Measuring the Economic Potential of the Internet of Things

Like many technological advances, the Internet of Things has been long in coming. Ubiquitous or Pervasive Computing dates back to the 1990s, when neither the necessary low-cost devices nor ubiquitous wireless networking were anywhere near ready. But IoT has now reached an inflection point, with over 10 billion interconnected smart devices already out there, a number that’s expected to rapidly expand to tens of billions by 2025 and to hundreds of billions in the decades ahead.“The myriad possibilities that arise from the ability to monitor and control things in the physical world electronically have inspired a surge of innovation and enthusiasm,” writes McKinsey & Co. in a June, 2015 report, The Internet of Things: Mapping the Value Beyond the Hype. The report analyzes the long term economic potential of IoT, and uses this analysis to estimate the economic value of several IoT-based solutions by 2025. Given the breadth and complex nature of IoT-based solutions, quantifying their potential value is very difficult indeed, especially since such smart solutions,–smart cities, smart homes, http://www.[wsj-ticker%20ticker=/smart health care–are still in the very early stages of development.

• Human - Monitor and promote improved health, wellness, fitness, and productivity using personal wearable devices and appliances

• Home - Energy management, security, safety, and automation of home chores

• Retail Spaces - Automated checkout, layout optimization, customer care, real-time personalized promotions

• Offices - Organizational and personal productivity, training, energy monitoring, building security

• Factories - Production and supply-chain optimization, quality control, predictive maintenance, inventory management, health and safety

• Outdoor Worksites - Optimization of custom operations, equipment maintenance, health and safety, worker productivity; includes construction, mining, oil and gas exploration and production

• Vehicles - Improved safety, condition-based maintenance, new service and business models, in-vehicle communications and entertainment; includes cars, trucks, ships, aircraft, trains

• Cities/Urban Spaces - infrastructure management, water and energy conservation, public safety and health, traffic control, environmental monitoring, quality-of-life services

• Outside/Other - Logistics routing, shipment tracking, operations optimization, real-time ship and flight navigation, railroad track monitoring

McKinsey estimates that the total economic impact of the applications it sized in these nine IoT settings is $4 trillion to $11 trillion per year by 2025. The estimate is based on the likely evolution of technology over the next 10 years, the rates of IoT adoption, economic and demographic trends, and several other factors. The range is so wide because at this early stage in IoT’s development there are so many unknowns, including the costs of technology, the rate of development and deployment of these highly complex solutions, their level of acceptance by consumers and workers, the policies and regulations enacted by governments, and so on. The greatest economic potential is in factories, followed by cities. Human health and wellness has a large potential as well, but realizing it will require particularly challenging structural and behavior changes among health-care providers, payers and patients.Enablers and barriers. “For the Internet of Things to have the maximum possible impact on economies and society, large-scale adoption is necessary,” notes the report. “Adoption depends on having certain technologies, organizational capabilities, and policies in place. It will also require collaboration among supplier companies and among suppliers, users, and policy makers…”  A number of key enablers are needed to help maximize IoT’s value:

• Technology. This includes inexpensive, low power sensors and computing devices; ubiquitous, low-cost connectivity;  and the ability to collect, analyze, distributed and store huge amounts of data.

• Interoperability. This is the most critical requirement for integrating and realizing the value of IoT systems and applications within each of the physical settings in which they are deployed; “without interoperability, at least 40 percent of potential benefits cannot be realized.”  Interoperability requires both standardization in the technology stacks, and the ability to integrate systems and platforms across vendors.

• Privacy, Security, Confidentiality and IP. Data is absolutely essential to IoT systems. It’s what makes them smart.  Providers of IoT products and services must establish trust with consumers and businesses to gain access to the necessary data. Similarly, trust must be established between the various companies collaborating in IoT settings, which includes respect for everyone’s IP and data ownership and rights.

• Business Organization and Culture. “Implementing IoT-based systems will require major organizational and behavioral shifts for businesses.” These include integrating IoT across just about all of a company’s operations and processes; embracing data-driven decision making; adopting new IoT business models when called for; and embracing a culture of collaboration and sharing with clients, business partners and consumers.

• Public Policy. The digitization of the physical world requires considerable support and actions from policy makers. These include policies to protect the privacy and rights of consumers and businesses; stronger security requirements for critical IoT devices and systems; incentives that promote fair data sharing across companies; and new regulations for autonomous vehicles and machinery.

Major FindingsIn addition, the study includes its overall findings on IoT’s major trends:

• “Interoperability. “Interoperability is critical to maximizing the value of the Internet of Things. On average, 40 percent of the total value that can be unlocked requires different IoT systems to work together.”

• Data. “Most IoT data collected today are not used, and the data that are used are not fully exploited.  A critical challenge is to use the flood of big data generated by IoT devices for prediction and optimization.”

• Advanced/developing economies. “Comparable amounts of value can be unlocked by IoT in advanced and developing economies.  Over the next ten years, more value can be captured in advanced economies than in developing ones, although the volume of IoT deployments could be higher in developing economies.”

• B2B/B2C applications. “Even though consumer applications such as fitness devices garner the most attention, B2B applications offer far more potential economic impact than purely consumer applications.  And even more value can be created when consumer devices are connected to B2B systems.”

• Value capture. “As in other technology markets, customers are likely to capture the most value (upward of 90 percent or more in IoT applications over time, we estimate). The remaining value will be divided among various players providing both broad-based technology and detailed knowledge of vertical markets.”

• New business models. “The Internet of Things will give rise to new business models and bases of competition, both for the companies that use IoT systems and for those that supply IoT technology.”