Point: Creating new products & services for developing countries requires radical innovation and opens new opportunities in developed world markets as well

Story: GE Healthcare sells sophisticated medical imaging devices around the world. Historically, they have sold these high-end machines in emerging economies like India. But only 10% of Indian hospitals can afford a $10,000 ECG machine. Reaching the other 90% of the market takes more than simply cutting a few costs. It requires radical innovation and an in-depth understanding of local conditions.

For example, most Indians live in rural areas. That means they don’t have a local hospital to go to. Rather, the machine needs to go to them, and no rural healthcare clinic is going to lug a $10,000 machine into the field even if it could afford the device. Achieving the goal of a lightweight, reliable, simple-to-use ECG machine took radical re-thinking. GE built a device, called the MAC i, that could fit in a shoulder bag, has a built-in replaceable printer, and cost only $500. In addition, because the device would be used in rural locations with scant access to electricity, GE designed a battery that could do 500 ECGs on one charge.  To make it easy to use, GE designed the machine to have only three buttons. Finally, just because the device is inexpensive doesn’t mean it’s dumb.  Because the cost of a copy of software is zero, GE installed professional-level analysis software to aid rural doctors.

With its new MAC i, GE has unlocked a whole new market in developing countries.  Beyond that, GE has also opened up new opportunities back home — and that’s the reverse innovation side of the story.  How? The portable ECG machine with a $500 price tag is ideal for use in ambulances, saving lives of accident victims in rich countries as well.  Cheap, portable, and easy-to-use devices are desirable in any country.

Action:
Reverse innovation means designing a product for a developing country and bringing that innovation back home.

• Make the product extremely low in cost so that it is price-acceptable in developing markets and opens up new sales opportunities in developed markets
• Start from the ground up with a radical rethinking. (See also the Tata Nano example.)
• Plan for intermittent electricity
• Make the product modular to facilitate remote repair
• Make the product easy to use, like GE’s three-button ECG machine

Sources:

Vijay Govindarajan, “Reverse Innovation: A New Strategy for Creating the Future” HSM webinar March 18, 2010

Prof. Govindarajan will be speaking more on this topic at the World Business Forum in NYC October 5-6, 2009

India Tech Online

Point:  Accelerate innovation by finding an analogous solution from a different industry.

Story:
Henry Ford’s assembly line is often touted as a breakthrough innovation. What’s less known is that Ford got the idea by seeing the “disassembly line” process of butchering hogs at the Philip Armour meatpacking company in Chicago. Similar techniques were also already being used by Campbell’s to automate canned food production.

Adopting ideas from other industries and applying them to your own industry is a powerful and proven source of innovation. But what if you don’t know which industry to examine, or where to look for that potentially breakthrough idea? Solutions may arrive serendipitously as you visit companies and read widely, but how do you accelerate the process and make it systematic?

One exciting solution I came across was described by Jim Todhunter, CTO of Invention Machine at the Open Innovation Summit last month. Invention Machine’s Goldfire software uses semantic technology to access a vast collection of scientific principles, patents, articles and Deep Web technical websites (meaning you can’t find them via standard search engines like Google). Simply put, Goldfire automates searching for analogous solutions in different industries.  I talked with Todhunter to learn more about how Goldfire, an innovation platform, can help a company innovate systematically.

Todhunter described how a manufacturer of plumbing fixtures used adjacencies to remove lead from their plumbing fixtures.  Companies have long known the dangers of lead and have substituted copper pipes for lead ones and stopped using lead-based solders for plumbing. But most of us don’t realize that fixtures like brass faucets also contain lead in the brass alloys. The reason faucets contain lead is because lead makes the brass machinable. A couple percent of lead mixed into the copper and zinc of the brass makes it easier to mill attractive surfaces, drill clean holes, and create smooth pipe threads on the brass.  In short, the lead helps a faucet manufacturer create attractive, high-quality faucets. But over time, some of the lead in the brass leaches out into the water that flows through the faucet, which poses some health risks.

The faucet maker realized they needed help to solve the problem and turned to Invention Machine’s Goldfire software to find feasible external innovations. “Goldfire helped them in two ways,” Todhunter said, “in terms of what are called adjacencies and proof points.”

Adjacencies involve finding potentially analogous innovations found in other industries. For example, faucet makers aren’t the only companies worried about producing quality products from hard-to-machine materials.  “On the adjacency side, when the company started to examine the problem with Goldfire, they were able to discover that there were technologies and methods used in other industries that could obviate the need for lead in brass,” Todhunter said. In particular, the manufacturer discovered that woodworkers have clever techniques for milling wood.  These techniques could be adapted to machining lead-free brass.

The second help to accelerate the innovative solution is called proof points — tangible examples that prove a solution is commercially feasible.  In terms of proof points (i.e., “are there ways to do this?”), the manufacturer was able to discover a very clear proof point through Goldfire: someone had already discovered a way to make millable lead-free brass.  “The client didn’t even have to go invent this material — they were able to find a supplier,” Todhunter said.  “As a result, the faucet maker accelerated their time to market for delivery on this kind of concept tremendously because this discovery created a partnering opportunity.”

Action:

• Clearly define the problem at hand (e.g., lead-free brass AND attractive, high-quality machined features)
• Survey adjacent industries or applications for ideas that overcome the problem (e.g., tricks for milling a hard-to-mill material)
• Survey external innovations and suppliers for proof points (e.g., a commercially available, lead-free brass alloy that is machinable)
• Combine externally-found adjacencies and proof points (i.e., use the best adjacent methods on the best proof point solutions)

For Additional Information:

Computer power yields radical ideas, by Stuart F. Brown, Fortune

Innovation to the Core: A Blueprint for Transforming the Way Your Company Innovates by Peter Skarzynski and Rowan Gibson

Point: Open innovation makes developing niche products and services affordable

Story:Tesco.com, the world’s largest online grocery retailer, is opening its API to third-party developers. Developers get access to Tesco’s powerful grocery engine to design apps for specialized purposes. For example, a developer could design an app for customers who have an allergy to peanuts. The app would display only those Tesco grocery items that are free of any peanuts. Likewise, another app could focus on calorie counting: customers could order just the right amount of food to stay within the calorie, carb, and fat limits of their chosen diet.

The Open Innovation strategy is a win/win: Tesco doesn’t have time to develop and support all these apps internally, so it benefits from the skills of external developers. The developers might have special relationships with particular customer segments (e.g., a tie to allergist or being the author of a best-selling diet books).  External developers get compensated (currently 5 pounds) for each new customer who signs on to Tesco.com, and they receive a micropayment for each purchase made that used the app.

The biggest hurdle Tesco executives had to overcome before opening up to external developers was “allowing someone to be between us and the customer,” said Nick Lansley, head of Tesco.com. “This is an issue. But what convinced us is that we don’t have the time or resources to write for all these different websites, but others do.”  Tesco requires that developers must support the app and they can’t use “Tesco” in the title, only “powered by the Tesco API.”  To further convince developers that the initiative is real, Tesco stated that they will maintain the API for at least two years.

Action:

1. Define a reusable interface that lets software developers bundle or use your systems to meet new needs
2. Create a mutually-beneficial compensation plan to both attract developers and to encourage developers to attract customers
3. Pledge to support the API

For Further Information:

http://www.vimeo.com/7738321