In the example above, the effect of disruptive innovation driven by Moore’s Law revolutionized the music industry and disrupted the market for the traditional piano. The wireless broadband industry is on the verge of a similar such revolution with the dawn of the Software-Defined Radio (SDR). If a musician can summon a $50,000 Grand Piano on a $500 laptop, could it also be possible to summon a $50,000 WiMAX base station on a $500 modular computing platform? The answer is yes, and it has astounding implications for wireless broadband.

At its basic level, Software-Define Radio is the virtualization of the physical hardware components of a radio system within software. The exceptions to this virtualization is the A/D front-end and the antenna, which are required to physically produce the electromagnetic radio signal, much the same way that a sound card and speaker is required to physically project the sound waves of the software-defined grand piano in the previous example.

There are significant advantages to SDR beyond price. Imagine if a cellular base station could broadcast a WIMAX signal during one time-slot, broadcast an LTE signal during another time-slot, and broadcast a Personal / Portable White Space signal during another time-slot. This is possible within software, but would create a very difficult design challenge using traditional hardware based radio modules. Such a system would require an extremely complex mechanism to coordinate between physical hardware components. In addition, such a system would be very expensive and have a very large physical footprint. SDR is not limited by the constraints specific to dedicated hardware. To understand this point, think about what the world would be like if modern computing developed in such a way that a computer was single purpose and you needed separate machines to access email, the Internet, and other dedicated applications. The very notion of adding a dedicated device for every new application is foreign in the computer age, where the theoretical concepts of computer science and software developed by Turing and other pioneers are thoroughly ingrained in our thinking. In the example above, the fundamental concept of software has been applied to that of a cellular base station.

Software radios allow systems to be adaptive and intelligent and aware of the environment. What if an SDR base station could dynamically enable and disable software modules such as WIMAX, LTE and White Space based on cognition of the user base at any given moment in time? What if the base station could download operating firmware from client devices when these new devices enter the cell? What are the implications for femto / pico cell and municipal wireless networks? SDR introduces a paradigm in the way radios divide frequency, space and time and adapt to the environment. In a world where the regulated airwaves are so heavily constrained, SDR offers an efficient and self-optimized means of converging a diverse and transforming user base.