The 5G geopolitics discussed previously (re: Part 2 of my blog) have also spilled into the health arena as well. Early reports of the spread of the coronavirus in China in the country and voil脿 鈥 a new conspiracy theory was born! What鈥檚 more is that this fake news was amplified by a number of 鈥 a convergence of narcissism and ignorance, a potentially potent and dangerous cocktail. One of the unfortunate results of this conspiracy has been the burning of cell towers (and ironically, mostly of the 3G/4G variety) across Europe and North America with potential serious impacts to the provision of basic and critical services. Certainly, some of this behaviour is tied to the broader anti-mobile lobby that has been pushing the 鈥溾 of mobile technology for decades.
Nevertheless, given that 5G is a new technology and represents a significant departure from previous generations of mobile technology, it is certainly fair to ask whether there are any legitimate concerns that one needs to be aware of. These concerns can be bucketed into two groups: environmental and health.
On the , concerns centre predominantly around the significant 5G densification strategy via scaled deployment of small cells. This will inevitably drive impacts across energy consumption, sustainability policy, generation of electronic waste, and even urban aesthetics. The energy equation is extraordinarily complex given the multitude of opposing forces at play. On the one hand, 5G will deliver energy efficiencies (e.g., via novel beam steering technology) reducing the overall RF power levels. Also, small cells will be increasingly powered by sustainable sources including wind and solar. These will be offset by the expected dramatic increases in the number of connected devices and associated increased traffic capacity requirements. Indeed, suggest that by 2023, there will be over 13 billion mobile-connected devices with approximately 10% supporting 5G capabilities. The full impact of 5G will certainly take time to unfold given that we are only at the beginning of this projected 10-year technology cycle. Nevertheless, proactive comprehensive lifecycle analysis (LCA) efforts considering device manufacturing, operations, maintenance, and disposal are needed to better quantify the full environmental impact and thus lay the foundation to effectively inform public policy, lawmakers, business leaders, and citizens alike.
On the human health front, the long-standing proponents of the adverse effects of RF exposure have received significant potential new angles of attack with the planned massive scale of new 5G-enabled RF generating devices to be deployed over the coming years. This is further compounded, they say, by the 5G strategy of leveraging 鈥渉igher energy鈥 millimeter waves for the 鈥渇irst time鈥 with supposedly unknown consequences (in contrast to previous mobile generations that have focused on 鈥渓ower energy鈥 microwaves). What is often lost in these 鈥渄ebates鈥 is the fact that these millimetre waves still fall well below the critical (which sits in the high end of the UV range) at which the data clearly suggest that there is danger (e.g., cancer inducing radiation). That being said, there are some credible voices that have raised concerns, notably the (signed by around 400 scientists/doctors as of late August/2020) that recommends 鈥渁 moratorium in the roll-out of the fifth generation, 5G, for telecommunication until potential hazards for human health and the environment have been fully investigated by scientists independent from industry鈥. On the other side of the debate, the conventional and cautious wait-and-see approach dominates the positioning of governmental health agencies around the world. In a article, bioengineering expert Dr. Kenneth Foster argues that, even though there is an ongoing clear need for high quality research particularly in the higher end of the millimeter wave spectrum, 鈥渟o far, at least, there鈥檚 little evidence of danger鈥 associated with 5G deployment. In the end, using a mobile device (which results by far in the largest RF exposure to any consumer), at least for now, represents an individual choice. You can simply decide to unplug or go off mobile network either intermittingly or permanently鈥t is as straightforward as that.
What about any impact on mental health?
The rise of mobile hyper-connectedness over the last several decades has been a boon for many, but has also caused a high level of stress for others. (鈥no +mobile + phobia), the fear of not being connected, was coined about 10 years ago in the context of conventional mobile handset operation concerns tied to low battery power, lack of coverage (not enough 鈥渂ars鈥) and slow responsivity (the infamous 鈥渟pinning wheel鈥). With 5G鈥檚 support for massive increase in connection density, this stress factor will now inevitably include the impact of a new critical and controversial dimension 鈥 鈥渟urveillance鈥 鈥 as so well developed in Harvard鈥檚 Shoshana Zuboff鈥檚 recently published book, . This surveillance-related stress dimension represents the opposite challenge of nomophobia 鈥 a sort of 鈥渁nomophobia鈥 if you will (add that to your dictionary!), wherein the digital connectivity is in overdrive. How this nomophobia 鈥 anomophobia dynamic will play out regarding the mental health impact debate in the coming decade is still very uncertain.
