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During World Space Week, we have decided to offer our globally recognized courses at a special price. Boost your curriculum by studying the future technologies that will shape the present.
Innovation & Architecture Pack
35 Lessons | On Demand
27 Lessons | On Demand
43 Lessons | On Demand
The construction and design industries are facing irreversible change. This package gives you the training you need to become more competitive and take advantage of emerging job and business opportunities.
My name is Sergio Eduardo Garcia Rangel I work as an architect, I am of Mexican nationality, in my opinion as an introduction I liked the course, I would like to take exams or practices to verify what was explained and practices to apply what was explained and understood and present the results, for me part I will try to find more information and prepare myself more in this field that I really liked greetings
This course was really interesting because it covers all the things you need to know about the subject. Thank you very much to the whole team for this very complete course!
Brilliant. This course was beautifully tailored for space architecture or even space enthusiasts and gives in depth knowledge about space explorative designs and sustainability.
All School of Disruption courses issue a globally recognized certificate. Learn from the best experts, acquire new skills and boost your career.
Add the certificate to your CV and LinkedIn profile
School of disruption’s students not only have the opportunity to take the most disruptive courses on the market but also have access to totally exclusive resources in today’s most emerging industries.
Managing Partner & co-owner of LIQUIFER
Managing Partner & co-owner of LIQUIFER
Astrobiologist, International environmental microbiologist & Researcher
Armando Azua-Bustos is an internationally renowned environmental microbiologist and researcher with over 30 JCR publications. He has extensive laboratory and fieldwork experience, and expertise in the ecology and evolution of microorganisms in extreme environments. He has won one of the prestigious Human Frontiers Science Program Grants, and also a grant from the Dubai Future Foundation. Armando has also won one of the prestigious TED Fellowships, and has had more than 100 appearances in international magazines such as Forbes, National Geographic and Scientific American.
Seasoned computational designer, researcher, and instructor
Onur Yüce Gün
Onur Yüce Gün is a seasoned computational designer, researcher, and instructor. Trained as an architect, Onur holds a Ph.D. and a master’s in design and Computation, both earned at Massachusetts Institute of Technology. Recognized by TEDx, and Time Magazine’s best inventions lists, Onur’s work has been internationally published, exhibited, and awarded. His work has been exhibited at the Center for Architecture AIA New York Chapter, at SIGGRAPH, at Centre Pompidou (AAG), and the Tokyo Gallery A4. Onur instituted the Computational Geometry Group at KPF NY in 2006. He taught at MIT, RISD, and Adolfo Ibáñez University in Chile. Onur is current the Creative Manager of Computational Design at New Balance. He played a key role in R&D process of Triplecell, New Balance’s 3D printing technology, and designed 3D-printed forefoot component of limited-edition Fuel Cell Echo Triple that has been published in Popular Science in 2019.
Founder and Project Manager @KEEEN
Alessandro Tassinari is founder and project manager of Keen, a deep tech venture that designs and engineers technologies for the advanced construction industry. KEEEN integrates robotics, automation processes and fabrication systems in the construction sector, focusing both on
site and off site activities. Alessandro has extensive experience in 3D printing for the construction industry and has worked as a consultant and advisor for major industry players such as Wasp.
No, the course is entirely on-demand and consists of video-recorded lessons that can be accessed from any device and at any time from the students’ personal dashboard. However, online meetings are organized throughout the year (for members only) for Q&A sessions with speakers and experts in the field.
Dr. Daniel Levi is a Neurosurgeon, Scientist, Clinical and Research Strategic Manager @ Ticino Health, Astrophysics Fanatic, President of the Competence Center for Genetic Engineering, Member of the Swiss Institute for Disruptive Innovation. Prof. Pasquale Ferrante is a World famous virologist, medical scientist and full professor at the University of Milan, with an extensive experience in genetic engineering technologies. Paola Sonni is a lawyer, member of the Swiss Institute for Disruptive Innovation, who has developed a heterogeneous set of skills that arise from the convergence between law, medicine, and new technologies with a specific focus on genome editing.
DNA and genetic engineering will play an increasing role in the field of justice, investigation and forensic science. However, genetics-related technologies are largely overrated, as is the reliability of the results, which are known to be exposed to the risk of human error. More importantly, recent technological innovations and their future evolutions may conceal dangerous threats to the search for truth. Anyone who wants to work in the field of forensic science must necessarily be familiar with genetics and how technologies related to DNA work.
