Module 3: Prototype Development (SBIR) – Turn Your Idea into a Model!
Objective: In this module, we will learn how to turn our great business idea into a real model that we can touch and test. We also evaluate Technologies in the Government, Corporations, & University Research Labs for Translational Research and existing Prototypes to accelerate the path to prototyping.
Steps:
- Know What You Need: First, we make a list of all the important things our model should have, like special features and functions.
- Draw It Out: We create detailed drawings or pictures of our model. These will be like the blueprints for building it.
- Choose the Right Tools: We pick the best tools and materials to make our model. It could be special computers or even some cool gadgets.
- Build It Up: Now, it’s time to start making our model. We might need to do some coding, put pieces together, or use 3D printers to shape it.
- Add Smartness: If our model needs smart AI stuff, we include them. It’s like giving the model a smart brain to do cool things!
- Find and Fix Problems: As we work, we check for mistakes and problems in our model. We fix them to make it work smoothly.
- Make It Better: We listen to our friends and test our model to see what can be improved. We make changes based on their feedback.
- Try It Out: We do some early tests to see if our model works well. We try every part to make sure it does what we want.
- Write It Down: We write down every step we followed and what we learned. It’s like writing a cool story about our model.
What You’ll Need:
- A well-equipped and versatile facility (Wet/Dry Lab) – Makerspace
- A team of people to help you, like smart engineers and designers.
- Special tools and gadgets to build your model.
- Computers and software to make the design.
Expected Results:
- A cool model that shows how your business idea will work.
- A written story of how you made your model and what you found out.
- Qualifications for SBIR I Award – Module 4: Prototype Testing
Assessment:
- Does your model do what you wanted it to do?
- Did you include all the cool features you planned?
- Did you write down everything about how you made your model?
- Could the model qualify for SBIR II?
Remember, a prototype is like a first try, so it’s okay if it’s not perfect. You can always make it even better! Have fun making and testing your model. You’re on your way to becoming a great inventor! 🚀
To facilitate Module 3: Prototype Development, a well-equipped and versatile facility is required to support various aspects of the development process. Here are the key requirements for the facility:
- Laboratory Space: The facility should have a dedicated laboratory space equipped with workstations and tools to accommodate the development team, including software developers, hardware engineers, and AI specialists.
- Advanced Manufacturing Area: For projects that fall under the Advanced Manufacturing focus area, the facility should have a designated space with specialized equipment for additive manufacturing (3D printing), CNC machines, and other manufacturing tools.
- Materials Testing and Storage: If the prototype involves the use of advanced materials, a section of the facility should be dedicated to testing and storing these materials safely.
- AI Integration Space: For projects incorporating Artificial Intelligence, a dedicated area with powerful computing resources should be available for developing and testing AI algorithms and models.
- Energy and Power Management: The facility should have a stable and reliable power supply, especially for projects related to energy technologies and power management.
- Internet Connectivity: Since many modern prototypes rely on IoT and cloud connectivity, a robust and high-speed internet connection is essential for testing and development.
- Clean Room Facility: For projects related to nanotechnology and photonics, a clean room facility is necessary to handle sensitive components and materials.
- Environmental Testing Area: For projects involving environmental technologies, a designated area for conducting environmental tests and simulations is required.
- Robotics Testing Area: If the prototype involves robotics, a testing area with sufficient space and safety measures should be provided.
- Safety Protocols: The facility should implement safety protocols to ensure the well-being of the development team and the safe handling of any hazardous materials or equipment.
- Documentation and Collaboration Space: A designated area for documenting the development process, holding team meetings, and collaborating on ideas and improvements.
- Storage and Inventory: Ample storage space should be available for keeping hardware components, materials, and equipment securely.
- Flexible Layout: The facility should have a flexible layout that can be adapted to different types of projects and their specific requirements.
- Accessibility: The facility should be easily accessible for the development team, with convenient transportation options.
- Security: To protect intellectual property and sensitive data, the facility should have appropriate security measures in place.
The specific requirements and size of the facility will vary based on the nature and scale of the prototype projects being developed. It’s essential to ensure that the facility can accommodate all the necessary resources and equipment required for successful prototype development and testing.