I have always been fascinated by innovative engineering and the application of technology upon the tough, serious problems that have plagued our society from the very beginning of human existence. From the Wright Brothers first Aircraft in 1903 to the immense towering wind turbines that now span vast areas of our land and coastal areas harnessing natural planetary resources to generate clean sustainable energy that we can use to build new economies, smarter cities and a better standard of living.
I believe that we are on the cusp of a new era in technological innovation, critical if we want to grow our economies, maintain stability and reduce poverty on a global scale. This revolution involves developing an interwoven global fabric of autonomous intelligence into all of our essential infrastructure; ultimately, the amalgamation of physical hardware, sensors, software and decision making capabilities through a myriad of abstraction layers that will fundamentally change the way we interact with the tangible world.
Prior to the global financial crisis of 2008, developed nations have limped along, conveniently masking pressing issues and applying “band aid” solutions to aging, crumbling infrastructure. However we no longer have a choice, this economic downturn has firmly shifted priorities back to the foundation of society, just look at the UK and Europe leading the way with infrastructure capital spending. This remains a true global economic disaster and every nation is scrambling to shed excess as its citizens wait patiently on the sidelines attempting to make sense of what exactly comes next? What will the global stage look like in the next 5 years, where will the opportunities be and what kind of skills will be needed to be a productive, contributory member of society?
The urgency to innovate and enhance our existing systems in core functional areas of Energy, Industry, Communications and Health-care that has never been greater, and until now has never been truly economically or technologically viable. Surmountable benefits such as improved safety, greater efficiency, cost savings, enhanced quality of life and a positive impact on climate change for future generations. Facing rapid population growth, notably in developing nations governments and global enterprises are faced with providing for ever increasing demand on public services, laying the infrastructure for an economy that can grow and serve its people is vital.
There are no boundaries to the limits of such dynamic, “intelligent systems”, we already possess the processing power and the engineering expertise, now its about making the case for innovation, navigating politics and getting on with the work. We have a global workforce in a state of flux, redundant from their past work and seeking new training, desperate to contribute something to the world and to provide for their families. Some of the worlds largest and most respected conglomerates GE and Siemens are already investing heavily in R&D, furthering their technology and promoting innovative solutions to hard problems such as transport infrastructure, energy, building automation and cutting edge health-care. This video from a recently opened Siemens plant in Fort Madison, Iowa highlights the positive self perpetuating cycle that is initiated by investing in innovation, people and local environment. Employees are passionate about working on something bigger than themselves, being at the cutting edge of technological innovation and engineering the future.
This call to action is akin to the enormous effort undertaken to construct the National Power Grid. This sprawling lattice of humming cable has undeniably facilitated the rise of large powerhouse economies such as the UK, US and Europe and the subsequent lifestyles that are entirely reliant on this unlimited supply of energy. It is now time to redeploy our best minds to move to the next stage, an elevated 21st century layer on which we can develop dynamic, sophisticated and self sustaining intelligent systems. A distributed far reaching network, from energy generation through to devices that are able to manage themselves, report data and have awareness of other objects and the ability to communicate over a standard protocol. Development of this layer is necessary to elevate humanity, we have already constructed a global communication and power network which allows individuals and organisations to produce and contribute from even the most remote locations.
This is an exciting time ahead, and I feel optimistic and confident that autonomous intelligence is the necessary tool for tackling some of the worlds toughest issues such as climate change, increasing poverty and domestic inequality in developed nations, rapidly increasing traffic congestion and an antiquated energy generation and distribution network. We also have developing countries such as China, India, Malaysia that are growing rapidly and placing ever greater demand on limited resources coupled with exponential worldwide population growth and all of these individuals want a greater quality of life than previous generations.
Finally, as an Engineer, I wanted to host this blog on my own server running an Ubuntu 10.10 installation. However due to the extremely unreliable power supply from the grid (average 2-3 power cycles per week) I resorted to dedicated hosting. I find this disappointing that residing in the worlds richest and largest economy in a new urban development does not provide consistent power; perhaps as a nation we’re just focused on the wrong things?
… Lets start building a smarter, more prosperous world for all of its inhabitants, and lets use technology to do it!
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