by Asterios Agkathidis


Friday 23rd of October: Real Additive Manufacturing 2015 Conference

Reference links: TEDx talk – http://tedxtalks.ted.com/video/Robotic-Building-Henriette-Bier

Open access papers from the Research Gate - http://www.researchgate.net/profile/Henriette_Bier/publications

Monday 9th of November: Interactive Architecture

Wednesday 25th of November: Theory and Practice

Monday 30th of November: Theory and Practice 2

Wednesday 9th of December: Built Environment

Monday 14th and Wednesday 16th: Final Presentation and Report