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How to Assess Feasibility of Research‑to‑Product Transitions
Assessing feasibility is the bridge between a brilliant research idea and a successful market product. Without a systematic evaluation, even the most promising discoveries can stall in the lab, waste resources, or fail to attract investors. In this guide we break down a step‑by‑step framework, provide checklists, real‑world examples, and actionable tools—including several free resources from Resumly—to help you decide whether your research is ready for productization.
Understanding the Gap: Research vs. Product
- Research focuses on generating new knowledge, often measured by publications, patents, or proof‑of‑concept prototypes.
- Product demands a repeatable, scalable solution that solves a specific customer problem, complies with regulations, and can be manufactured or delivered profitably.
| Aspect | Research | Product |
|---|---|---|
| Goal | Discover what is possible | Deliver what customers need profitably |
| Timeline | Open‑ended, milestone‑driven | Fixed launch windows, market windows |
| Success Metric | Citations, patents, novelty | Revenue, market share, user adoption |
Bridging this gap requires answering three core questions:
- Is there a real market need?
- Can the technology be scaled cost‑effectively?
- Does the business model generate sustainable returns?
Step‑By‑Step Feasibility Framework
1. Define the Problem Statement
Write a one‑sentence problem statement that a potential customer would recognize. Example: "Small‑scale manufacturers struggle to predict equipment failures, leading to costly downtime." Keep it customer‑centric—avoid technical jargon.
2. Conduct Market Validation
- Customer Interviews: Talk to at least 15 target users. Use a structured script and capture pain points.
- Competitive Landscape: Map existing solutions (including indirect competitors). Tools like Crunchbase can help.
- Size the Market: Calculate TAM, SAM, and SOM. A quick rule: if TAM > $500M, you have a sizable opportunity.
Stat: According to a 2023 CB Insights report, 42% of failed startups cite no market need as the primary cause.
3. Technical Viability Assessment
| Question | Checklist |
|---|---|
| Scalability | Can the prototype be produced at >10,000 units/year? |
| Regulatory | Are there FDA, CE, or industry‑specific approvals required? |
| Intellectual Property | Is the core technology patentable or already covered? |
| Supply Chain | Are critical components readily available? |
4. Economic Feasibility
- Cost‑of‑Goods (COGS): Estimate per‑unit cost at scale.
- Pricing Strategy: Target a price point that yields >30% gross margin.
- Break‑Even Analysis: Calculate units needed to cover R&D, tooling, and marketing.
5. Business Model Fit
Choose a model that aligns with the technology:
- Licensing – if you lack manufacturing capability.
- Direct Sales – for high‑margin, low‑volume products.
- Subscription – for data‑driven services.
6. Decision Gate & Go‑No‑Go
Summarize findings in a Feasibility Scorecard (see checklist below). Assign a traffic‑light rating:
- Green: Proceed to MVP development.
- Yellow: Conduct additional experiments.
- Red: Pivot or abandon.
Checklist: Feasibility Assessment
- Clear, customer‑focused problem statement
- Minimum 15 validated customer interviews
- Competitive matrix completed
- TAM > $500M (or relevant niche size)
- Prototype scalable to 10k+ units/year
- Regulatory pathway identified
- Patent landscape mapped
- COGS < 40% of target price
- Gross margin >30%
- Break‑even within 24 months
- Business model selected and justified
If you tick at least 8 items and have no red flags, your research is likely feasible for product transition.
Do’s and Don’ts
Do:
- Involve end‑users early; their feedback is priceless.
- Quantify assumptions (e.g., cost, adoption rate) with data.
- Keep the MVP scope narrow—focus on the core value proposition.
- Document every decision for future investors.
Don’t:
- Assume a patent guarantees market success.
- Over‑engineer the prototype before market validation.
- Ignore regulatory timelines; they can add 12‑24 months.
- Rely solely on internal enthusiasm; external validation is key.
Real‑World Example: From Lab to Marketplace
Case Study: Predictive Maintenance for 3D Printers
- Research Origin – A university lab developed an AI model that predicts nozzle clogging with 95% accuracy.
- Problem Statement – "3D printing shops lose up to 20% of production time due to unexpected nozzle failures."
- Market Validation – Interviews with 20 shop owners revealed $150k annual loss per shop.
- Technical Viability – The model ran on a low‑cost Raspberry Pi; scalable to 5,000 units/year.
- Economic Feasibility – COGS $30 per unit, target price $120 → 75% margin.
- Business Model – Hardware sale + monthly SaaS for analytics.
- Decision – Green light; secured $250k seed funding.
The team used Resumly’s AI Career Clock to map skill gaps for the founding team, ensuring they had the right product‑management expertise before launch.
Tools & Resources (Including Resumly)
- Resumly AI Resume Builder – Craft a compelling founder resume to attract investors. (Explore)
- Resumly Career Guide – Learn how to position yourself for product‑lead roles. (Read)
- Resumly Job Search – Find product‑management openings that match your new skill set. (Search)
- Resumly Skills Gap Analyzer – Identify missing competencies for commercialization. (Check)
- Resumly ATS Resume Checker – Ensure your pitch deck and executive summary pass investor “ATS” filters. (Test)
These free tools help you align personal capabilities with the feasibility requirements outlined above.
Mini‑Conclusion: How to Assess Feasibility of Research‑to‑Product Transitions
By following the six‑step framework, using the checklist, and leveraging the right tools, you can objectively determine whether a research breakthrough is ready for market. The process reduces risk, clarifies the path to revenue, and equips you with data‑driven arguments for investors.
Frequently Asked Questions
1. How many customer interviews are enough?
Aim for 15‑20 interviews across different buyer personas. Saturation—when new interviews stop revealing fresh insights—signals enough data.
2. What if my TAM is below $500M?
A smaller TAM can still be attractive if you have a high‑margin niche or a clear path to expansion (e.g., adjacent markets).
3. Should I file a patent before market validation?
File a provisional patent early to protect IP, but prioritize validation. Premature filing can waste resources if the market doesn’t exist.
4. How do I estimate COGS for a novel material?
Use a Bill of Materials (BOM) from a pilot run, add a 20% contingency for scale‑up, and benchmark against industry averages.
5. What regulatory bodies might I need to consider?
Depends on sector: FDA for medical devices, EPA for chemicals, FCC for wireless, CE for EU markets. Early engagement with a regulatory consultant is advisable.
6. Can I reuse this framework for software‑only products?
Absolutely. Replace COGS with development and hosting costs, and focus on user acquisition metrics instead of manufacturing constraints.
7. How long does a feasibility assessment typically take?
6‑12 weeks for a focused effort, assuming you have a small cross‑functional team.
8. What role does a founder’s resume play in this process?
Investors evaluate the team as heavily as the technology. A polished, achievement‑focused resume—crafted with Resumly’s AI Resume Builder—can tip the scales.
Final Thoughts & Call to Action
Assessing feasibility is not a one‑time checklist; it’s an iterative discipline that aligns research brilliance with market reality. Use the framework, run the checklist, and leverage the free Resumly tools to fill skill gaps and present a compelling story to stakeholders.
Ready to turn your research into a product? Visit the Resumly homepage to explore AI‑powered career tools that accelerate your journey from lab bench to launchpad.
