The affluent markets of North America and Europe are tough places these days for IT. Competition is high, recession and uncertainty are never far away. It will be more logical for IT producersbig firms, small firms, universities, and so forthto step outside of their comfort zones and focus on the mirror-image "bottom of the pyramid" (BoP). We can associate this generally with the emerging markets of low-income nations, or more specifically with that half of the planet's population who live on less than US$5 per day. These markets are high-growthfor example, mobile connectivity in Africa is growing by 30% per year and it is now the second-largest regional market after Asia2and they have lower competition. Overall, BoP markets represent the next frontier for IT.
But along with new markets must come new ideas about how we innovate IT. Traditional models of IT innovation vary. The mythology is the lone inventor soldering bits of kit together in a garage, or cranking out code in an attic. The reality is more often a well-funded R&D team based around an IT lab in California or Massachusetts.
Though itself now splintering, this model has historically worked well in producing the new hardware and software to sell to high-income consumers. But it struggleseven failsto produce the right products for the low-income consumers of Latin America, Africa, and Asia. As examples, we can return, at best, an "open verdict" on transfer of the European-model "telecenter" and the U.S.-developed "One Laptop Per Child" to the developing world.1,4
What is wrong with traditional models of IT innovation serving bottom of the pyramid markets? The simple answer is "design-reality gaps": too great a difference between design expectations built into the IT and the developing world realities in which the IT is to be used.3 This typically arises because of the distance between innovators and users; not simply geographical distance but due to cultural, psychological, and linguistic differences.
In order to close those gaps, traditional approaches to IT innovation will no longer suffice. This column outlines six emerging IT innovation models that are helping to close design-reality gaps, and which are successfully delivering new products for low-income markets. They do not represent fully distinct categoriessome of them overlap. But they do represent ideas we need to adopt if IT is to fulfill its potential for the huge emerging markets of the world's poor. Put more bluntly, if you do not adopt these models, someone else will. Indeed, someone else already is.
Large IT firms know their high-income markets well. But growth is happening elsewhere. How, then, to bridge that divide between what they know and what they need to know? One solution has been to engage with the new IT innovation intermediaries that have sprung up in recent years. They have a foot in both campsa deep experience of how IT is used in low-income communities combined with an ability to understand the needs of big corporations.
Bangalore in southern India has become a hub for these innovation intermediaries. Some are employed directly by multinationals: Microsoft Research India (http://research.microsoft.com/en-us/labs/india/) has developed relations with a set of poor communities through which innovations can be piloted; learning from such pilot projects can then be fed back to other parts of Microsoft. Others are guns for hire: the Centre for Knowledge Societies (http://cks.in/) is a contractor that works on behalf of large private firms; using a mix of anthropological and technological study methods within poor communities, it can report back to its clients with key IT innovation pointers.
Working via these new intermediaries multinationals have been able to adapt their products, innovating to address the realities of bottom of the pyramid environments. In this way, mobile phones have emerged with greater battery capacity or antenna strength, to cope with the lower coverage of mobile and electricity networks experienced by rural users. But the established IT firms have taken a broad-brush approach, using a single cheap model to serve markets across several continents. That has created an innovation gap that newly arriving Chinese firms have been quick to exploit.
Along with new markets must come new ideas about how we innovate IT.
Already better attuned to low-income customers than U.S. and European rivals, they have created informal innovation channels to intermediaries like wholesalers and distributors. This has enabled them to adopt much smaller niche innovation strategies. In Kenya, for example, Chinese firms dominate cellphone sales to the poor, with a 90% market share in some areas according to recent University of Manchester research. Working with their intermediaries they have introduced innovations including dual SIM card phones (allowing users to choose the lower-cost network to call particular contacts), translation of the phone interface into Swahili, and addition of a single-button-enabled new interface for the popular M-Pesa mobile money service.
In the intermediated innovation model, the intermediaries stand outside low-income communities, and the poor are respondents more than they are participants in the innovation process. A step further down the road toward inclusivity of innovation is a collaborative approach with greater involvement of those who will ultimately be using the new IT. This is mainly done through prototyping and a well-known example is the M-Pesa service, which began facing in one direction and ended facing in quite another. Local Vodafone subsidiary Safaricom worked with Kenyan partners in piloting a cellphone application to help financial management in micro-finance institutions (organizations that manage micro-lending to the poor). The pilot did not workthe institutions disliked the new system and stuck with their existing manual methods.
But Safaricom designers noticed something unexpected: those provided with the service were converting cash into "m-cash" for security when traveling, and were then exchanging the m-cash to repay debts or provide financial assistance to family members. A eureka moment occurred, the project was reoriented, and M-Pesa was born as a service allowing users to transfer money from one cellphone to another. This was only possible because the firm's IT innovators worked alongside developing country users, and learned from them.
The previous example exposes a broader pointput IT tools into the hands of the poor, and they will themselves start to innovate. This is "grassroots innovation": not just innovation for the bottom of the pyramid but innovation by the bottom of the pyramid. Such innovations may be only minor but ethnographic study shows many IT-related appropriations and adaptations go on in poor communities:
Such innovations spread only haphazardly. They are much like memesideas that will mostly never see the light of day, but with a very few gaining momentum and being widely adopted. This is a huge pool of intellectual property: the IT equivalent of the great reserves of genetic biodiversity that lie within the tropical forests. And there will be similar moral questions about how these reserves are exploited.