No, the course has lifetime access.
Of course, once you have finished the course, you can download the School of Disruption certification, recognized by the Swiss Institute for Disruptive Innovation. The certificate can be attached to your CV or registered on LinkedIn.
Feel free to write to firstname.lastname@example.org to request any information about our School and courses.
The Swiss Institute for Disruptive Innovation (SIDI) is one of the points of reference in the scientific investigation scenario.
SIDI identifies and analyzes emerging trends and technologies that can disrupt existing processes and produce a significant change in social and economic systems. SIDI’s s mission is to help companies and institutions to face upcoming challenges, providing know-how and a revolutionary set of new skills.
All Rights are reserved.
Swiss Institute for Disruptive Innovation
With Francesco Sisini
Learn the technical and business implications of the new frontier of computing and how you can apply them to enhance your professional future.
The dawn of quantum supremacy
A bit of history
Quantum mechanics Vs Traditional physics
Super computer Vs Quantum computer
Examples of quantum computers
Which types of applications may benefit from quantum computing?
From bits to qubits
The superposition principle
Understanding the Qbit – The Bloch Sfere
Understanding the entanglement
The entanglement in a nutshell
What is a quantum gate?
The not as a quantum gate
The H gate
The CNOT gate
Quantum Gates in a nutshell
Photonic quantum computer
Ion trap quantum computer
Artificial Atom Quantum Computer
The Deutsh problem
Create and test your first quantum code
The brain as quantum computer
Quantum machine learning and quantum AI
Prospects for quantum computing
First steps in the market
Impact on industries
With Danielle Garofalo, Umberto Ceccarelli, Roberto Garavaglia, Patrick Gudev, Francesco Vincenti, Igor Ciminelli, and Meta Karen
The race to the Metaverse has begun.
Few yet know the real estate opportunities of this new digital world.
In this course you will discover everything you need to know to take your career and your business from the traditional
Metaverse and Construction Industry
Understanding the Metaverse
VR-AR-XR: a brief introduction
Metaverse in Popular Culture
The different shapes of the Metaverse
What is Metaverse Real Estate?
Implications of Digital Real Estate
Why buy a Metaverse Property
How to buy Metaverse Land Properties
EXTRA: do you remember Second Life?
Becoming (The role of architecture)
Architecture & Design (Designing in the Metaverse)
How to buy Metaverse Land Properties
In game coding
Extra services (web dev, store design and asset development)
Metaverse 3.0: Blockchain technology and ownership
NFT Worlds – Worlds SDK & Creator Economy – Cubes Utility Token
Use Cases & Examples
How to build. Building Strategies
Jobs and Opportunities in the Metaverse
School in the Metaverse
A.I. in the Metaverse – Patrik Gudev
Automotive & Mobility: The Case of partnership with Mole
Blockchain e distributed ledger technologies
Token, smart contract, decentralized timestamp
Blockchain and metaverse
Decentralized digital identity in the metaverse
NFT in the metaverse
Jobs and opportunities in the Metaverse
School in Metaverse
With Armando Azua-Bustos
Space exploration is the new frontier for human beings, which is generating countless business and job opportunities.
Biotechnology is the solution needed to meet all of the needs of long-term space missions, address the challenges of life in space and on other planets, and ultimately turn science fiction into science fact.
The genetic material
Recombinant DNA technologies
History of biotechnology
Successful cases of microbial, plant and animal biotechnology
The beginnings of rocket science
The first visionaries
The beginnings of the space age
Going to the Moon
The Space shuttle
The International Space Station
The exploration of the Solar System
The future of space exploration
The lack of gravity
Atmosphere, water and nutrients
The technical lack of sunlight
Microbiology on space
Plant biotechnology in space
The future of biotechnology in space
Challenges to be overcome on the Moon
The future of biotechnology on the Moon
Challenges to be overcome on Mars
The future of biotechnology on Mars
Challenges to be overcome in deep space exploration
Challenges and opportunities for biotechnology beyond Earth
Research opportunities, contacts and funding sources
Brief summary and final considerations
With Onur Yüce Gün
Unleash your design potential. Parametric architecture allows you to create infinite and impossible design solutions using computers and artificial intelligence.
Why Computational Design?
Building Timeless Skills in Computational Design
What is Computational Design & what it is not?
