Trends Identified

Order comes to the Wild West of data collection.

After a year of scandals, the implementation of Europe’s GDPR and upcoming copycat legislation from other jurisdictions, the advertising business will move away from the wholesale collection of personal data and the extreme personalization of advertising, predicts Mihael Mikek, the founder and CEO of digital advertising platform Celtra. “The question will come down to, Is the data being used in a way that benefits the consumer or not?” he explains. “In the last five years, it’s been such a crazy race to collect as much as possible.” Advertisers will follow consumers, who will demand more ethical and consent-based use of their data. After The New York Times' investigation of location-tracking appspublished yesterday, location data is likely to be the next battlefront.

2018

50 Big Ideas for 2019: What to watch in the year ahead

LinkedIn

Orchestrated analytical security

Nontraditional systems are now getting connected, exposing the organizations that use them in entirely new ways. Organizations will have to make peace with the security reality of today and begin preparing their second line of defense—data platforms—to mitigate the damage of attacks that get through

2012

Accenture Technology Vision 2012

Accenture

Optogenetics

Brains—even relatively simple ones like those in mice— are daunting in their complexity. Neuroscientists and psychologists can observe how brains respond to various kinds of stimuli, and they have even mapped how genes are expressed throughout the brain. But with no way to control when individual neurons and other kinds of brain cells turn on and off, researchers found it very difficult to explain how brains do what they do, at least not in the detail needed to thoroughly understand—and eventually cure—conditions such as Parkinson’s disease and major depression. Scientists tried using electrodes to record neuronal activity, and that works to some extent. But it is a crude and imprecise method because electrodes stimulate every neuron nearby and cannot distinguish among different kinds of brain cells. A breakthrough came in 2005, when neurogeneticists demonstrated a way to use genetic engineering to make neurons respond to particular colors of light. The technique, known as optogenetics, built on research done in the 1970s on pigment proteins, known collectively as rhodopsins and encoded by the opsin gene family. These proteins work like light-activated ion pumps. Microbes, lacking eyes, use rhodopsins to help extract energy and information from incoming light. By inserting one or more opsin genes into particular neurons in mice, biologists are now able to use visible light to turn specific neurons on or off at will. Over the years, scientists have tailored versions of these proteins that respond to distinct colors, ranging from deep red to green to yellow to blue. By putting different genes into different cells, they use pulses of light of various colors to activate one neuron and then several of its neighbours in a precisely timed sequence. That is a crucial advance because in living brains, timing is everything. A signal issued at one moment may have the complete opposite effect from the same signal sent out a few milliseconds later. The invention of optogenetics greatly accelerated the pace of progress in brain science. But experimenters were limited by the difficulty of delivering light deep into brain tissue. Now ultrathin, flexible microchips, each one hardly bigger than a neuron, are being tested as injectable devices to put nerves under wireless control. They can be inserted deep into a brain with minimal damage to overlying tissue. Optogenetics has already opened new doors to brain disorders, including tremors in Parkinson’s disease, chronic pain, vision damage and depression. The neurochemistry of the brain is clearly important for some brain conditions, which is why drugs can help improve symptoms—up to a point. But where the high-speed electrical circuitry of the brain is also disturbed, optogenetic research, especially when enhanced by emerging wireless microchip technology, could offer new routes to treatment. Recent research suggests, for example, that in some cases non-invasive light therapy that shuts down specific neurons can treat chronic pain, providing a welcome alternative to opoids. With mental disorders affecting one in four people globally and psychiatric diseases a leading source of disability, the better understanding of the brain that advanced optogenetics will provide cannot come soon enough.

2016

Top 10 Emerging Technologies of 2016

World Economic Forum (WEF)

Optimize for both social and business value

Several trends are fueling resentment toward business. The climate crisis and other negative externalities are increasingly visible, automation is sparking fear about the future of work, trust in technology is falling, inequality has risen markedly within many countries, and the most successful companies are becoming larger, more visible, and more powerful. As a result, the role of business in society is coming under question, risking the sustainability of the current model of corporate capitalism. Political institutions are not likely to address these concerns effectively in the foreseeable future. Demographics that portend lower global growth, massive public debts that limit investment, tensions resulting from international migration, and a social media landscape that amplifies extreme voices are all likely to continue fueling divisive, populist politics. The rise of China, and the growing US response, challenge the stability of multinational institutions that businesses rely on. In an era characterized by polarization, everything in business will likely become “political.” To keep the game of business going, business needs to be part of the solution. All stakeholders increasingly expect companies to play a more prominent role in addressing social challenges, which will be reinforced as newly adopted metrics and standards make their efforts and impacts more transparent. Leaders need to focus on their companies’ total societal impact—in other words, they need to make sure that their businesses create social as well as economic value. Not only can this increase financial performance in the long run, but it can strengthen the social contract between business and society, ensuring that the relationship is able to endure. Leaders will need to master the art of corporate statesmanship, proactively shaping the critical societal issues that will increasingly change the game of businesses.

