Archibuddy is a unique and innovative project that aims to create adaptive architectural elements to make environments emotion-responsive. Archibuddy will leverage the latest technologies to provide personalized experiences to users, optimizing their well-being and productivity using Emotion Detection Technology and the Algorithmic workflow that was developed over the course of the Master’s Research Thesis between 22/23.

Market Analysis

The architecture industry is evolving rapidly, with a growing demand for sustainable and intelligent solutions. Archibuddy targets a wide range of sectors, including healthcare, education, hospitality, and residential. The market potential for Archibuddy is significant, with the global smart homes market projected to reach $158.4 billion by 2024.

Problem Statement

The current environments we live and work in often fail to meet our emotional needs, leading to stress, anxiety, and reduced productivity. Archibuddy aims to address this problem by creating adaptive and responsive environments that optimize well-being and productivity.


Archibuddy is a comprehensive solution that consists of sensors, actuators, data analytics, and user interfaces. Archibuddy adapts to different emotional states, creating personalized environments for users. It uses real-time data analytics to optimize the environment and improve well-being and productivity.

Competitive Landscape

The competitive landscape for Archibuddy is diverse, with various players in the smart home, IoT, and adaptive architecture markets. However, Archibuddy’s unique value proposition, combining emotional intelligence and adaptive architecture, sets it apart from other solutions in the market.

Business Model

Archibuddy’s business model is based on a product-based pricing model, targeting different sectors, such as healthcare, education, hospitality, and residential. The revenue streams include production fees, licensing, and customization services.

Marketing and Sales

The marketing and sales strategy for Archibuddy will leverage social media, email marketing, and advertising to reach the target audience. Archibuddy will partner with leading companies and institutions to showcase its value proposition and generate interest among potential customers.

Financial Projections

Archibuddy’s financial projections include revenue forecasts, profit margins, and break-even analysis. The project requires initial funding of $3 million to cover R&D, marketing, and sales. The projected revenue for the first year is $5 million, with a net profit margin of 20%.


The Archibuddy team comprises experienced professionals from the architecture, technology, and marketing fields. The team has a proven track record of delivering successful projects, and their expertise is well-suited to execute the Archibuddy project.


Archibuddy is a groundbreaking project that addresses a critical need for emotional intelligence in architectural design. Archibuddy’s unique value proposition, combined with its strong business model, makes it an attractive investment opportunity for investors looking to be a part of the next big thing in adaptive architecture.

Business Model Canvas

Key Partners: Manufacturers of tensegrity structures, emotion detection technology providers, software developers, toy manufacturers.

Key Activities: Research and development, software development, manufacturing, marketing, sales.

Key Resources: Tensegrity structure materials, emotion detection technology, software tools and platforms, manufacturing equipment.

Value Propositions: Real-time adaptivity to human emotions, versatile applications in architecture and toy industry, potential for improved well-being and user experience.

Customer Relationships: Customer service and support for tensegrity structure and emotion detection technology, strong communication with toy manufacturers.

Customer Segments: Architecture firms, building contractors, interior designers, toy manufacturers.

Channels: Online marketing, direct sales, collaborations with emotion detection technology providers and toy manufacturers.

Cost Structure: Research and development, manufacturing, software development, marketing and sales, customer service and support.

Revenue Streams: Sales of tensegrity structures to architecture and design industries, licensing of emotion detection software to other industries, sales of toy products incorporating adaptive tensegrity technology.

Business Validation Solution

I – Are the key customers willing to pay for it?

The key customers mentioned – Architecture firms, urban planners, real estate developers, construction companies, government agencies, public institutions, and private organizations, may be willing to pay for the adaptive architectural environments with morphing tensegrity structures for the following reasons:

Enhanced User Experience: The adaptive architectural environments that respond to the emotions of the people within them can create a unique and immersive user experience, providing a novel and engaging environment for users. This enhanced user experience can be a compelling value proposition for customers, justifying a premium pricing and making them willing to pay for it.

Technological Innovation: The integration of cutting-edge technologies such as computer vision, machine learning, and tensegrity structures in the adaptive architectural environments represents technological innovation that can be appealing to customers who are looking for innovative solutions to differentiate their projects. Customers may be willing to pay for the unique and advanced features offered by your solution.

Market Differentiation: The adoption of adaptive architectural environments with morphing tensegrity structures can potentially set the customers apart from their competitors in the market, providing a unique selling point and a competitive advantage. This market differentiation can justify a premium pricing and make customers willing to pay for it to gain a competitive edge in the industry.

Customization and Flexibility: The ability of morphing tensegrity structures to adapt and respond to the emotions of the people within the environment can offer customization and flexibility in the architectural design, enabling customers to create dynamic and adaptable spaces that cater to the specific needs and preferences of users. This customization and flexibility can be valued by customers and make them willing to pay for the tailored solution.