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5G-Powered 鈥淪urveillance Capitalism鈥
In the 20th century, dystopian futures anchored on an intelligent surveillance infrastructure have been described in various iconic novels including Orwell鈥檚 1984 and Huxley鈥檚 Brave New World. The beginnings of the 21st century set the foundations of the modern context of the digital surveillance debate. In particular, (and the subsequent incorporation over the next decade of GPS within the new consumer 3G/4G mobile smartphones), in parallel with the rise of a number of large and successful social media platforms, have resulted in an implied bargain. This bargain consisted of consumers providing all sorts of invaluable personal and context-optimized data to the global platform/cloud players (often unbeknownst to them) in exchange for 鈥渆nhanced鈥 context optimized connectivity.
China鈥檚 experimentation with its new social credit system, which is subject to a number of , provides an early example of this modern surveillance or monitoring apparatus. In the West in particular, the free-wheeling previous decade dominated by this Faustian bargain was characterized by an exuberant enthusiasm for the perceived positive potential of technology to significantly improve our lives. More recently, this has given way to a growing consumer pessimism about how well private corporations and governments alike understand the .
The new 5G edge, with its massive scale and high-performance potential, will drive this surveillance game to a much deeper level. And going deep has raised very serious questions as eloquently expressed by Thomas Friedman in a ,
鈥淔inally, these prediction products are traded in a new kind of marketplace that I call behavioural futures markets. Surveillance capitalists have grown immensely wealthy from these trading operations, for many companies are willing to lay bets on our future behaviour鈥.Unfortunately, we have not developed the regulations or governance, or scaled the ethics, to manage a world of such deep powers, deep interactions and deep potential abuses.鈥
Although the ubiquitous deployment of this intelligent mobile and increasingly 5G-powered edge infrastructure dramatically raises the stakes regarding privacy and security, the convergence of AI with 5G as manifested in the associated closed loop automation of these emerging surveillance systems poses additional risks. More specifically, to what extent and in what capacity then do we need humans in the loop (HITL)? This is a complex question, but what is clear is that context is key. For example, the future success of !
And then came COVID-19, with all the global efforts on so-called contact tracing, which has forced a reshaping of the surveillance question as :
鈥In this time of crisis, we face two particularly important choices. The first is between totalitarian surveillance and citizen empowerment. The second is between nationalist isolation and global solidarity.鈥
Harari鈥檚 assertion that COVID-19 will drive a transition from 鈥渙ver the skin to under the skin surveillance鈥 certainly puts a unique modern spin on the ancient Greek classic Delphic precept 鈥淜now Thyself!鈥
In the end, the rollout of 5G, particularly in our growing smart cities, will necessarily accelerate what is expected to be an increasingly contentious debate on 鈥渕onitoring鈥, particularly in the West, on the development of new ideas and solutions to tackle long standing traditional questions as to
Given all the simultaneous complex challenges and rich opportunities driving the 5G ecosystem, how does one then go about to best prepare for this new wave of massive disruption and innovation? This is the subject of the last part of my blog series on 5G entitled 鈥Preparing for the 5G 鈥淏rave New World鈥.
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About John Nikolopoulos John Nikolopoulos is a Mobile/Cloud/Telecom/IT global technology/consulting executive with 25+ years in senior leadership roles in Sales, BD/GTM, Product/P&L Management, and Solution/Systems Architecture teams driving global channels, partnerships & enterprise deployments with $billions of global sales in diverse industry verticals within F500/Large Cap enterprises (Accenture, Nortel, and Sagemcom ) as well as high profile start-ups such as Corvis Corp., where he was part of the senior GTM/execution team leading to one of the largest exits in tech industry history with a 1.1 billion$ IPO. John has a significant international technical publication (50+) and public speaking record, contributed to multiple patent filings, achieved senior member status within the IEEE, and gained extensive Wall Street/Silicon Valley Analyst/Board of Directors executive communications experience. |