1 / 10

Why Forward-Thinking Organizations Use Design for Six Sigma to Ensure Quality at

BMGI Indiau2019s DFSS approach embeds quality at the design stage, reducing variation, risks, and costs while ensuring reliable, customer-focused outcomes.<br><br>https://www.bmgindia.com/innovations/design-for-six-sigma

bmgindia
Download Presentation

Why Forward-Thinking Organizations Use Design for Six Sigma to Ensure Quality at

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Why Forward-Thinking Organizations Use Design for Six Sigma to Ensure Quality at the Source www.bmgindia.com

  2. Introduction – Quality Begins at the Design Stage Design flaws cost more when detected late. Leading organizations now prioritize designing reliability from the beginning. Design for Six Sigma (DFSS) is a structured method that builds quality into the design phase. BMGI India helps companies implement DFSS to reduce variation, minimize design risk, and launch robust products and processes that meet customer expectations.

  3. What Is Design for Six Sigma (DFSS)? • DFSS is a proactive, data-driven methodology used to develop new products, services, or processes that meet customer needs with minimal variation. • Key Characteristics: • Begins early in development to avoid later-stage failures • Focuses on customer-defined critical-to-quality (CTQ) attributes • Uses simulation, modeling, and statistical tools to ensure reliability • Targets Six Sigma quality standards with only 3.4 defects per million opportunities • DFSS is ideal for new designs or when current systems cannot be improved effectively using traditional Six Sigma.

  4. DFSS Framework – The DMADV Method • BMGI India uses the DMADV model to guide DFSS implementation: • Define: Identify customer needs and project objectives • Measure: Quantify CTQs and gather performance data • Analyze: Evaluate design options and identify potential risks • Design: Develop a detailed design that meets all CTQs • Verify: Validate that the final design performs as expected • This step-by-step structure prevents error accumulation and enables teams to deliver right the first time.

  5. Why Organizations Choose DFSS with BMGI India • Companies partner with BMGI India to gain measurable improvements such as: • Lower risk of post-launch failures • Shorter time to market due to fewer redesigns • Strong alignment between customer needs and technical design • Greater predictability in manufacturing and product usage • Long-term cost savings by reducing scrap, rework, and warranty claims • DFSS reduces surprises and strengthens confidence in every new launch.

  6. Case Example – DFSS in Industrial Equipment Design • Client: Packaged food brand facing shelf-life inconsistencies and customer complaints • BMGI India’s DFSS Approach: • Captured customer expectations through Voice of Customer (VoC) • Used DOE to optimize ingredients and processing conditions • Applied FMEA to reduce risk in formulation and packaging • Results: • Defect rate reduced to below 3.4 DPMO • Shelf-life improved by 15% • Customer complaints dropped by 25% • Production waste significantly reduced • Outcome:Improved product consistency, stronger brand reliability, and lower cost of poor quality.

  7. Tools That Support DFSS Execution • BMGI India applies a proven toolset to support high-quality design: • Quality Function Deployment (QFD): Converts customer needs into technical requirements • Design of Experiments (DOE): Finds the best combination of design factors • FMEA: Identifies and eliminates potential failure modes • Monte Carlo Simulation: Tests design under variable conditions • Tolerance Design: Ensures compatibility between components under real use • These tools help reduce variability and improve design robustness.

  8. Best Practices for Success with DFSS • To build DFSS into your organization, BMGI India recommends: • Involve R&D, quality, operations, and marketing from the start • Use voice-of-customer data to drive early design decisions • Train teams in Six Sigma tools that support design reliability • Track metrics such as first-pass yield and development cycle time • Establish governance to review design progress at each stage • These practices ensure that DFSS becomes a core part of your development process.

  9. Conclusion – Partnering with BMGI India for Quality at the Source Design for Six Sigma methodology is a way of thinking that prevents problems before they start. BMGI India brings the structure, tools, and hands-on expertise needed to embed quality into every step of product and process development. By meeting Six Sigma standards, reducing variability, and improving time-to-market, DFSS helps forward-thinking companies build long-term operational efficiency and customer satisfaction.

  10. Breakthrough Management Group India Private Limited Location: 905/906 Raheja Chambers, 213 Nariman Point, Mumbai, Pin-400021, India Phone: +91 22 4002 0045/46 | Email: info@bmgindia.com

More Related