2018

Winning the ’20s: A Leadership Agenda for the Next Decade

Boston Consulting Group (BCG)

Optical Coherence Tomography

2017

Top 50 Emerging Technologies 2017

Frost & Sullivan

Operating Systems And Analytics For Buildings

“As there’s more data available from sensors in buildings, they will provide analytics that could ‘say, turn off your HVAC 20 minutes earlier,’ and that could be a huge savings. Anything that moves in a building, a hinge, an elevator, a desk, will have a sensor in it…No joke, it’s a trillion-dollar capital opportunity.”

2018

The Most Important Tech Trends Of 2018, According To Top VCs

Fast Company

Opening doors

Traditionally, the complexity and opaqueness of government has served to limit participation and minimise public value for underserved and at-risk populations. Only those with the means or knowledge to navigate this environment have been able to maximise the value of government. However, new technologies, open data and the emergence of new business models in the private sector are creating space for government to explore a range of possibilities. Such mission-oriented and adaptive innovations seek to explore ways to open doors for everyone to access the public value of government, while also embracing the major shifts occurring in people’s everyday lives.

2019

EMBRACING INNOVATION IN GOVERNMENT-Global Trends 2019

OECD

Open-source warfare grows

“Do-it-yourself” surveillance and weapon systems will likely become more common, enabling new kinds of crimes and conflict. For example, the Switchblade Drone is lethal at short distances and fits in a small backpack. New developments in sensors, robotics and nanotechnology could lead to the more widespread use of remote sensors in surveillance, intelligence and warfare. Miniature unmanned aerial, surface and aquatic vehicles and devices – controlled either remotely or autonomously – are expected to become more prevalent. These will be smaller, cheaper and more widely available than today. Open-source knowledge may lead to widely distributed cyber-warfare capabilities. In addition, do-it-yourself enthusiasts may use synthetic biology to produce and release harmful substances into the environment – either accidentally or on purpose. In all these cases, technology originally created to enhance security may become the threat. In response, pre-programmed nanodevices and robots will likely create security networks and sensing surfaces that could identify threats such as nano-enabled weapons, viruses and poisons.

2013

Metascan 3 emerging technologies

Canada, Policy Horizons Canada

Open source is enabling community problem solving and differentiation

Often a problem is widely experienced by many different firms. Instead of solving it individually and sub-optimally, it makes sense to band together and solve it as a community. The open source model enables companies to tap into a community dedicated to building modern software, and to align with vibrant, active projects. As such, companies can accelerate innovation on the differentiating parts of their platform while leveraging the underlying foundational innovation of the broader open source community. The open source model lowers costs and in some cases achieves vendor independence. Notably, the cloud providers’ embrace of open source is leading to lower cost for additive cloud services as well as more robust competition. Open source also helps to attract the next generation of talent, who want to work on cutting-edge projects and have a positive impact on the world. Linux, an open source solution that modernized and replaced an outdated alternative, is a great success story. But not all projects achieve that level of success, and it is important to identify which ones are likely to remain vibrant and viable. One indicator is when the founders remain involved and the project is growing, as in the case of Confluent and Databricks with Apache Spark and Apache Kafka. Another positive sign is when open source projects are widely adopted across the major cloud providers, such as Docker and Apache Spark. Perhaps one misperception is that the acquisition risk is lower with open source technology. IBM bought Red Hat recently, and VMWare bought Heptio. As a result, companies that have decided to migrate toward an open source technology may find themselves bound to a large incumbent vendor once again. If this trend continues, the full benefits of tapping into open source may not be long-lasting. Moreover, some new license frameworks prohibit companies from reselling what they have built on open source. Given these trends, Nasdaq plans to contribute to a select group in the open source community. In particular, open source makes it easier for exchange customers to access data and derive insights from it in real time. If market participants handle data in a common way and with a common set of tools, individual firms do not have to devote resources to building those tools. Importantly, data can be shared in a way that does not compromise security and integrity to the benefit of all.

2019

NASDAQ DECODES: TECH TRENDS 2019 -The technology trends that are driving the world of markets forward

Nasdaq

Open Secrets

When the huge resources being devoted to quantum research lead to large-scale quantum computing, many of the tools that form the basis of current digital cryptography will be rendered obsolete. Public key algorithms, in particular, will be effortlessly crackable. Quantum also promises new modes of encryption, but by the time new protections have been put in place many secrets may already have been lost to prying criminals, states and competitors. A collapse of cryptography would take with it much of the scaffolding of digital life. These technologies are at the root of online authentication, trust and even personal identity. They keep secrets—from sensitive personal information to confidential corporate and state data—safe. And they keep fundamental services running, from email communication to banking and commerce. If all this breaks down, the disruption and the cost could be massive. As the prospect of quantum code-breaking looms closer, a transition to new alternatives— such as lattice-based and hashbased cryptography—will gather pace. Some may even revert to low-tech solutions, taking sensitive information offline and relying on in-person exchanges. But historical data will be vulnerable too. If I steal your conventionally encrypted data now, I can bide my time until quantum advances help me to access it, regardless of any stronger precautions you subsequently put in place.

2019

The Global Risks Report 2019 14th Edition

World Economic Forum (WEF)