Analytical description of Computational Design
Perceptual description of Computational Design
A Holistic description of Computational Design
Who am I? – My journey
Emergence of Computational Design
Review of design and visualization tools
Why important: Parametric, generative, and algorithmic systems
Hand sketching vs Algorithmic sketching
ML and AI in design
Applications: Academia, Architecture, Product Design, Data Visualization, Animations
What is missing?
The Digital (Binary) Computer: History of Computing
Analytical (scientific) view of the world; Parts and Wholes
Vision and Ambiguity (Human vs Machine Intelligence)
Visual Computation: Shape Grammars
Geometry – Triangles
Geometry – Platonic Solids
Geometry – Freeform modeling
Parametric Design Foundations
Parametric Design Hands-On
Data as a design driver (D2D paper)
CNC – Synthetic Natures
3D Printing and DfAM Design for Additive Manufacturing
Prototyping vs Industrial scale applications
Applications in practice
Researching in academia
Creating Measurable Impact (Trends vs Meanings)
Future of Computational Design
Machine Learning Applications
Designer’s shifting role
Talking it to the field
Can quality be computed?
With Alessandro Tassinari
Today, 3D printing is one of the fastest growing construction technologies, which opens new and exciting career opportunities for those determined to shape a better tomorrow
Your journey starts here
What is Construction 3D Printing?
Construction 3D Printing vs. Traditional Building Construction
History of 3D Printing in costruction industry
The Lack of technology adoption in Construction Industry
Inside the Technology
Kenyas first 3D printed housen
FIBONACCI 3D printed house in Canada
3D Printing applied to construction
Digital Fabrication through Robotic Arm
Components of a concrete 3D printing system
Gantry 3D Printers
Delta 3D Printers
Robotic Arm 3D Printers
Crawler Boom 3D Printers
Polar 3D Printers
Powder 3D Printers
Clay 3D printing
Fiber reinforced materials and polymers
Building with in situ materials
A new way to design for architects, designers and engineers
Turning threats into opportunities
Building in Space
How to start the business
With Igor Ciminelli
Learn the business strategy of the world’s greatest innovators. Identify new growth domains, create your own innovative product, and disrupt your market.
Welcome & Agenda
The theory in short
Disruption’s 3 key-points
Assess the market potential
The Law of Diffusion of Innovation
Start with Why Ted X
Innovation design process
Ideas and adoption
The Disruptive Innovation Theory
The Innovator’s Dilemma
The Kodak case in short
How to be a disruptor – Harvard Business School Tribute
What is your market?
Not from you and not even from your competitors
It’s a matter of criteria
The evolution of performance criteria
How to conquer the market by worsening your products: the low-end disruption
Determine your growth domain
Jobs to-be-done strategy
Rating the jobs
Characteristics of innovation
How good managers condemn companies: the silent collapse
Principles of disruptive development
7 successful business models examples
Advices and tools
References and must-read
With Barbara Imhof & René Waclavicek
Life in space is getting closer every day. This course will give you the skills you need to become a designer of space environments, both for spaceships and homes.
Your journey starts here
What is Space Architecture?
The Multidisciplinary Approach of Space Architecture
Past and Present of Space Architecture
ISS Life Support Systems
Habitability Special Requirements
Architectural Aspects and Workflow
Architectural Functions of Life in Space
How everything comes together
Modular System Paradigms
ISS Modular Structure
ISS Crew System
Gateway Configuration Concept
Settlements, Strategies and Objectives
The journey into Space
Planetary Outpost Elements Configuration
Common Archetype for Habitats on Planetary Surfaces
Lunar Environment and Resources
Lunar Settlements and in-situ Materials
Building with in-situ Materials
Martian Environment and Resources
Settlements and in-situ Materials
Closed-Loop Life Support Systems
Why we need to simulate missions?
Fidelity of Simulators and Simulations
Design and Habitability
Similarities of Space and Terrestrial Extremes
Recycling, Resilience, and Closed-Loop Systems
Examples of Spin-offs from Space to Earth
City as a Spaceship
Becoming a Space Architect
Space Architecture Pioneers and their Design
Biotechnology for Space Habitats
From the first flights to the settlements on Mars – Materials & Technologies
Making Staff in Space
Analogue Testing in Antartica
Human Performances in Space
Space design for terrestrial living spaces