II – How much would they be willing to pay for it?

As a rough hypothesis, the pricing for adaptive architectural environments with morphing tensegrity structures could range from $5,000 to $20,000 per square meter, or from $500,000 to $2 million for a medium-sized project, depending on various factors such as the complexity of the design, the level of customization, the technological features, the reputation of the research thesis project, and the market demand.

For example, if the research thesis project offers a highly innovative and advanced solution that provides unique user experiences, customization options, and cutting-edge technology integration, we may consider pricing at the higher end of the range. On the other hand, if the research thesis project is targeting a niche market with limited demand or offers relatively simpler solutions, we may consider pricing at the lower end of the range.

It’s important to note that this pricing hypothesis is indicative and should be validated through thorough market research, customer surveys, competitor analysis, and financial projections. Additionally, it’s essential to consider the cost structure, including research and development costs, material costs, labor costs, operational expenses, and desired profit margins, when determining the pricing strategy for the research thesis project.

III – How urgent is the need?

Hypothesized urgent need due to increasing demand for innovative and sustainable architectural solutions, changing user preferences for adaptable spaces, potential benefits in various applications, and rapid advancements in sensor technologies, AI, and materials science.

The Validation Test

Given that the project is currently in the prototype stage and I have a working algorithm in real-time, the Prototypes Method would likely be the most suitable for testing and validating the solution. I can create physical or virtual prototypes of my tensegrity structure, simulate its behavior with different emotional inputs, and gather feedback from potential users to assess its performance and user experience. This method allows me to iterate and refine my design based on user feedback, making it a valuable approach for validating the feasibility and desirability of the adaptive architecture solution.

Validation Plan

Validation could involve collecting feedback from potential users on their experience with the prototype, including their emotional responses, comfort levels, and overall satisfaction. It could also involve evaluating the functionality and adaptability of the tensegrity structure in real-time based on the emotional inputs and its ability to respond and morph accordingly. Additionally, validation could involve assessing the feasibility and viability of integrating the emotion detection algorithm with the tensegrity structure in a real-world setting. The validation process would provide insights into the effectiveness and potential of your adaptive architecture solution in meeting the intended goals and user needs.

Minimum Viable Product

The ideal Minimum Viable Product (MVP) for the research thesis project would likely be a functional prototype of the tensegrity structure integrated with the emotion detection algorithm. It should have the capability to detect emotions of people in real-time and respond by morphing or adapting its form accordingly. The MVP should have a basic user interface or controls to input different emotional states or triggers for the structure to respond to. It should also be capable of capturing relevant data, such as emotional responses, structural changes, and user feedback, for further analysis and validation. The MVP should provide a tangible representation of the adaptive architecture concept, demonstrating its core features and functionalities, and serving as a testbed for gathering user feedback and validating its feasibility and desirability.

Fundraising Strategy Roadmap

Archibuddy’s fundraising strategy will focus on securing seed funding from venture capitalists and angel investors. The initial funding requirement is $3 million, which will be used to cover research and development, marketing, and sales. To achieve this, Archibuddy will leverage its network of industry contacts, attend industry events and conferences, and engage in active outreach to potential investors.

The second phase of fundraising will focus on securing Series A funding to scale up the business and expand into new markets. The Series A funding requirement is projected to be $10 million. Archibuddy will leverage its strong brand presence and proven track record to generate interest among potential investors. The company will focus on securing funding from venture capitalists and institutional investors who are aligned with Archibuddy’s vision of creating emotion-responsive environments. Additionally, Archibuddy will explore strategic partnerships and collaborations to further enhance its fundraising efforts and drive growth.

Outreach Messages

Archibuddy’s outreach messages will focus on highlighting the company’s innovative technology and its potential to revolutionize the architecture and design industry. The messaging will emphasize the importance of creating emotion-responsive environments that enhance well-being and productivity. The company will leverage social media platforms, such as LinkedIn, Twitter, and Instagram, to reach out to architects, designers, and other industry professionals. The messaging will be tailored to resonate with these audiences, highlighting the benefits of using Archibuddy’s technology to create cutting-edge, sustainable spaces that respond to human emotions.

In addition to social media outreach, Archibuddy will also participate in industry events and conferences to showcase its technology and engage with potential customers and partners. The messaging at these events will focus on the potential of Archibuddy’s technology to revolutionize the architecture and design industry and create sustainable, human-centric spaces. The company will also engage in targeted email campaigns and other marketing efforts to reach potential customers and partners, highlighting the benefits of using Archibuddy’s technology and the company’s proven track record of success.