Non-profit organizations like India's Honey Bee Network or the multi-country Prolinnova program have been working for many years within poor communities to capture and share grassroots innovations; albeit with a focus to date on traditional rather than IT innovations. So inclusive models do exist. But large IT firms will increasingly recognize the value of grassroots innovations. They will then seek to formalize their currently somewhat jury-rigged connections with BoP markets, and will harvest, filter and diffuse such innovations on an industrial scale.
An inherent characteristic of grassroots innovationbut also applicable to other models described hereis that it is "frugal." Frugality can be seen as a characteristic of the outputan IT product or application that is not just low-cost but also low-demand in terms of other resource requirements, including electricity, telecommunications infrastructure, and human skills.
Multinationals can produce such items. The Nokia 1100the world's best-selling phonewas a classic example of closing the gap between IT design and resource-constrained BoP reality. Robustly built, it was pared down to the basic features that low-income consumers could pay for, and included a much-valued component: a flashlight. Specific initiatives like Copenhagen-based "Frugal Digital" (http://ciid.dk/frugaldigital/) are also working in this space, developing a low-cost health screening meter designed like a standard alarm clock, a mobile device to test hearing loss, and a basic educational projector.
An inherent characteristic of grassroots innovation is that it is "frugal."
But output is only one aspect of frugalityit can also be a characteristic of the innovation process; when new IT is produced far from a high-tech, high-cost laboratory but in a low-price setting that is or imitates the context of its future use. Grassroots innovations are examplesfrugal in both process and outputbut difficult to capture. Of more immediate interest may be the frugal micro-innovations of developing country inventors who focus on local communities.
The World Bank's infoDev project (http://www.infodev.org) has been a keen supporter of frugal micro-innovators, providing finance, incubator spaces, and training programs to help them bring their ideas to market. An example is M-Farm (http://mfarm.co.ke): a simple SMS-based app that allows farmers to buy and sell direct, cutting out the middlemen who often cheat them.
Though they may get to grips with designing IT for use by poor consumers, many of the examples in this column hold too narrow a view of what innovation is, equating it with invention, with the initial process of creating something new. But that is not enough to make an innovation effectiveyou have to move beyond the "build it and they will come" mentality and recognize the importance of diffusion and adoption of the new IT.
This is particularly so in the case of BoP markets. Distribution is not about negotiations with supermarket or retail chains: they do not reach low-income consumers in the global South. Those consumers operate in conditions of poor infrastructure and services, and are reached by individual, locally embedded micro-retailers and entrepreneurs.
But they too are innovators: the diffusion of a new IT product itself requires further innovations, so diffusion and innovation are bound together in a process we should call "innofusion." What is needed are incremental alterations to the way the technology is configured, packaged, marketed, sold, used, supported, serviced, and so forth. And those alterations are context-specific; attuned to the specific needs and expectations of each community. This is not mass production, it is mass customization. And it is rarely innovation of the core technology; more often innovation of the social processes that are essential to IT diffusion and use.
Some of these innofusion innovations make their way upstream in the value chain, and represent a small example of our final model: reverse innovation. Reverse innovation represents the mirror image of traditional concepts of innovation. Those traditional concepts see a flow of objects and ideas from the producer to the consumer; from the rich global North to the poor global South. Reverse innovation sees the opposite.
In 2012, development informatics researchers were amused to see British bank advertisements extolling the benefits of new servicessuch as Pingltwhich would allow cellphone-to-cellphone transfer of money. In the U.K., we are used to measuring our technological lag to the U.S.: the time it takes for innovations to make it across the Atlantic. Now it seems the Mediterranean is the new crossing point: Kenyans, for example, have had mobile money transfer services since 2007. Thanks to the new innovation models, Africa is five years ahead of Europe, and the idea of m-money has flowed from poor countries to rich countries.
More prosaically, Cisco's ASR901 routers were developed for the needs of service providers in emerging Asian markets, but then backflowed to U.S. and European clients. Their low-cost and energy-efficient designs arose from developing-country realities, but offered a competitive advantage also in more mature markets.
Innovation is a term so overused it can start to lose its meaning. But serving the world's emerging marketsand perhaps lifting millions out of poverty at the same timewill require us to "do new things in new ways": the essence of innovation. More than that, it will require us to do innovation in new ways if we are to develop the new hardware and applications to achieve those goals.
Serving the world's emerging markets will require us to "do new things in new ways": the essence of innovation.
For that to happen, we need a new mind-set. One that sees the world's poor not in terms of the remote, helpless images often used by development charities, but through more positive and active images that understand them at least as IT consumers and perhaps, further, as agents in their own development.
For IT multinationals, universities, and innovators in North America and Europe, this change in mind-set may be particularly difficult given legacy attitudes toward the "Third World." There are already signs that IT firms in China and India are more adept at working with innovation intermediaries and at frugal innovation. Absent more change in the global North, it may be these mid-income nations that capture the next technological frontier that the bottom of the pyramid represents.
The Digital Library is published by the Association for Computing Machinery. Copyright © 2012 ACM, Inc.
No entries found